KR20110013783A - Sealing structure for discharge valve link of auto waste collection system and method thereof - Google Patents

Abstract

PURPOSE: A discharge valve link sealing structure of an automatic waste collection system and a method thereof are provided to smoothly transport waste to a waste collection site and maintain uniform pressure. CONSTITUTION: A discharge valve link sealing structure of an automatic waste collection system comprises a storage chute(1), a box-type supporter(60), a plate(70), and a connecting tube(4). The storage chute has an outlet(2) on the lower side connected to a delivery pipeline. An opening/closing plate(50) is installed on the bottom of the outlet. The supporter is located on one side of the storage chute and protects an opening/closing unit operating the opening/closing plate, wherein the whole sides of the supporter, except the open bottom side, is closed. The plate is joined to the underside of the storage chute and the supporter and has an opening on the inner side of the junction. The connecting tube is connected to the underside of the plate outside the supporter and the storage chute and to the top of the delivery pipeline.

Description

Sealing Structure for Discharge Valve Link of Auto Waste Collection System and Method

The present invention relates to a discharge valve link sealing structure and a method of an automatic waste collection facility, and more particularly, by sealing the link of the discharge valve with a box-type support so that rainwater does not flow into the transport pipe during flooding with external air. The present invention relates to a discharge valve link sealing structure and a method for preventing damage caused by leakage and infiltration of suction force in a transport pipeline.

The automatic garbage collection facility is a facility that transfers garbage sucked together with air by the suction power of the blower to the storage facility through a transport pipeline. Unlike conventional collection methods by personnel and vehicles, household wastes and wastes If the garbage is installed in the inlet, it is transported to the central collection facility along with the high-speed air (approximately 70 ~ 90km / h) flowing through the transport pipeline under the control of the central control system. Refers to equipment that is automatically loaded into the final processing plant after automatic loading.

This automatic garbage collection facility solves the odor and hygiene problems caused by the conventional collection method, creates a pleasant living environment, solves the pollution and safety problems of the collected vehicles, and improves the urban life with an eco-friendly image, unnecessary resources and It prevents waste of energy, reduces the operation and management costs of residents with unmanned system, and economic effect of consolidating the local government's finances by the need of collecting personnel and vehicle operation, and odor, leachate, damage caused by animals, etc. The hygienic effect to prevent this is expected.

Therefore, a lot of automatic garbage collection facilities have been introduced to hospitals, large restaurants, high-rise buildings, airports, and the like, which are recently constructed.

The above automatic garbage collection facility collects and disposes garbage in large quantities, and a plurality of feeders installed in various places on the ground so that the garbage can be put in, and the waste introduced through the plurality of waste feeders It is provided with a transport pipe which is buried underground so that it can be transported by suction of air to the storage.

The waste injector is provided with a storage chute so as to temporarily store the input waste, and a discharge valve for controlling the opening and closing of the waste injector is installed at a lower portion of the storage chute communicating with the transport pipe.

The discharge valve includes an opening and closing means for opening and closing the storage chute, when the transport pipeline is completely sealed to prevent leakage of vacuum suction force when transporting the waste, the waste is smoothly transported in the transport pipeline to waste energy or systemically. No error will occur.

However, conventionally, the outside air is introduced into the transport pipe (even though the amount of water introduced by one feeder is small, hundreds of garbage feeders are connected to one transport pipe, so a large amount of air is introduced), and rainwater penetrates into this. Because of this, garbage can not be transported smoothly, the blower capacity is overestimated and it is difficult to maintain a constant pressure.

In addition, when an unexpected fire occurs in the garbage, the flames are increased by the inflowing air, and the transportation system is lost, and the flames may spread to the outside, thereby causing a larger fire.

The present invention has been made in order to solve the above problems, by sealing the link of the discharge valve with a box-shaped support to prevent the outside air from entering the rain pipe during the rainy season during the rainy season due to leakage of the suction force in the transport pipe and flooding It provides a discharge valve link sealing structure and method for automatic waste collection facilities that can prevent damage and smoothly transport waste, maintain a constant pressure, suppress fire, and block out flames. There is a purpose.

Discharge valve link sealing structure of the automatic waste collection facility according to the present invention for achieving the above object is a discharge chute formed in communication with the transport pipe in the lower portion, the storage chute provided with an opening and closing plate in the lower portion;

A box-shaped support that is located at one side of the storage chute and protects the opening and closing means for operating the opening and closing plate, and the front surface of the storage chute is closed except for the open bottom;

A plate bonded to the lower portion of the storage chute and the support and having an opening formed at an inner portion of the junction;

It is characterized by consisting of a communication tube coupled to the lower surface of the storage chute and the support outer plate is coupled to the upper portion of the transport pipe.

In addition, the discharge valve link sealing method of the automatic garbage collection facility according to the present invention supports a component that is fixed to the support of the components of the discharge valve opening and closing means inside the box-shaped support with the front, rear and bottom surfaces open. Fixing the support to the plate on which the opening is formed after fixing to the inside of the plate;

Assembling and installing the remaining components of the opening and closing means through the opened front and rear and bottom surfaces of the support body;

Attaching a gasket to the open front and rear edges of the support;

After the sealing plate on the gasket so as to cover the open portion of the front and rear, characterized in that it comprises a step of closely coupling to the front and rear of the support by bolting.

According to the above-described problem solving means, by preventing the damage caused by leakage and inundation of the suction force in the transport pipeline, the waste is smoothly transported to the dump, and maintain a constant pressure, while suppressing the occurrence of fire and the flame out Can be blocked.

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

Figure 1 is an exemplary view of the discharge valve opening and closing means to which the present invention is applied, Figure 2 is an installation example of the opening and closing means shown in FIG.

As shown, a discharge port 2 is formed at a lower portion of the storage chute 1 for temporarily storing the injected garbage, and a disk-shaped opening and closing plate 50 having a size capable of sealing the entire discharge port 2 is provided. Coupled to the driven lever 40 to rotate around the two rotary shafts 43 to open or close the outlet (2).

The support 60 is provided at one side of the predetermined distance of the storage chute 1 so as to seal while protecting the opening and closing means constituting the discharge valve, and the lower part of the storage chute 1 and the support 60 is plated by welding. It is integrated with 70.

At this time, the portion of the plate 70 inside the storage chute 1 becomes the first open portion 70a to discharge the wastes, and the portion of the plate 70 inside the support 60 is the second open portion 70b. ) And the driven lever 40 penetrates through the second opening part 70b.

In the lower portion of the storage chute 1 spaced apart from the predetermined distance, a transport pipe line 3 for transporting the waste to the garbage collection area is buried, and the support 60 and the plate 70 outside the storage chute 1 are embedded. Opening portions 70a and 70b of the plate 70 communicate with the transport conduit 3 by the communication tube 4 coupled to the lower surface and coupled to the upper part of the transport conduit 3.

In addition, a cylinder 12 is installed on the ceiling 60a of the support 60 so that the piston rod 14, which is sunk by sliding, can rotate downward by a predetermined angle. The fixed frame 20 is fixed to be spaced apart at a predetermined interval in the fixed frame 20 is formed in a curved so that the guide hole 22 is rounded down the center portion.

The center portion of the actuating lever 30 bent approximately L between the two fixed frames 20 is coupled to the fixed frame 20 by the first pivot 31 so that one end of the piston rod of the cylinder 12 ( 14), the other end is coupled to the guide pin 32 at one end of the driven lever 40.

At this time, the guide pin 32 is coupled to the guide hole 22 of the fixed frame 20 by passing through the other end of the long hole 41 and the operation lever 30 formed in a straight line at one end of the driven lever 40.

The driven lever 40 is bent at an obtuse angle so that the center portion is coupled to the lower portion of the support 60 by the second pivot shaft 43, and the other side thereof is the second open portion 70b of the plate 70. It is coupled to the center of the opening and closing plate 50 while penetrating).

In the above configuration, when the piston rod 14 of the cylinder 12 protrudes, the operating lever 30 connected to the piston rod 14 is rotated clockwise about the first rotation shaft 31.

When the operation lever 30 is rotated clockwise about the first rotation shaft 31, the driven lever 40 coupled to the other end of the operation lever 30 with the guide pin 32 may move the second rotation shaft 43. Rotate counterclockwise around the center.

At this time, the guide pin 32 is moved to the opposite side along the guide hole 22 formed of the fixed frame 20.

As the driven lever 40 rotates in the counterclockwise direction, the opening and closing plate 50 coupled to the driven lever 40 is also rotated, whereby the opening and closing plate 50 is opened, the outlet 2 is opened, and the garbage falls. It is located in the transportation pipe (3).

When the piston rod 14 contracts, the operation lever 30 and the driven lever 40 move in the opposite directions of the protrusion, and the opening and closing plate 50 is closed to close the outlet 2.

On the other hand, the opening portion (70a, 70b) of the plate 70 and the transportation pipe path (3) is communicated by the communication tube (4).

Therefore, in order to prevent the outside air from flowing into the transport pipe 3 by the sealing, it is necessary to prevent the inflow of the outside air through the openings 70a and 70b of the plate 70, and the first opening part 70a. Although the outlet part 2 may be sealed by the opening and closing plate 50, the inflow of external air may be prevented, but the second opening part 70b may directly penetrate the second opening part 70b since the driven lever 40 penetrates. It is impossible to seal with.

Therefore, the present invention seals the other surface except for the lower surface of the support body 60 in communication with the second opening portion 70b of the box-shaped support 60, such as to facilitate the installation, inspection and repair of the opening and closing means as follows: The support 60 is sealed in a manner.

3a to 3d are views for explaining the process of the sealing structure of the discharge valve according to the present invention.

First, as shown in FIG. 3A, a component fixed to the support 60, that is, fixed to the support 60, among the components of the opening and closing means inside the box-shaped support 60 in which the front, rear, and bottom surfaces are opened. ) Is bonded to the inner lower portion of the support body 60 by welding, and then the support body 60 is fixed to the plate 70 on which the second open portion 70b on one side of the storage chute 1 is formed.

As shown in FIG. 3B, the remaining components of the opening and closing means, that is, the cylinder 12, the operation lever 30, and the driven lever 40, are assembled and installed through the opened front, rear, and bottom surfaces as shown in FIG. 3B. And one end of the driven lever 40 is coupled to the opening and closing plate (50).

As shown in FIG. 3C, the gasket 80 is attached to the open front and rear edges of the support 60.

3D, the sealing plate 90 is covered to cover the front and rear surfaces of the gasket 80, and then completely adhered to the front and rear surfaces of the support 60 by bolting.

At this time, since the bolt hole is formed in a position corresponding to each other in the support 60, the gasket 80 and the sealing plate 90, the bolting operation is very easy.

The entire sealing portion of the support body 60 except for the lower surface is sealed by the sealing structure described above so that air does not flow through the second opening portion 70b of the plate 70.

In addition, when checking the failure of the opening and closing means or when a failure occurs and repair is necessary, the bolting of the sealing plate 90 may be released to open the front or rear side of the support 60.

While specific embodiments of the present invention have been described and illustrated above, it will be apparent that the present invention may be embodied in various modifications by those skilled in the art. Such modified embodiments should not be understood individually from the technical spirit or prospect of the present invention, but should fall within the claims appended to the present invention.

For example, the cylinder 12, the fixed frame 20, the operation lever 30, and the driven lever 40 constituting the opening and closing means are just one example for explaining the sealing structure of the discharge valve, and the support 60 The front and rear of the opening is not limited to the present invention because it is advantageous to assemble or check the opening and closing means having the above-described components.

1 is an exemplary view of a discharge valve opening and closing means to which the present invention is applied;

Figure 2 is an installation example of the opening and closing means shown in Figure 1,

3a to 3d are views for explaining the process of the sealing structure of the discharge valve according to the present invention.

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

1: storage chute 2: outlet

3: transportation pipe 4: communication pipe

12: cylinder 20: fixed frame

30: operating lever 40: driven lever

50: opening and closing plate 60: support

70: plate 80: gasket

90: sealing plate

Claims (6)

A storage chute having a discharge port formed at a lower portion thereof so as to communicate with a transport line, and having an opening and closing plate disposed below the discharge hole; A box-shaped support that is located at one side of the storage chute and protects the opening and closing means for operating the opening and closing plate, and the front surface of the storage chute is closed except for the open bottom; A plate bonded to the lower portion of the storage chute and the support and having an opening formed at an inner portion of the junction; Discharge valve link sealing structure of the automatic waste collection facility, characterized in that consisting of a communication pipe coupled to the lower surface of the storage chute and the plate outside the support is coupled to the upper portion of the transport pipe. The method of claim 1, Any one or more surfaces except for the lower surface of the support is sealed by a sealing plate coupled to the outside in the open state discharge valve link sealing structure of the automatic waste collection facility. The method of claim 2, When the support is located on the side of the storage chute one side of the sealing plate is coupled to the discharge valve link sealing structure of the automatic garbage collection facility, characterized in that the front and rear. The method according to claim 2 or 3, Discharge valve link sealing structure of the automatic waste collection facility, characterized in that the gasket is attached to one surface to which the sealing plate is coupled. After fixing the inside of the support of the components of the discharge valve opening and closing means in the inside of the box-shaped support, the front and rear and the lower surface is fixed to the support, and then fixing the support to the plate formed with the opening Wow; Assembling and installing the remaining components of the opening and closing means through the opened front and rear and bottom surfaces of the support body; Attaching a gasket to the open front and rear edges of the support; Discharge valve link sealing method of the automatic garbage collection facility, characterized in that consisting of the step of putting the sealing plate on the gasket so as to cover the open portion of the front and rear close contact to the front and rear of the support by bolting. . The method of claim 5, Discharge valve link sealing method of the automatic waste collection facility, characterized in that the bolt hole is formed in a position corresponding to each other of the support, the gasket and the sealing plate.

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