KR20090059986A - Refuse carriage collecting processing system of pipe leakage and method thereof - Google Patents

Abstract

A pipe leakage sensing system of a refuse conveying and collecting system and a method thereof are provided to manage and repair a pipe by detecting leakage generated in an air-pressure pipe and a refuse conveying pipe. A pipe leakage sensing system of a refuse conveying and collecting system detects leakage of an air-pressure pipe(100) and a refuse conveying pipe(10). The pipe leakage sensing system includes pressure sensors at a negative pressure side(12,14), a section valve(S1,S2), pressure sensors at positive pressure side(102,104), and a central controller(300). The pressure sensors are installed on the refuse conveying pipe. The section valve opens and closes the pipe. The pressure sensor determines leakage of the pipe and is connected on each measurement section in which the section valve is installed.

Description

Refuse carriage collecting processing system of pipe leakage and method

The present invention relates to a pipeline leakage detection system and a method of the waste transportation collection processing system, and more particularly, to a pipeline leakage detection system of a waste transportation collection processing system capable of detecting leakage of both the waste transportation pipeline and the operation pneumatic pipeline and It is about a method.

The waste transportation pipeline is an efficient and hygienic collection and transportation facility for the final disposal of wastes in automatic collection facilities, which is emerging as an alternative to the existing waste collection and transportation facilities.

This is because the odor, hygiene and aesthetic problems that occur before the garbage is collected are resolved. In addition, there is no problem such as noise, soot, aesthetics, and traffic jams generated when the cleaning equipment or the vehicle is running to collect garbage. In addition, since it is collected and transported as a garbage pipeline, it is effective because it can meet the quality of life and environmental acceptance required in modern society.

In order to take advantage of this automatic waste collection system, the pipes should be kept clean and free from blockage, and the wall thickness within the pipes should be well managed. In particular, there should be no leakage in the pipeline.

For example, in the case of a waste transportation pipe in which waste is transported, if leakage occurs, the air suction input is lowered, thereby lowering the transportation force or causing a problem in transportation. In addition, when the leakage occurs in the pneumatic operation line for operating the various valves installed in the middle of the input equipment and pipelines, the operation force is dropped, causing a problem of inoperability.

Therefore, in the waste collection processing system, a waste transport pipeline and an operation pneumatic pipeline are required to detect a leak at all times.

Therefore, the present invention was created in view of the above circumstances, so that the waste transport pipe and the operation pneumatic pipe can be detected at all times to deal with repair and replacement before the occurrence of waste transport or operation accidents. It is an object of the present invention to provide a pipeline leakage detection system and a method of a waste transport collection processing system.

Specific means of the pipeline leakage detection system of the waste transportation collection processing system of the present invention for achieving the above object,

In the system for detecting each leak in the waste transport pipeline and the operation pneumatic pipeline of the waste collection processing system,

A plurality of negative pressure side pressure sensors installed in each of the measurement sections in the waste transportation pipe;

A plurality of section valves installed on the operation pneumatic pipe line to open and close the pipe line every measurement section;

It is characterized in that it comprises a plurality of pressure-side pressure sensor connected to each measurement section installed section valve.

Also according to the invention,

Each negative pressure side pressure sensor and each positive pressure side pressure sensor are characterized in that the central control unit for determining the leakage of the pipe is connected.

Also according to the invention,

The central control unit further includes a control means for controlling the operation of the air blower connected to the suction blower and the pneumatic pipe for operation to generate a negative pressure connected to the plurality of section valves and the waste transport pipe.

Also according to the invention,

The plurality of negative pressure side pressure detectors, the positive pressure side pressure detectors, and the section valves are each located in a plurality of cavity manholes.

In addition, the specific means of the pipeline leakage detection method of the garbage transport collection processing system according to the present invention,

In the method for detecting each leak in the waste transport pipeline and the operation pneumatic pipeline of the waste collection processing system,

Operating a suction blower connected to the waste transportation pipe to form a vacuum pressure;

It characterized in that it comprises the step of detecting the pressure through a plurality of negative pressure side pressure sensor installed for each measurement section in the waste transportation line.

Also according to the invention,

Operating a air compressor connected to the operation pneumatic pipe line to form a positive pressure;

It characterized in that it further comprises the step of sensing the pressure through a plurality of positive pressure side pressure sensor while sequentially operating a plurality of section valves installed in the operation pneumatic pipe.

Also according to the invention,

It is characterized in that it further comprises the step of detecting the pressure difference through the central control unit 300 connected to each negative pressure side pressure sensor.

Also according to the invention,

Sensing the pressure through the central control unit connected to each of the positive pressure side pressure sensor is characterized in that it further comprises.

According to the pipeline leak detection system and method of the waste transportation collection processing system of the present invention, it is possible to quickly grasp whether and where the leakage occurs in the waste transport pipeline and the operation pneumatic pipeline.

Therefore, the pipeline can be managed, repaired, and replaced, thus eliminating the problem of waste transportation and preventing the operation of various pneumatically operated valves and facilities.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a pipeline leak detection system of the refuse transport collection processing system according to the present invention, Figure 2 is a control flow diagram of the pipeline leak detection system of the waste transport collection processing system according to the first embodiment of the present invention.

<First Embodiment>

The present invention provides a system for detecting each leak in the waste transport pipe line 10 and the operation pneumatic pipe line 100 applied to the waste collection processing system as shown in FIG.

The waste transportation pipe line 10 is provided with a plurality of negative pressure side pressure sensors 12 and 14 for each measurement section. In the present embodiment, two negative pressure side pressure sensors 12 and 14 are provided respectively, but are increased in accordance with the measurement section. For example, two negative pressure side pressure sensors are required in two measurement intervals.

The suction blower 16 is connected to the waste transport pipe 10. The suction blower 16 is used to induce air suction to induce the transportation of waste, and in the present embodiment, it is used for pressure detection of negative pressure in the waste transportation pipe line 10. Here, the negative pressure means a vacuum pressure lower than atmospheric pressure.

The operation pneumatic pipe 100 is provided with a plurality of section valves (S1, S2) for opening and closing the pipe for each measurement section. Here, the operation pneumatic pipe line 100 refers to a pipe for operating a leachate pumping facility, a section valve, a waste input facility, a variety of valves in the storage.

A plurality of positive pressure side pressure sensors 102 and 104 are provided for each measurement section in which the section valves S1 and S2 are installed. At this time, each of the negative pressure side pressure sensor 12 and each of the positive pressure side pressure sensor 102 is connected to the central control unit 300 for determining the leakage of the pipe. The central control unit 300 includes control means (not shown) for controlling the operation of the section valves S1 and S2, the suction blower 16 for generating the negative pressure, and the air compressor 106 connected to the operation pneumatic pipe line 100. Included. In addition, the central control unit 300 is provided with a monitor indicating the pressure difference between the negative pressure side pressure sensors 12 and 14 and the pressure values of the positive pressure side pressure sensors 102 and 104. Here, the negative pressure side pressure sensors 12 and 14, the positive pressure side pressure sensors 102 and 104, and the section valves S1 and S2 are respectively located in the plurality of cavity manholes H for ease of installation and management.

The operation of this embodiment configured as described above will be described with reference to the flowchart of FIG.

Figure 2 is to detect the leakage at the same time from the waste transport pipe line 10 and the operation pneumatic pipe line 100 when the pipeline leak detection is activated.

First, the suction blower 16 connected to the waste transportation pipe line 10 is operated to detect leakage in the waste transportation pipe line 10 (S10). By the operation of the suction blower 16, a vacuum pressure is formed in the waste transport pipe line 10 so that the sucked air passes through the waste transport pipe line 10.

In this process, pressure detection is made from a plurality of negative pressure side pressure detectors 12 and 14 installed at each measurement section in the waste transportation line 10 (S11), which is connected to the respective negative pressure side pressure detectors 12 and 14. The pressure difference is obtained through the central control unit 300. In the central control unit 300, the pressure difference value is displayed through a monitor.

Therefore, when a pressure difference occurs in the negative pressure side pressure detectors 12 and 14, it can be seen that leakage occurs due to pressure loss in a section in which these negative pressure side pressure sensors 12 and 14 are installed (S12). As a result, the location of the leak can be identified and coped with garbage can be coped with by repairing or replacing the pipeline.

Next, the pressure measurement occurring in the operation pneumatic pipe 100 will be described.

First, the air compressor 106 connected to the operation pneumatic pipe 100 is operated (S20). Therefore, a static pressure higher than atmospheric pressure is formed in the operation pneumatic pipe 100.

At this time, while operating the plurality of section valves (S1, S2) installed in the operation pneumatic pipe 100 in order to detect the pressure through a plurality of positive pressure side pressure detectors (102,104). That is, the first section valve (S1) is closed (S21), the pressure formed in the first section between the section valve 102 and the air compressor 106 is measured (S22).

Next, the first section valve 102 is opened (S23), the second section valve S2 is closed (S24), and the pressure formed in the second section between the first section valve 102 and the second section valve S2 is measured ( S25).

In this way, the pressure sensing is obtained for each section by the operation of the sequential section valves S1 and S2, and the pressure sensing signal is input to the central control unit 300 connected to each of the positive pressure side pressure sensors 102 and 104, and the central control unit ( Each pressure value is processed through 300, and the pressure value is displayed on a monitor.

In this way, by comparing the pressure value for each section in the operation pneumatic pipe line 100 obtained in this way, the pressure is relatively read and the pressure leakage position of the corresponding section is checked (S26).

Second Embodiment

3 is a control flowchart of a pipeline leak detection system of a garbage transport collection processing system according to a second embodiment of the present invention.

In the second embodiment, when the pipe leakage detection is activated as shown in FIG. 3, the waste transport pipe line 10 first detects a pressure difference (A), and then detects a pressure of the operation pneumatic pipe line 100 (B). You can also proceed in order.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

1 is a block diagram of a pipeline leak detection system of the refuse transport collection processing system according to the present invention.

Figure 2 is a control flow diagram of the pipeline leak detection system of the garbage transport collection processing system according to the first embodiment of the present invention.

Figure 3 is another control flow diagram of the pipeline leakage detection system of the garbage transport collection processing system according to a second embodiment of the present invention.

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

10: With trash pipeline

12,14: negative pressure side pressure sensor

16: suction blower

S1, S2: Section Valve

100: operation pneumatic pipe

102,104: Positive pressure side pressure sensor

106: air compressor

300: central control unit

Claims (8)

In the system for detecting each leak in the waste transport pipe line 10 and the operation pneumatic pipe line 100 of the waste collection processing system, Negative pressure side pressure sensors (12, 14) installed in each of the measurement sections in the waste transportation pipe (10); Section valves S1 and S2 installed in the operation pneumatic pipe 100 to open and close the pipe every measurement section; Pipe leakage detection system of the waste transport collection processing system, characterized in that it comprises a positive pressure side pressure sensor (102,104) connected to each of the measurement section in which the section valve (S1, S2) is installed. The method of claim 1, The negative pressure side pressure sensor (12) and each of the positive pressure side pressure sensor (102), the leakage detection system of the waste transport line, characterized in that the central control unit 300 is further connected to determine the leakage of the pipe. The method of claim 2, The central control unit 300 of the intake blower 16 for generating a negative pressure connected to the section valves (S1, S2) and the waste transport line and the air compressor 106 connected to the operation pneumatic pipe (100) Leak detection system of the waste transport line, characterized in that it further comprises a control means for controlling the operation. The method of claim 1, The negative pressure side pressure detectors 12 and 14, the positive pressure side pressure detectors 102 and 104, and the section valves S1 and S2 are respectively located in a plurality of cavity port manholes H. system. In the method for detecting each leak in the waste transport pipe line 10 and the operation pneumatic pipe line 100 of the waste collection processing system, Operating a suction blower (16) connected to the waste transport pipe (10) to form a vacuum pressure; And detecting pressure through a plurality of negative pressure side pressure sensors (12, 14) installed in each of the measurement sections in the waste transportation pipe line (10). The method of claim 5, Operating a air compressor (106) connected to the operation pneumatic pipe (100) to form a positive pressure; Waste transport characterized in that it further comprises the step of sensing the pressure through a plurality of positive pressure side pressure detectors (102,104) while sequentially operating a plurality of section valves (S1, S2) installed in the operation pneumatic pipe (100) Detecting pipeline leaks in collection systems. The method of claim 5, And detecting the pressure difference through a central control unit (300) connected to each of the negative pressure side pressure sensors (12, 14). The method of claim 6, And detecting pressure through the central control unit (300) connected to each of the positive pressure side pressure sensors (102, 104).

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