KR200156019Y1 - Chain-plate error detector of wastewater treatment device - Google Patents

Abstract

The present invention relates to an abnormality detection device that detects an abnormality of a sludge collection flight of a sewage / wastewater treatment plant that purifies various wastewater discharged from domestic wastewater or industrial facilities, and prevents driving stability and mechanical damage. The movement path of the chain flight, which is installed in the caterpillar type, detects the conveying speed of the flight at an appropriate position so that the operation of the machine can be stabilized by stopping the operation of the flight when an abnormality occurs, that is, cutting or overloading the chain flight. will be.

Description

Chain flight abnormality detection device of sewage / wastewater treatment system

Treatment of various household wastes and wastewater from industrial homes or industrial wastes is carried out through several stages such as sedimentation basins and aeration tanks. For example, sewage, wastewater and raw water are treated. In order to preserve the water quality during sewage discharge, it is discharged through the water treatment process at the final stage of the drainage path.

Such water treatment is generally carried out by removing the suspended solids in the incoming water, decomposing and sedimentation step using activated sludge, and the supernatant filtered in the settling step, receiving oxygen from the aeration tank, and then going through the active step of aerobic bacteria propagation. Separation, and the top-grade water filtered through the third sedimentation or filter paper is chemically discharged to the stream.

In this water treatment facility, sediment is generated when the sewage and wastewater are decomposed by removing suspended solids in raw water and activated sludge. The sedimentation tank and bubble collector are essential for the removal of sediment (sludge) and foam removal in such sedimentation basin. It is becoming. Such sedimentary drawers and sludge collectors consist of approximately chain flighted sludge collectors. As an example, as shown in FIG. 1, the chain-flighted sludge collector is installed in the sedimentation basin 10 installed at each of the initial and final stages of raw water inflow for water treatment. Such a collector is installed across the sprocket 11, which is installed up and down in the settling basin 10 up and down, and is installed at the bottom of the settling basin and the chain flight of the track traveling on the water surface, and transported at an appropriate speed by the drive motor 12. The chain flight is installed at approximately equal intervals on the chain 20 so that the bubbles floating on the water surface of the sedimentation basin are collected by the bubble removing means 30, and the sludge deposited on the bottom of the sedimentation basin. The back is discharged to the hopper 13 to remove suspended matter and sediment in the raw water and to perform the desired water treatment.

However, in the chain flight type sludge collector, an infinitely orbital chain 20 is used for power transmission to transfer the flight 21 to the water surface of the raw water and the bottom surface of the sedimentation basin for the collection of suspended matter and sediment. When the chain 20 is caught by the sludge overload or foreign matter during the operation of the sludge collector, the chain is cut off during operation due to the overload acting on the chain. It was a malfunction of the equipment.

Therefore, in recent years, when the cutting phenomenon of the chain flight occurs, it is detected to prevent damage or breakdown of peripheral devices. For example, a physical device that operates a proximity switch, an optical sensor, or the like by driving a weight that moves up and down by a chain load acting when the chain is cut at a suitable position of the chain flight path, that is, a predetermined position of the inclined portion of the chain flight path. Phosphorus detection device 30 is installed to detect the abnormality of the chain.

However, such a sensing device 30 can be detected only in a physical manner, i.e., when a cut chain is applied under a load, and thus, when a cut occurs at a long distance from the sensing device 30, abnormality of the chain is not detected. In addition, the sensation was continuously driven without tangling or cutting the chain flight and causing a fatal accident to the device by damaging the chain as well as peripherals.

In addition, when the chain flight is caught due to coarse foreign matter in the sediment, the transfer is stopped, and there is a frequent case that the motor is burned because abnormality is not detected when the chain flight is overloaded.

The present invention has been made in consideration of the above circumstances, and its technical problem is to detect the presence of an abnormality in the transport state of the chain flight, so as to detect the stability and abnormality of the drive early to prevent the damage of the machine sewage / It is to provide a chain flight abnormality detection device of a wastewater treatment system.

1 is a schematic cross-sectional view showing the overall configuration of a general sewage / wastewater treatment system.

Figure 2 is a schematic cross-sectional view showing a sewage / wastewater treatment system equipped with an abnormality detection device of the present invention chain flight.

Figure 3 is a side view showing the configuration of the abnormality detecting device of the present invention.

Figure 4 is an explanatory diagram showing the operating state of the abnormality detection device of the present invention.

* Explanation of symbols for main parts of the drawings

100: sedimentation basin 120: drive motor

200: chain flight 211: chain flight

300: abnormality detection means 310: support plate

320: bearing member 330: sensing rod

331: operating table 340: proximity sensor

The construction of the present invention for achieving the technical problem is the proper position of the movement path of the chain flight which is installed in the orbital manner in the sedimentation basin, that is, the movement path of the chain flight in the flight movement path of the chain flight, that is, the flight movement path of the chain flight It is to install the sensor to detect the abnormality in the conveyance state of the chain flight inside, and stop the operation of the device when the chain flight has an error.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 2 is a schematic cross-sectional view showing the configuration of the sewage / wastewater treatment sedimentation basin is equipped with an apparatus for detecting abnormality of the present invention, and Figure 3 is a main side view showing the configuration of the abnormality detecting means of the present invention, Figure 4 is a process of operation of the abnormality detecting means It is explanatory drawing shown.

The present invention detects the transport state of the chain flight at a proper position on the transport path of the chain flight 200 which is installed in the track sewage / wastewater treatment sedimentation basin 100 is driven by a separate drive motor 120. By installing the abnormality detection means 300 for detecting the abnormality of the chain flight drive to stop the motor of the chain flight when an error occurs in the operation of the chain flight.

The abnormality detecting means 300 is installed at a suitable position of the transfer path of the chain flight 200 which is installed in the sedimentation basin 100 in the orbital manner as shown in FIG. 2 and the like on the chain 210 of the chain flight 200. By detecting the feed rate of the flight 211 is installed at intervals chain drive is configured to detect the presence of abnormality.

3 is shown in detail with respect to the configuration of the abnormality detection means 300 according to the present invention. That is, the abnormality sensing means 300 includes a sensing rod 330 freely rotatably installed on the support member 310 installed on the side wall of the sedimentation basin 100 by a pair of bearing members 320, and a sensing rod thereof. The tip of 330 is positioned inside the flight path 211 of the chain flight 200 so as to be detached from the flight 211, and the operating table 331 is integrally formed at the rear end as shown in FIG. In addition, the proximity sensor 340 is provided in the rotation radius of the operating table 331. When the sensing rod 330 configured as described above is rotated by the flight 211, the operating table 331 of the rear stage rotates in a trend while driving the proximity sensor 340. In this case, an optical sensor may be installed in place of the proximity sensor 340.

The abnormality detecting means 300 configured as described above transmits a signal to the timer 400 to recognize the normal driving when the transfer of the flight 211 is detected within the set time, and when the feed state is not detected for more than the set time. It is configured to stop the drive motor 120 for driving the chain flight by sending an abnormality detection signal to the control device.

In addition, the abnormality detecting means 300 as described above may be installed at least one or more at a predetermined position of the transfer path of the chain flight 200 to detect the presence or absence of the abnormality in a somewhat place to further increase the stability in driving.

Therefore, the present invention constituted as described above is when the chain flight 200 is not normally driven, for example, when the chain is cut due to aging of the chain flight 200 and the chain flight is not normally transported. When the chain flight is not driven for longer than the set time by detecting the feed speed of the chain flight, the chain flight is detected and the driving motor is braked to stop the operation of the device.

In addition, the chain flight 200 is delayed due to the load caused by the coarse foreign matter in the sediment, such as the transfer of the chain flight is slower than the fixed speed, or the chain flight is impossible to transfer completely prevents the drive motor from being burned out due to overload. .

Therefore, the present invention stabilizes the operation of the chain flight and detects the abnormality at an early stage to prevent damage to the chain flight as well as peripheral equipment.

The present invention relates to an abnormality detection device that detects an abnormality of a sludge collection flight of a sewage / wastewater treatment plant for treating various wastewaters discharged from domestic sewage or industrial facilities, and prevents driving stability and mechanical damage. The present invention relates to a chain flight abnormality detection device of a sewage / wastewater treatment plant that senses a transport state of a collection flight and stops the operation of the flight when an abnormality occurs, that is, when the chain flight is cut or overloaded.

Claims (2)

An operating control device for stabilizing the operation of the chain flight 200 installed in the sedimentation basin for sewage / wastewater treatment to collect the sediment, the pedestal 310 is installed in a position close to the driving path of the chain flight 200 ); It is freely rotatably installed on a pair of bearing members 320 installed at both sides of the pedestal 310, and the tip thereof protrudes on the driving path of the chain flight 200 to be in contact with the chain flight in a jaw-like manner. Detection rod 330 for detecting the movement of the chain flight; A detection sensor 340 driven by a detection rod 330 for detecting the movement of the chain flight; And a timer 400 connected to the detection sensor 340, wherein the detection rod is physically and mechanically caught by the chain flight and set by a cutting phenomenon due to cutting of the chain flight or a foreign material. The chain flight abnormality detection device for sewage / wastewater treatment system, characterized in that for stopping the drive motor of the processor when the chain flight does not perform the transfer operation for more than a time. The operating table 331 of claim 1, wherein the driving rod 331 extends a predetermined length integrally to an end of the sensing rod 330 to transmit the driving force generated when the sensing rod detects the movement of the chain flight to the sensing sensor 340. Chain flight abnormality detection device of sewage / wastewater treatment further comprising.