KR102106330B1 - sewage disposal facility management system - Google Patents

Abstract

The present invention relates to a personal sewage treatment facility management system with a novel structure that can check when abnormality occurs in the personal sewage treatment facility management system. According to the present invention, an operation detection means (30) detects when abnormality occurs in an air pump provided in the personal sewage treatment facility management system and outputs a signal to a management server (A), and the management server (A) transmits the signal or a message to a portable terminal (B) of a manager when receiving the signal of the operation detection means so that the manager can check whether the abnormality occurs in the air pump in real time and take an action immediately, thereby preventing discharged water that is not sufficiently purified from being discharged to the outside through a drain pipe (15).

Description

Sewage disposal facility management system

The present invention relates to a management system of a personal sewage treatment facility with a new structure that can be checked in real time when an abnormality occurs in the personal sewage treatment facility.

In general, a personal sewage treatment facility capable of treating sewage generated in an apartment or the like is configured in a box shape with an opening 11 formed on the upper side as shown in FIG. 1, and a plurality of partition walls 12 is provided therein. The air supply pump 20 that is connected to the main body 10 through the air supply pipe 21 and the main body 10 configured to divide the internal space into a plurality of zones and supplies air to the interior of the main body 10 ).

At this time, the main body 10 is buried in the ground 1 so that the opening 11 is exposed to the upper side of the ground 1, and the cover 13 is coupled to the opening 11.

In addition, both sides of the main body 10 is provided with a water supply pipe 14 for supplying sewage generated in the apartment and the like, and a drain pipe 15 through which purified water is discharged while passing through the main body 10.

Therefore, when the air supplied through the water supply pipe 14 passes through the interior of the main body 10, when air is supplied to the interior of the main body 10 using the air supply pump 20, the waste water is air The mixture is purified while being mixed, and the purified water is discharged through the drain pipe 15.

However, in the case of an abnormality in the air supply pump 20, such a private sewage treatment facility rapidly decreases the performance of purifying sewage, and consequently, the polluted discharge water that is not sufficiently purified is through the drain pipe 15. It is discharged to the outside.

Therefore, when an abnormality occurs in the air supply pump 20, the administrator should promptly check and take action, but in the case of the personal sewage treatment facility so far, when the abnormality occurs in the air supply pump 20, It was difficult to confirm this quickly.

In addition, in recent years, managers managing such personal sewage treatment facilities are increasingly in charge of maintaining and managing multiple personal sewage treatment facilities. In this case, when an administrator has an abnormality in several personal sewage treatment facilities, There was a problem that was more difficult to immediately check this.

Therefore, there is a need for a new method to solve this problem.

Patent Publication No. 10-2010-0020345,

The present invention is to solve the above problems, and an object thereof is to provide a new structure of a personal sewage treatment facility management system capable of checking in real time when an abnormality occurs in the personal sewage treatment facility.

The present invention for achieving the above object is composed of a box shape with an opening 11 formed on the upper side, and is provided with a plurality of partition walls 12 to provide a main body 10 configured to divide the inner space into a plurality of zones. ), Connected to the main body 10 through the air supply pipe 21 in the personal sewage treatment facility including an air supply pump 20 for supplying air to the interior of the body 10, the air supply pump 20 ) Or provided in the air supply pipe 21, the operation detection means 30 for monitoring the operation state of the air supply pump 20, and the management server (A) connected to the operation detection means 30, possessed by the administrator It includes a portable terminal (B), the management server (A) is connected to the portable terminal (B) through a wireless communication data communication, and receives the signal of the operation detecting means 30, the air supply pump ( 20) If a defect occurs in the operation of the air supply to the portable terminal (B) The individual sewage treatment plant management system, characterized in that adapted to transmit a signal or message indicating the malfunction of the profile 20 is provided.

According to another feature of the present invention, the operation detecting means 30 is provided to penetrate the inner bottom surface of the main body 10 in the vertical direction, and the air supply hole 31a to which the air supply pipe 21 is connected is formed at the bottom. The cylinder 31 having an exhaust hole 31b communicating with the inside of the main body 10 is formed on the circumferential surface, and the cylinder 31 is rotatably coupled to the inside of the cylinder 31 to lower the exhaust hole 31b when descending. The piston 32 is lowered to close the exhaust hole 31b, and when rising, the piston 32 rises to the upper side of the exhaust hole 31b to open the exhaust hole 31b, and is positioned above the piston 32. A compression coil spring 33 provided inside the cylinder 31 to press the piston 32 downward, and provided inside the cylinder 31 so that the piston 32 is located above the piston ( 32) is configured to detect when the upper side of the exhaust hole (31b) is raised and said It includes a limit switch (34) connected to the management server (A), the management server (A) receives the signal of the limit switch (34) when it is detected that the piston 32 is not raised the air supply pump ( Provided is a personal sewage treatment facility management system characterized in that it is determined that an abnormality has occurred in 20) and transmits a warning signal or a message informing the portable terminal B of the malfunction of the air supply pump 20.

According to another feature of the present invention, it is provided on the circumference of the main body 10 is provided with a tilt sensor 40 for detecting the gradient change of the main body 10, and is provided on the outer circumference of the main body 10 Leakage detection means (50) for detecting leaks generated in the body (10), and a sewage detection sensor (60) provided in the water supply pipe (14) to detect when sewage is supplied through the water supply pipe (14), and the water supply pipe (14) is provided in the flow rate measuring means 70 for measuring the flow rate of sewage supplied through the water supply pipe 14 and the discharge water discharged to the drain pipe 15 to wash the flow rate measuring means 70 Further comprising a washing means 80, the leak detecting means 50 is formed in a cylindrical shape extending in the front-rear direction and an opening 51a is formed on one surface so that the opening 51a is attached to the circumferential surface of the main body 10. A catchment case 51 provided to be in close contact with the inside of the catchment case 51 It includes a leak detection sensor 52 for detecting the collected waste water inside the water collecting case 51, the flow rate measurement means 70 is a support bracket 71 provided inside the water supply pipe (14) , Impeller 72 rotatably coupled to the support bracket 71 and rotated by sewage supplied through the water supply pipe 14 and connected to the impeller 72 to measure the rotational speed of the impeller 72 It includes a rotation detection sensor 73, the washing means 80 is connected to the drain pipe 15 through a connecting pipe (81a) to store a portion of the discharged water discharged through the drain pipe (15) ( 81), the injection nozzle 82 provided to face the impeller 72 inside the water supply pipe 14 and connected to the water storage tank 81 through the supply pipe 82a, and the supply pipe 82a. It includes a water supply pump 83 provided in the middle, the management server (A) is the tilt sensor 40 and the leak Receiving signals from the holding means 50, the sewage detecting sensor 60, and the flow rate measuring means 70, the inclination of the main body 10 fluctuates above a set reference value, or the sewage detecting means 50 is discharged. It is detected or detected that the signal of the sewage measured by the flow rate measuring means 70 is lowered below the preset speed while the sewage supplied through the water supply pipe 14 is detected to the sewage detection sensor 60 If it is, the warning signal or message is transmitted to the portable terminal (B), and the impeller (72) to the rotation detection sensor (73) in the state where water passing through the drain pipe (15) is detected by the sewage detection sensor (60). ) If the rotation is not detected, by operating the water pump 83 to spray the discharged water to the impeller 72, the personal sewage treatment facility management system characterized in that it is designed to wash the foreign matter attached to the impeller 72 Is provided.

In the personal sewage treatment facility management system according to the present invention, when an abnormality occurs in the air pump provided in the personal sewage treatment facility, the operation detecting means 30 detects this and outputs a signal to the management server A, When the signal from the operation detecting means 30 is received, the management server A transmits a signal or message to the portable terminal B of the manager, so that the manager checks in real time that an abnormality has occurred in the air pump, and immediately As it is possible to take measures, there is an advantage that it is possible to prevent the discharged water that is not sufficiently purified from being discharged to the outside through the drain pipe 15.

1 is a side cross-sectional configuration diagram showing a conventional personal sewage treatment facility,
Figure 2 is a side cross-sectional configuration diagram showing a personal sewage treatment facility management system according to the present invention,
3 is a block diagram of a personal sewage treatment facility management system according to the present invention;
Figure 4 is a reference diagram showing the operation of the personal sewage treatment facility management system according to the present invention,
5 is a side cross-sectional configuration diagram showing a second embodiment of a personal sewage treatment facility management system according to the present invention;
6 and 7 is an enlarged view showing a main portion of a second embodiment of the personal sewage treatment facility management system according to the present invention,
8 is a circuit configuration diagram of a second embodiment of a personal sewage treatment facility management system according to the present invention.

Hereinafter, the present invention will be described in detail based on the attached exemplary drawings.

2 to 4 shows a personal sewage treatment facility management system according to the present invention, wherein the personal sewage treatment facility is configured in a box shape with an opening 11 formed on the upper side, and a plurality of partition walls 12 therein The main body 10 is provided and configured to divide the internal space into a plurality of zones, and an air supply pump connected to the main body 10 through the air supply pipe 21 to supply air to the interior of the main body 10 ( 20) is the same as the conventional one.

At this time, the main body 10 is buried in the ground (1) so that the opening 11 is exposed to the upper side of the ground (1), a cover 13 is coupled to the opening (11).

And, according to the present invention, the operation detection means 30 provided in the supply pipe 21 to monitor the operation state of the air supply pump 20, and the management server (A) connected to the operation detection means 30 Wow, a portable terminal B carried by the administrator is further provided.

The operation detecting means 30 is provided to penetrate the inner bottom surface of the main body 10 in the vertical direction, the air supply hole 31a to which the air supply pipe 21 is connected is formed at the bottom, and the main body is provided on the circumferential surface. (10) a cylinder 31 formed with an exhaust hole 31b communicating with the inside of the cylinder 31, the cylinder 31 is movably coupled to the inside, and when descending to the lower side of the exhaust hole 31b, the exhaust hole ( 31b) and the piston 32 which rises to the upper side of the exhaust hole 31b when opening and opens the exhaust hole 31b, and the inside of the cylinder 31 so as to be located above the piston 32 It is provided in the compression coil spring 33 for pressing the piston 32 to the lower side, and provided inside the cylinder 31 so as to be located on the upper side of the piston 32, the piston 32 is the exhaust hole ( 31b) is configured to detect when it rises to the upper side and is connected to the management server (A). It consists of a root switch (34).

The cylinder 31 is made of a high strength metal material.

The piston 32 is hermetically coupled to the inner circumferential surface of the cylinder 31 by a packing 32a provided on the circumferential surface.

The limit switch 34 is connected to the management server A through the Internet, and is provided with a push button 34a protruding downward on the lower side, and turned on when the push button 34a protrudes downward. It is configured to output a signal to the management server (A).

Therefore, as shown in FIG. 2, when the air supply pump 20 is normally operated and high pressure air is supplied to the air supply pipe 21, the air flows through the air supply pipe 21 to the inside of the cylinder 31. It flows into and pushes the piston 32 upward, and accordingly, the push button 34a of the limit switch 34 is pressed upward by the piston 32.

At this time, the exhaust hole (31b) is opened by the piston 32, and the air supplied through the supply pipe (21) is discharged to the interior of the body (10) through the exhaust hole (31b).

And, as shown in Figure 4, when an abnormality occurs in the air supply pump 20, the flow of air supplied to the interior of the cylinder 31 is stopped, by the elasticity of the compression coil spring (33) The piston 32 is lowered, and accordingly, the limit switch 34 detects this and is configured to output a signal to the management server A.

The management server (A) is configured to be capable of wireless communication with the portable terminal (B) through a wifi or 3G / 4G communication network, as shown in Figure 3, receiving the signal of the operation detecting means 30 to the When it is detected that an abnormality has occurred in the air supply pump 20, the portable terminal B is configured to transmit a signal or a message informing of the malfunction of the air supply pump 20.

To this end, the management server (A) is connected to the communication server 36 of the carrier by the Internet.

The portable terminal (B) is a management application that displays the operation state of the air supply pump (20), a failure occurrence cycle, etc. by receiving a signal from the management server (A) by using a smart phone carried by an administrator ( 35) is mounted.

The personal sewage treatment facility management system configured as described above, when an abnormality occurs in the air pump provided in the personal sewage treatment facility, the operation detecting means 30 detects this and outputs a signal to the management server A, and When the signal of the operation detecting means 30 is received, the management server A transmits a signal or message to the portable terminal B of the manager, so that the manager checks in real time that an abnormality has occurred in the air pump, and immediately As measures can be taken, there is an advantage in that discharged water that is not sufficiently purified can be prevented from being discharged to the outside through the drain pipe 15.

In particular, the operation detecting means 30 is provided to penetrate the inner bottom surface of the main body 10 in the vertical direction, and the air supply hole 31a to which the air supply pipe 21 is connected is formed at the bottom, and the main body is provided on the circumferential surface. (10) a cylinder 31 formed with an exhaust hole 31b communicating with the inside of the cylinder 31, the cylinder 31 is movably coupled to the inside, and when descending to the lower side of the exhaust hole 31b, the exhaust hole ( 31b) and the piston 32 which rises to the upper side of the exhaust hole 31b when opening and opens the exhaust hole 31b, and the inside of the cylinder 31 so as to be located above the piston 32 It is provided in the compression coil spring 33 for pressing the piston 32 to the lower side, and provided inside the cylinder 31 so as to be located on the upper side of the piston 32, the piston 32 is the exhaust hole ( 31b) is configured to detect when it rises to the upper side and is connected to the management server (A). It is composed of a switch 34, by checking whether the air is supplied to the interior of the body 10 through the supply pipe 21, it is possible to accurately detect the malfunction of the air supply pump 20 There are advantages.

In the present embodiment, the management server (A) has been illustrated that one personal sewage treatment facility is connected, but the management server (A) may be connected to a plurality of personal sewage treatment facilities, in this case, the management server (A ) When transmitting a signal or message to the portable terminal (B), by transmitting the management number of the personal sewage treatment facility, the operator can check which personal sewage treatment facility has a problem among a plurality of personal sewage treatment facilities. To make.

5 to 8 show another embodiment according to the present invention, provided in the periphery of the main body 10, the tilt sensor 40 for detecting the gradient change of the main body 10, and the main body ( Leakage detection means (50) provided on the outer circumference of the body (10) to detect leaks generated in the body (10), and provided on the water pipe (14), when sewage is supplied through the water pipe (14), the sewage to detect it The detection sensor 60 and the flow rate measuring means 70 provided in the water supply pipe 14 to measure the flow rate of sewage supplied through the water supply pipe 14 and the discharge water discharged to the drain pipe 15 are A washing means 80 for washing the flow rate measuring means 70 is further provided.

The tilt sensor 40 is provided on one side of the upper surface of the main body 10 and is configured to measure the angle of the main body 10 and output it to the management server A.

6, the leak detecting means 50 is formed in a cylindrical shape extending in the front-rear direction and having an opening 51a formed on one surface so that the opening 51a is in close contact with the circumferential surface of the main body 10. It is composed of a water collecting case 51 provided, and a leak detection sensor 52 provided inside the water collecting case 51 and detecting the collected waste water inside the water collecting case 51.

The collecting case 51 is made of a high-strength synthetic resin material, and the circumferential portion of the opening 51a is tightly adhered to the circumferential portion of the main body 10 so that moisture or moisture generated from the outside does not flow into the inside. Without, when a crack (C) is generated in the circumference of the main body 10, it is configured to collect only the wastewater that has leaked to the outside through the crack (C).

The leak detection sensor 52 is provided on the inner bottom surface of the water collecting case 51, and is configured to output a signal to the management server A when the water collected in the water collecting case 51 is detected. .

To this end, the leak detection sensor 52 is provided so that a pair of electrodes 52a are spaced apart from each other on the circumferential surface, applying a micro-current to the electrode 52a on one side, and electricity to the electrode 52a on the other side. It is configured to detect whether or not it is applied, and detect whether sewage is collected inside the water collecting case 51.

That is, since the electrodes 52a are spaced apart from each other, the current applied to the electrode 52a at one side is not sensed at the electrode 52a at the other side in the state in which no wastewater is collected inside the collecting case 51. not.

Then, when the sewage is collected to the extent that the electrode 52a is locked inside the catchment case 51, electricity applied to the electrode 52a on one side is applied to the other side through the sewage, so that the electrode 52a on the other side By detecting that electricity is applied to), it is possible to detect whether sewage is collected inside the catchment case 51.

The sewage detection sensor 60 is configured in the same manner as the leak detection sensor 52, and is configured to detect when sewage is supplied into the body 10 through the water supply pipe 14.

As shown in FIG. 7, the flow rate measuring means 70 is rotatably coupled to the support bracket 71 provided inside the water supply pipe 14 and the support bracket 71, and the water supply pipe 14 It is composed of an impeller 72 that is rotated by sewage supplied through, and a rotation detection sensor 73 that is connected to the impeller 72 and measures the rotational speed of the impeller 72.

At this time, the support bracket 71 is provided with a rotating shaft 72a extending forward, and the impeller 72 is rotatably coupled to the rotating shaft 72a, and when sewage is supplied through the water supply pipe 14 It is rotated by the flow of sewage.

In addition, the rotation detection sensor 73 is provided on the rotation shaft 72a to measure the rotational speed of the impeller 72 and is configured to output the measured rotation speed value to the management server A.

Since the flow velocity measurement means 70 is a general one, a detailed description thereof will be omitted.

The washing means 80 is connected to the drain pipe 15 through a connecting pipe 81a, as shown in FIG. 5, and a water storage tank 81 for storing a part of the discharged water discharged through the drain pipe 15. , The injection nozzle 82 is provided in the interior of the water supply pipe 14 to face the impeller 72 and connected to the water storage tank 81 through the supply pipe 82a, and an intermediate portion of the supply pipe 82a. Consisting of the provided water pump 83, when the water pump 83 is driven, as shown in Figure 7, supplying the discharged water stored in the water storage tank 81 to the injection nozzle 82, the discharge water It is sprayed to the impeller 72 through the injection nozzle 82, it is configured to remove foreign matter attached to the impeller 72.

At this time, the water supply pump 83 is connected to the management server A and is configured to be operated and controlled by a control signal from the management server A.

In addition, the management server (A) is configured to be connected to the tilt sensor 40, the leak detection means 50, the sewage detection sensor 60, the flow rate measurement means 70 and the washing means 80 through the Internet. do.

In addition, the management server (A) receives the signals of the tilt detection sensor 40, the leak detection means 50, the sewage detection sensor 60 and the flow rate measurement means 70, the tilt of the main body 10 The flow rate measurement means in the state that is changed over a set reference value, a leak occurs in the circumference of the main body 10, or the sewage supplied through the water supply pipe 14 to the sewage detection sensor 60 is detected ( When it is detected that the signal of the sewage measured by 70) is lowered below a preset speed, it is configured to transmit a warning signal or a message to the portable terminal B.

That is, that the inclination of the main body 10 measured by the inclination detection sensor 40 fluctuates above a set reference value means that the main body 10 is inclined for ground or other various reasons. When the main body 10 is excessively inclined, the connection portion between the main body 10 and the water supply pipe 14 and the drain pipe 15 is damaged, and sewage or body 10 supplied through the water supply pipe 14 are damaged. It means that the possibility that the discharged water discharged to the drain pipe 15 is discharged to the outside has increased.

Therefore, the management server (A) when the inclination of the main body 10 measured by the tilt detection sensor 40 fluctuates above a set reference value, a warning signal or message indicating that the main body 10 is inclined is transmitted to the portable terminal. Send to (B) to maintain the main body 10 to the administrator.

In addition, since the body 10 is stored with waste water therein, when a crack C is generated in the body 10, the stored waste water is leaked to the outside through the crack C to contaminate the surroundings.

At this time, the periphery of the main body 10 is provided with a leak detection means 50, when a leak occurs in the main body 10, a part of the spilled waste water is collected inside the collecting case 51 , The leak detection sensor 52 detects this.

Accordingly, the fact that the leak detection sensor 52 detects a waste water means that a crack C is generated in the main body 10, wherein the management server A has a crack C in the main body 10. ) Is transmitted to the portable terminal (B) to inform the administrator that the occurrence of the warning signal or message to maintain the main body (10).

In addition, when the sewage passes through the main body 10, contaminants contained in the sewage remain inside the main body 10, and only the discharged water from which the contaminants have been removed is discharged to the outside through the drain pipe 15. .

At this time, most of the contaminants remaining inside the main body 10 is decomposed by aeration by reacting with air supplied by the air supply pump 20, but contaminants that are not decomposed through the aeration process are the main body 10 It is accumulated inside the body to prevent the flow of wastewater inside the body 10, and at this time, the wastewater supplied through the water supply pipe 14 is blocked from flowing into the body 10.

Therefore, such a personal sewage treatment facility should open the cover 13 of the opening 11 at regular intervals to remove contaminants therein.

However, as described above, the rate at which contaminants accumulate inside the body 10 varies depending on the amount of waste water supplied or the amount or type of contaminants contained in the waste water, and the rate of contaminants caused by the pollutants at a faster time than expected. The flow is blocked.

Therefore, the management server (A) is a preset speed at which the signal of the sewage measured by the flow rate measurement means 70 is detected in the state where the sewage supplied through the water supply pipe 14 is detected to the sewage detection sensor 60 If it is detected that the lowering is below, it is determined that the flow of sewage is blocked by contaminants accumulated in the main body 10, and a warning signal or message indicating that the sewage has accumulated inside the main body 10 is transmitted to the portable terminal. Send to (B) to clean the contaminants accumulated inside the body 10 to the manager.

In addition, the management server (A) in the state in which the water passing through the drain pipe 15 is detected in the sewage detection sensor 60, if the rotation of the impeller 72 is not detected in the rotation detection sensor 73 , By operating the water supply pump 83 to spray the discharged water to the impeller 72, it is configured to wash the foreign matter attached to the impeller 72.

That is, since the wastewater supplied through the water supply pipe 14 includes various contaminants, it is attached to the impeller 72 of the flow rate measurement means 70, and accordingly, the impeller 72 is not rotated. Can be.

In addition, the management server (A) in the state in which the water passing through the drain pipe 15 is detected in the sewage detection sensor 60, if the rotation of the impeller 72 is not detected in the rotation detection sensor 73 , It is determined that the impeller 72 is not rotated by contaminants, and by operating the water supply pump 83 of the washing means 80 to discharge high-pressure discharge water to the impeller 72, the impeller 72 Remove foreign substances attached to the.

The personal sewage treatment facility management system configured as described above is provided at the periphery of the main body 10 and a tilt detection sensor 40 for detecting a change in the inclination of the main body 10, and an outer periphery of the main body 10. It is provided with a leak detection means 50 for detecting a leak generated in the main body 10, and a sewage detection sensor 60 provided in the water supply pipe 14 to detect when sewage is supplied through the water supply pipe 14, The flow rate measuring means 70 is provided in the water supply pipe 14 to measure the flow rate of sewage supplied through the water supply pipe 14, and the flow rate measuring means 70 using the discharged water discharged to the drain pipe 15. Further provided with a washing means 80 for washing, the management server (A) receives the signals of the tilt detection sensor 40, the leak detection sensor and the sewage detection sensor 60 and the flow rate measurement means 70, At the same time as sending a warning signal or message to the portable terminal (B) By controlling the operation of the chuck means 80, can advantageously to rapidly solve the various problems caused to the individual sewage treatment plant.

10. Main body 20. Air supply pump
30. Operation detection means A. Management server
B. Handheld terminal

Claims (3)

The main body 10 is configured in a box shape with an opening 11 formed on the upper side, and a plurality of partition walls 12 are provided to divide the internal space into a plurality of zones.
In the personal sewage treatment facility including an air supply pump 20 that is connected to the body 10 through the air supply pipe 21 to supply air to the interior of the body 10,
An operation detecting means 30 provided in the air supply pump 20 or the air supply pipe 21 to monitor the operation state of the air supply pump 20,
A management server (A) connected to the operation detecting means (30),
Includes a portable terminal (B) carried by the administrator,
When the management server (A) is connected to the portable terminal (B) to enable data communication through wireless communication, and receives a signal from the operation detecting means (30), if a malfunction occurs in the operation of the air supply pump (20) A signal or message is transmitted to the portable terminal B to notify the malfunction of the air supply pump 20,
The operation detecting means 30 is
It is provided to penetrate the inner bottom surface of the main body 10 in the vertical direction, the air supply hole (31a) to which the supply pipe 21 is connected is formed at the bottom and the exhaust hole communicating with the interior of the body (10) on the circumferential surface Cylinder 31 is formed (31b),
The cylinder 31 is movably coupled to the inside of the cylinder, and when descending, it descends to the lower side of the exhaust hole 31b to close the exhaust hole 31b, and when rising, rises to the upper side of the exhaust hole 31b to increase the exhaust hole A piston 32 that opens (31b),
A compression coil spring 33 provided inside the cylinder 31 to press the piston 32 downward so as to be positioned above the piston 32;
It is provided inside the cylinder 31 so as to be located on the upper side of the piston 32, the piston 32 is configured to detect when it rises to the upper side of the exhaust hole 31b and is connected to the limit of the management server (A) It includes a switch 34,
The management server (A) receives the signal from the limit switch (34) and when it is detected that the piston (32) has not risen, it is determined that an abnormality has occurred in the air supply pump (20), and thus the portable terminal (B) A personal sewage treatment facility management system characterized in that it is configured to transmit a warning signal or a message informing the malfunction of the air supply pump (20).
delete According to claim 1,
Tilt detection sensor 40 is provided on the circumference of the main body 10 to detect the gradient change of the main body 10,
Leakage detection means (50) provided on the outer circumference of the body (10) to detect water leakage from the body (10),
A sewage detection sensor (60) provided in the water supply pipe (14) to detect when sewage is supplied through the water supply pipe (14),
A flow rate measurement means (70) provided in the water supply pipe (14) to measure the flow rate of sewage supplied through the water supply pipe (14);
Further comprising a washing means 80 for washing the flow rate measuring means 70 using the discharged water discharged to the drain pipe (15),
The leak detection means 50
It is formed in a cylindrical shape extending in the front-rear direction and having an opening 51a formed on one surface, and the collecting case 51 provided so that the opening 51a is in close contact with the circumferential surface of the main body 10,
It is provided inside the catchment case (51) and includes a leak detection sensor (52) for detecting the collected waste water inside the catchment case (51),
The flow rate measurement means 70
A support bracket 71 provided inside the water supply pipe 14,
An impeller 72 rotatably coupled to the support bracket 71 and rotated by sewage supplied through the water supply pipe 14,
It is connected to the impeller 72 and includes a rotation sensor 73 for measuring the rotational speed of the impeller 72,
The cleaning means 80
A water storage tank (81) connected to the drain pipe (15) through a connection pipe (81a) to store a portion of the discharged water discharged through the drain pipe (15),
An injection nozzle 82 provided to face the impeller 72 inside the water supply pipe 14 and connected to the water storage tank 81 through a supply pipe 82a,
It includes a water supply pump 83 provided in the middle of the supply pipe (82a),
The management server (A) receives the signals of the tilt detection sensor 40, the leak detection means 50, the sewage detection sensor 60 and the flow rate measurement means 70, the slope of the main body 10 is set It is changed to a reference value or more, or the sewage detection means 50 detects the sewage, or the sewage detection sensor 60, the sewage supplied through the water supply pipe 14 is sensed to the flow rate measuring means 70 When it is detected that the signal of the sewage measured by the dropping below a preset speed, a warning signal or a message is transmitted to the portable terminal B,
If the rotation of the impeller 72 is not detected by the rotation detection sensor 73 in the state in which water passing through the drain pipe 15 is sensed by the sewage detection sensor 60, the water feed pump 83 is operated. A personal sewage treatment facility management system characterized in that by discharging the discharged water to the impeller 72, the foreign matter attached to the impeller 72 is cleaned.

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