KR20040042028A - Device of monitoring to discharge unattended wastewater - Google Patents

Abstract

PURPOSE: An apparatus for monitoring the discharge without permission of the untreated wastewater is provided to previously prevent the discharge without permission during the night or the rainy day, thereby preventing the pollution of the river. CONSTITUTION: An apparatus for monitoring the discharge without permission of the untreated wastewater includes a drain pipe(11), a septic tank(20), a plurality of discharge pipes(30,31,32), a pair of auxiliary discharge pipes(35,37), a connection pipe(36), a recovery pipe(38), a water quality measurement device(40), a situation room(45), a first electronic valve(50), a second electronic value(52), a third electronic value(53), a pair of sample tanks(54,55), a pair of valves(56,57) and a storage tank(60). The sample tanks(54,55) are installed backside of the second and third electronic valves(52,53) for collecting the sample of wastewater. The sample tanks(54,55) are connected to the auxiliary discharge pipes(35,37) through the connection pipe(36). The connection pipe(36) is selectively connected to the auxiliary discharge pipes(35,37). The water quality measurement device(40) is connected to the situation room(45) to manage the water quality measurement status.

Description

Device of monitoring to discharge unattended wastewater

The present invention measures the water quality of the discharged water discharged from the septic tank tank of facilities such as small and medium-sized factories, restaurants, barns, etc., detects if it is higher than the standard value, and collects and stores a certain amount of untreated discharged water and simultaneously measures it by notifying the situation room. It is to be done.

In general, companies that are well equipped with wastewater purification treatment facilities, such as large-scale production plants, do not have a big problem because they treat wastewater discharged normally and discharge it.

However, small and medium-sized factories, restaurants, barns, etc. have their own purification facilities, but there are many difficulties because the facilities are inadequate and costly to manage and operate the purification facilities.

Therefore, companies such as small factories, restaurants, barns, etc., frequently cause uncontrolled discharge of untreated wastewater into rivers at night or in rainy weather, thus increasing the pollution of the rivers. This is because even if it is discharged, it is difficult to crack down realistically unless the site is caught.

The present invention immediately detects if the reference value, that is, the set value or more, in the process of discharging the treated water from the septic tank to correct the problems of the related art. By making it possible to use it as evidence later, users can prevent the uncontrolled discharge of untreated wastewater to prevent pollution of the river.

In order to achieve the above object, the present invention installs a water quality meter on the kitchen pipe part of the purification tank installed in a factory, a restaurant, a barn, etc., and installs a first solenoid valve on the kitchen pipe that has passed the water quality meter to discharge the water discharged through the kitchen pipe. Is discharged through the first solenoid valve, and an auxiliary discharge pipe is installed between the water quality meter and the first solenoid valve, and a second solenoid valve, a third solenoid valve, and a sampling tank are installed on the auxiliary discharge pipe. Auxiliary discharge pipe after the collection tank is connected to the first discharge valve through the kitchen discharge pipe.

The auxiliary discharge pipe passing the sampling tank in the above may be connected to a separate storage tank without being connected to the kitchen discharge pipe or may be recovered to the purification tank again.

1 is a schematic configuration diagram of an apparatus of the present invention

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

(10)-Waste water discharge facility (11)-Drain pipe

(20)-Septic tank (30) (31) (32)-Discharge pipe

(35) (37)-Secondary discharge pipe (36)-connector

(38)-Recovery Pipe (40)-Water Meter

(45)-Situation chamber (50)-First solenoid valve

(52)-Secondary Solenoid Valve (53)-Third Solenoid Valve

(54) (55)-Sample Tank (56) (57)-Open / Close Valve

(60)-Storage Tank

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

1 is a schematic configuration diagram of a water quality monitoring apparatus for effluent water to be provided by the present invention, the waste water drained from the wastewater discharge facility 10 such as a factory, a restaurant, a barn, etc. through a drain pipe 11 to the septic tank ( 20) to be collected and then purified, and a discharge pipe 30 for discharging the treated wastewater on one side of the septic tank 10 is installed.

The discharge pipe 30 is provided with a water quality measuring instrument 40 capable of monitoring and measuring the water quality for 24 hours, and the measurement situation of the water quality measuring instrument 40 is connected to the situation room 45. It is configured to always check the discharge state of water quality through.

The discharge pipe 31 passing through the water quality measuring instrument 40 is provided with a first solenoid valve 50 that opens and closes by a sensing operation of the water quality measuring instrument 40, and the first solenoid valve 50 is again a final discharge tube ( 32).

An auxiliary discharge pipe 35 is installed in the discharge pipe 31 connecting the water quality measuring instrument 40 and the first solenoid valve 50, and the second discharge valve 35 and the second solenoid valve 52 are formed again. Three solenoid valves 53 are provided, and second and third solenoid valves 52 and 53 are respectively provided with sample tanks 54 and 55 behind the second and third solenoid valves 52 and 53, respectively. Some of the effluent passing through is collected and stored as a sample.

A connection pipe 36 is installed at the rear of the sample tanks 54 and 55, and the connection pipe 36 is connected to the kitchen pipe 32 through the opening / closing valve 56 and the auxiliary discharge pipe 37 again. In addition, the on / off valve 57 and the return pipe may be connected to the septic tank 20 again to be reprocessed.

If the above is not recovered through the recovery pipe 38 to the septic tank 20 or discharged through the auxiliary discharge pipe 37 may be stored separately in the storage tank (60).

As described above, the present invention has its own purification treatment facilities such as small and medium-sized factories, restaurants, barns, etc., but it is possible to prevent the phenomenon of increasing the pollution of the river by unauthorized discharge of untreated wastewater into the river at night or during rainy weather. do.

The operation of the sensing device will be described below.

That is, the wastewater discharged from the wastewater discharge facility 10 such as a factory, a restaurant, a barn, etc., is introduced into the septic tank 20 through the drain pipe 11, and the wastewater introduced into the septic tank 20 is discharged as in a conventional method. It is conventional as that it is purified and then discharged through the discharge pipe 30.

However, the present invention is to install the water quality meter 40 on the discharge pipe 30 to monitor and monitor the water quality of the waste water discharged through the discharge pipe 30 for 24 hours, the value measured by the water quality meter 40 In a normal state that satisfies the set value of the discharge water, the discharge is discharged into the stream through the discharge pipe 31, the first solenoid valve 50, and the final discharge pipe 32.

However, when the value measured by the water quality measuring instrument 40 exceeds the water quality standard of the discharged water, that is, when the untreated waste water passes through the water quality measuring instrument 40, the first solenoid valve 50 is blocked and is not treated. Used wastewater is prevented from being discharged to the river.

At the same time, while the second solenoid valve 52 of the auxiliary discharge pipe 35 connected to one side of the discharge pipe 31 is opened, the waste water flows into the auxiliary discharge pipe 35, and the waste water introduced into the auxiliary discharge pipe 35 is discharged. After passing through the two solenoid valve 52, a predetermined amount of untreated wastewater is collected in the sample tank 54, and the wastewater passing through the second solenoid valve 52 is connected to the connecting pipe 36 and connected to the connecting pipe 36. The introduced waste water is to be discharged to the stream, to be recovered to the septic tank 20, or to be stored separately in the storage tank (60).

At this time, the water quality measuring device 40 is connected to the situation room 45 so that the water quality measurement situation can be checked at any time, and if an abnormality occurs, it is possible to immediately contact the patrol measure.

As described above, the untreated waste water is detected by the water quality measuring instrument 40, and the most preferable treatment of the waste water introduced into the connecting pipe 36 via the second solenoid valve 52 is a separate process until the patrol arrives and measures the site. It is ideal to be stored in the storage tank (60) or to be recovered to the septic tank (20) through the recovery pipe (38).

This is because if the discharge to the stream through the secondary discharge pipe 37, untreated wastewater flows into the river until the patrol arrives and take action on the spot, and the river is contaminated.

However, if untreated waste water is not stored in the storage tank 60 or recirculated to the septic tank 20, it may inevitably be drained to the river through the secondary discharge pipe 37, but in this case, the patrolman immediately It is recommended to use it only when it can be dispatched to check the site.

While the untreated waste water is detected and drained by the water quality measuring device 40 as described above, when the more severe waste water passes through the water quality measuring device 40, the second solenoid valve 52 is blocked and the third solenoid valve 53 is disposed. ) Is opened so that the waste water flows into the connecting pipe 36 through the third solenoid valve 53, at which time a certain amount of waste water is stored and stored in the sample tank 55.

The waste water collected in the sample tanks 54 and 55 is used as evidence of untreated waste water after the on-site action.

As described above, the sensing device of the present invention can be installed and installed separately in the wastewater discharge facility, so that the water quality of the effluent treated in the septic tank 20 can be checked 24 hours at all times, thus discharging untreated wastewater even at night or in rainy weather. In this case, it can be immediately detected and checked to prevent unauthorized discharge of untreated wastewater.

Therefore, in the present invention, the wastewater treatment facility is installed, but it is possible to prevent the case of unauthorized discharge of untreated wastewater into the river at night and during rainy weather to prevent the contamination of the river and to prevent this during unauthorized discharge of the treated wastewater. It is possible to prevent unauthorized discharge of untreated wastewater by immediately detecting and imposing a corresponding penalty.

Claims (1)

The wastewater discharged from the wastewater discharge facility 10 is collected and purified in a septic tank 20, and a discharge pipe 30 is installed at the rear of the septic tank 20, and a water quality measuring instrument 40 is provided at the discharge pipe 30. And the discharge pipe 31, the first solenoid valve 50, and the discharge pipe 32 are sequentially connected so that the waste water treated normally is discharged into the river through the discharge pipes 30, 31, and 32. The secondary discharge pipe 35 is connected to the discharge pipe 31 connecting the 40 and the first solenoid valve 50 to connect the second solenoid valve 52 and the third solenoid valve 53 to treat untreated wastewater. After passing through the water quality measuring instrument 40, the first solenoid valve 50 is blocked by the sensing operation of the water quality measuring instrument 40 so that untreated waste water flows into the auxiliary discharge pipe 35, and the second and third solenoid valves. (52) and (53) behind the sample tanks (54) and (55) to install a sample of untreated waste water, and the secondary discharge pipe (35) past the sample tanks (54, 55) The connection pipe 36, and the connection pipe 36 is selectively connected to the auxiliary discharge pipe 37 and the recovery pipe 38 again, and the water quality measuring instrument 40 is connected to the situation room 45 Stepless discharge monitoring device of untreated wastewater, characterized in that the water quality measurement status can be confirmed and measured.