JPH0841978A - Damage state investigating device for each soil pipe in soil pipe facilities - Google Patents

Abstract

PURPOSE:To simultaneously monitor the flow state of all the soil pipes in a spot away from each soil pipe. CONSTITUTION:A water level detecting device 1 is disposed at the suitable place of each soil pipe. The water level detecting device 1 is provided with a pump type draw-up cylinder 4 and a hydraulic water level detecting device 5 in a cylindrical body 3 provided with an inflow port 6 and a discharge port 7. The water level detecting device 1 is connected to a detection result informing device 13, and the detection result informing device 13 is connected to a central state investigating device 18 through a telephone line 17. The central state investigting device 18 is disposed in a spot away from each soil pipe, and records the detection result sent from the detection result informing device 13.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for investigating the damage status of each sewage pipe in a sewage pipe facility.

[0002]

2. Description of the Related Art Recently, deterioration of wastewater pipe facilities has become a problem. The sewage pipe facility is composed of a sewage treatment facility and a sewage pipe for carrying sewage in various places to the sewage pipe facility. In recent years, the sewage pipes have been severely deteriorated and are very easily damaged.

Further, when the sewage pipe is damaged, rainwater or the like infiltrated into the ground enters the pipe, and the amount of water increases. And when this increases in large quantities, various problems occur. Firstly, there is a problem in that it is necessary to treat water that does not need to be treated in a wastewater treatment facility, which increases treatment costs. The second is the problem that when a large amount of rainwater enters, the water temperature sharply drops, making it difficult to control the microorganisms that perform the purifying action.

For these reasons, it is necessary to constantly check the flow rate of each sewage pipe and repair the sewage pipe promptly if it is damaged. However, conventionally, there is no device capable of intensively monitoring the breakage of each sewage pipe at a point distant from them, so that it takes a considerable time to find the broken sewage pipe.

[0005]

DISCLOSURE OF THE INVENTION The present invention has been made in view of the above points, and it becomes possible to monitor all of these states at one time at a point apart from each wastewater pipe. It is intended to provide a device for investigating the damage status of each sewage pipe in the sewage pipe facility.

[0006]

SUMMARY OF THE INVENTION The gist of the present invention is to provide a tubular body having a manhole on the upper part thereof, which is disposed at an appropriate position of each wastewater pipe in a wastewater pipe facility. , A pump-type pumping cylinder and a water pressure-type water level detection device are provided, and an inlet is provided in the middle of the body of the tubular main body,
A water level detecting device provided with an outlet connected to the pump type pumping cylinder above the device, and a device for activating the pump of the pump type pumping cylinder based on the detection result of the water level detecting device and issuing various alarms, A detection result notification device incorporating a device for sending the detection result to the central situation investigation device described later via a telephone line, and a detection result sent from the detection result notification device are arranged at a position distant from each sewage pipe. It is in the damage condition investigation device of each sewage pipe in the sewage pipe facility consisting of the central condition investigation device.

Next, the operation of the present invention having the above structure will be described. First, the overall operation will be described. When the current water level is detected by the water level detection device 1 at that time, the result is sent from the detection result notification device 13 to the telephone line 17
Through the central situation investigation device 18. Then, the detection result is recorded in the central situation investigation device 18.

The central condition investigation device 18 thus records the water level of each water level detection device, and also calculates and records the flow rate from the water level. Therefore, if the detection result from one of the water level detection devices 1 exceeds the predetermined flow rate set as the normal state, the water level detection device is immediately identified and the damaged wastewater pipe is promptly repaired. Is what you can do.

On the other hand, when the detection result of the water level detection device 1 exceeds the predetermined flow rate set as the normal state and reaches the predetermined flow rate set as the caution state, the detection result notification device 13 issues various alarms. It is a thing.

Next, the operation of the water level detecting device 1 will be described. The water in the dirty water pipe flows into the cylindrical body 3 of the water level detecting device 1 through the inflow port 6. The water level of the inflowing water is detected by the water pressure type water level detection device 5. Then, the water level gradually rises, and the predetermined water level L set as the normal state is set.
When it reaches, the pumps of the pump-type pumping cylinders 4 and 4 start operating and discharge water from the discharge port 7 to the dirty water pipe.

The relationship between the water level and time at this time is
As shown in FIG. 3, A'in the line A indicating the water level shows a state when water is flowing in, and A '' shows a state being discharged.
As is clear from this, the time required for discharging is almost constant, but the time required for the inflow to reach the predetermined water level varies.

Further, when the water level exceeds the water level L set as the normal state and reaches a predetermined water level L'set as the caution state, the detection result notifying device 13 issues various alarms. Further, at this time, it is of course possible to confirm that the predetermined flow rate is exceeded even in the central situation investigation device 18.

[0013]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic explanatory view of the entire apparatus, FIG. 2 is an explanatory view of a water level detecting apparatus used in the present invention, and FIG. 3 is a graph showing a relationship between water level and time.

In the figure, 1 is a water level detecting device. The water level detecting device 1 is arranged at an appropriate location of each waste water pipe. Further, the water level detecting device 1 is provided with pump type pumping cylinders 4 and 4 and a hydraulic type water level detecting device 5 in a cylindrical main body 3 having a manhole 2 attached to the upper part thereof, and further, a barrel portion of the cylindrical main body 3. An inflow port 6 is provided in the middle part, and a discharge port 7 connected to the pump type pumping cylinders 4 and 4 is provided above the inflow port 6.

Reference numeral 8 is a cable of the water pressure type water level detection device 5, 9 is a guide wire having a weight 10 attached to the lower end thereof and hung down along the cable 8, and 11 is a connector.

Reference numeral 12 is a relay box provided between the cable 8 and a detection result notifying device described later. Reference numeral 13 denotes a detection result notifying device, which operates a pump (not shown) of the pump type pumping cylinders 4 and 4 and issues various alarms based on the detection result of the water level detection device 1.
And a device 15 for transmitting the detection result to a central situation investigation device described later via a telephone line. Cables 16 and 16 connect the relay box 12 and the detection result notification device 13.

Reference numeral 17 is a telephone line, and reference numeral 18 is a central condition investigation device, which is provided at a position distant from each waste water pipe. The central situation investigation device 18 records the detection result sent from the detection result notifying device 13. Furthermore, the central situation investigation device 18 also calculates the flow rate from the water level and records it. The central situation investigation device 18
Is using a personal computer.

[0018]

EFFECTS OF THE INVENTION Since the present invention has the above-described structure and operation, it is possible to monitor the flow rate states of all the wastewater pipes at a point apart from each wastewater pipe at once. Therefore, the damaged sewage pipe can be identified quickly, and the repair can be performed quickly.

Further, by disposing a plurality of water level detecting devices on one wastewater pipe at appropriate intervals, it is possible to easily identify the damaged portion.

Further, since the water level detecting device used in the present invention is a water level detecting device of the type for calculating the water level from the water pressure, the scum floating on the water surface does not affect the function at all, and reliable detection can be performed.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view of the entire apparatus.

FIG. 2 is an explanatory diagram of a water level detection device used in the present invention.

FIG. 3 is a graph showing the relationship between water level and time.

[Explanation of symbols]

 1 Water Level Detection Device 2 Manhole 3 Tubular Body 4 Pump Type Pumping Pipe 5 Water Pressure Type Water Level Detection Device 6 Inlet 7 Discharge Port 13 Detection Result Notification Device 17 Telephone Line 18 Central Condition Survey Device

Claims (1)

[Claims] 1. A pump-type pumping cylinder and a hydraulic-type water level detection device are provided in a cylindrical main body having a manhole attached to the upper part thereof, which is disposed at an appropriate position of each wastewater pipe in a wastewater pipe facility, and further has a cylinder. While providing an inflow port in the middle part of the body of the shaped body,
A water level detecting device provided with an outlet connected to the pump type pumping cylinder above the device, and a device for activating the pump of the pump type pumping cylinder based on the detection result of the water level detecting device and issuing various alarms, A detection result notification device incorporating a device for sending the detection result to the central situation investigation device described later via a telephone line, and a detection result sent from the detection result notification device are arranged at a position distant from each sewage pipe. A device for investigating the damage status of each sewage pipe in a sewage pipe facility, which comprises