KR970004430Y1 - Device for automatic working of rubber dam - Google Patents

Abstract

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Description

Unmanned operation device of undulating rubber dam

The present invention relates to an unmanned operation device of a undulating rubber dam.

Conventionally, it is known to install a undulating rubber dam as a reservoir for adjusting the height of the rubber dam by air pressure according to the desired water level, and various kinds of devices for adjusting the height of the rubber dam are known. .

As a prior art of a device for ups and downs a rubber dam, Japanese Patent Application Laid-open No. 58-69911 (published on April 26, 1983) divides an air chamber and a water chamber up and down inside a rubber dam to provide a blower air pipe associated with the air chamber. If a float valve is installed and a manual valve is installed in the water pipe associated with the water chamber, and if the water level rises to an abnormal level, the air in the air chamber is exhausted to the outside by opening the float valve, and the height of the air dam decreases, and the water overflows. The valve is closed to inject air into the blower.

In addition, the U tube is connected to the air tube of the undulating rubber dam, and the antifreeze is injected into the U tube to adjust the air pressure equally to the air dam. The valve is opened to exhaust the air from the rubber dam to regulate the pressure.

Conventionally, the mechanical means for adjusting the height of the rubber dam is to adjust the air pressure of the rubber dam at the same time as the water level detection by the float valve, but the accuracy of the water level detection is inadequate and manual operation is required before and after operation. There was a problem.

The present invention is to connect the motor blower to the air pipe of the undulating rubber dam, the exhaust valve, the solenoid valve, the motor valve, etc. are formed in parallel in the middle of the air pipe to be electrically connected to the control panel to detect the water level of the ultrasonic water level sensor According to the data, the motor of the blower is operated to inject air into the dam, or the solenoid valve or motor valve is operated to exhaust the air from the rubber dam to automatically adjust the height of the dam to the desired level.

1 is an exemplary view showing the overall configuration of the present invention

2 is a block diagram of the electrical operating system of the present invention.

3 is an uninterruptible power supply wiring diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: rubber dam 11: air pipe

20: ultrasonic level sensor 30: control unit

31: uninterruptible power supply 40: exhaust valve

41: solenoid valve 43: motor valve

50: pressure gauge 61: blower

60: motor

As shown in Fig. 1, in the case where the blower 61 driven by the motor 60 is installed at the distal end of the air pipe 11 of the undulating rubber dam 10, a plurality of intermediate parts of the air pipe 11 are provided. The exhaust pipe 42 is formed to be in contact with each other, so that the solenoid valve 40, the exhaust valve 41, and the motor valve 43 are installed in each of the exhaust pipes, and a pressure gauge 50 is installed on each side thereof. 30) and an ultrasonic water level sensor 20 is installed at one side of the reservoir, so that the blower 61 and the valves 40 and 43 can be operated by the controller 30 according to the transmitted water level detection data. It was.

FIG. 3 is a circuit diagram of the blower motor power wiring and the uninterruptible power supply 31. The power is maintained even in the event of a power failure. It is configured to supply immediately.

In the figure, reference numeral SW1 is an automatic manual switching switch.

When the switch SW is automatically set as described above, the present invention thus closes all the valves 40, 41, 43 of the exhaust pipe 42 and the rubber by the blower 61 driven by the motor 60. When air is injected into the dam 10, it rises and the dam becomes high. The air pressure at this time is grasped by the pressure gauge 50 and the data of the pressure gauge immediately indicates the height of the dam 10. Therefore, when the dam reaches a predetermined height by the instruction of the pressure gauge, the power supply of the blower motor 60 is cut off and the driving is stopped.

The ultrasonic water level sensor 20 detects the water level of the dam, and the detected data is sent to the controller 30. The controller 30 analyzes the data, and the water level flows over the rubber dam 10 when the water level rises above the reference constant level in comparison with the set reference sewer level and the reference constant value so that the dam is not preferable for safety. Air supplied to the solenoid valve 40 at 30 and the solenoid valve 40 is opened so that the air charged in the rubber dam 11 is exhaust pipe 42 through the air pipe 11 and the open solenoid valve 40. When the rubber dam 11 is lowered and the water is overflowed and drained, and the power supply of the controller 30 is cut off when the water level is adjusted to the normal level at the dangerous level, the solenoid valve 40 is shut off to further exhaust the air. There is no.

In addition, if the ultrasonic level sensor 20 detects the reference sewage level and inputs the data to the control unit 30, it is necessary to raise the reference level, so that power is supplied to the motor 60 of the blower 61 while all exhaust valves are closed. To operate the blower 61. By operating the blower, the air is charged through the air pipe 11 to the rubber dam 10, and as the air pressure increases, the rubber dam 10 rises and rises, at this time, the rubber dam by the data detected by the pressure gauge 50. When the height reaches the set height by sensing the standing height of the blower, the power supply to the motor 60 of the blower is cut off and the operation is stopped. In addition, the motor valve 43 is used to quickly evacuate the air filled in the dam in order to temporarily drain a large amount of water, and the manual valve 41 may be used in the case of inspection or emergency.

According to the present invention, the height of the rubber dam can be arbitrarily adjusted by controlling the blower motor or the solenoid valve from the control unit based on the data of the ultrasonic water level sensor, so that the height of the dam bonded to the water level is automatically maintained without requiring manual labor. By adjusting it, the reservoir can be managed more safely and conveniently.

Claims (1)

The air blower 61 driven by the motor 60 is connected to the air pipe 11 of the rubber dam 10 to adjust the height of the air dam according to the air pressure. The solenoid valve 40 comes into contact with the exhaust pipe 42. An exhaust valve 41, a motor valve 43, and a pressure gauge 50 are installed to connect each lead to the control unit 30, and an ultrasonic level detector 20 is electrically connected to the control unit 30 to detect the ultrasonic level. The unmanned operation device of the undulating rubber dam, wherein the height of the rubber dam is adjusted by selectively controlling the blower and the solenoid valve based on the sensed data of the