KR200419733Y1 - Water hammer preventive apparatus within output sensing circuit - Google Patents

Abstract

Water shock prevention device equipped with a detection circuit according to the present invention is installed in the air chamber 3, the level unit 30, a plurality of contact switches 31 and the pressure unit 40 to measure the water level change amount and the pressure change amount The controller 10 determines the water shock according to the recognition method set according to the water level change amount or the pressure change amount, and the control signal of the control unit 10 controls the operation unit 9 through the output terminal 12. The detection circuit unit 90 is provided between the output terminal 12 and the operating unit 9 to detect whether the control signal of the control unit 10 and the output signal of the output terminal 12 are generated and perform a predetermined control operation. There is a characteristic.

According to the present invention, the water hammer prevention device provided with a detection circuit unit includes an air compressor (7) (8) and an exhaust valve (6) when a semiconductor device or a relay, which is each component constituting the control unit 10 of the water hammer prevention device, malfunctions. Emergency stop of the apparatus main body 100 through the operating unit 9 of), there is an effect that can prevent in advance an unexpected malfunction.

In addition, when a semiconductor device or a relay malfunctions, an emergency alarm signal of the alarm unit 70 may be used to ventilate the surroundings of the manager, thereby facilitating maintenance of the entire apparatus.

Pump, water hammer, compressor, air chamber, water pressure, water shock, water hammer recognition

Description

Water shock prevention device equipped with a detection circuit unit {WATER HAMMER PREVENTIVE APPARATUS WITHIN OUTPUT SENSING CIRCUIT}

1 is a block diagram schematically showing a water hammer prevention device having a detection circuit according to the present invention,

FIG. 2 is a block diagram schematically illustrating an operating state of the detection circuit unit shown in FIG. 1. FIG.

<Description of Symbols for Main Parts of Drawings>

1: main pipe 2: connection pipe

3: air chamber 4: shutoff valve

5: drain valve 6: exhaust valve

7: air compressor 1 8: air compressor 2

9: operating unit 10: control unit

11: control panel 12: output terminal

20: Level switch 21: Upper limit level switch S _H

22: lower limit level switch S _L 30: level

31: contact switch 40: pressure part

41: upper limit pressure part 42: lower limit pressure part

50: display 60: storage

70: alarm unit 90: detection circuit unit

100: device body

The present invention relates to a water hammer prevention device, in particular, the detection circuit unit for emergency stop of the main body of the device through the operation of the air compressor and the exhaust valve in the case of a malfunction of the semiconductor device or the relay, each component constituting the control unit of the water hammer prevention device It relates to a water shock prevention device provided.

When the flow resistance changes during the flow of the fluid, the pressure of the fluid changes. In the case of a gas which is a compressive fluid, the change in flow resistance is merely a change in pressure, but in the case of a liquid which is an incompressible fluid, the head itself changes. For example, when the flow rate changes due to a sudden operation of the valve, when the valve is quickly closed or opened, a sudden pressure change occurs when the pump is started and stopped. This is called a 'water hammer'.

Various water hammer prevention devices have been proposed and used to prevent such water hammer (hereinafter, used in combination with water hammer).

However, since the conventional water hammer prevention device performs a control operation using a semiconductor, there is a possibility that an unexpected large accident occurs because the output unit is in a conductive state when a specific element is destroyed.

In addition, even when performing a control by a relay, there was a problem of malfunction due to burnout of the contact.

The present invention has been made to solve this problem, the detection circuit unit for emergency stopping the device through the operation of the air compressor and exhaust valve when the semiconductor element or the relay, which is each component constituting the control unit of the water hammer prevention device malfunctions The purpose is to provide a water shock prevention device is provided.

In addition, an object of the present invention is to provide a water shock prevention device having a detection circuit unit for generating an emergency alarm signal to ventilate the surroundings of a manager when a semiconductor device or a relay malfunctions.

Water shock prevention device equipped with a detection circuit unit according to the present invention for achieving the above object is to install a level portion, a plurality of contact switches and a pressure unit in the air chamber to measure the water level change amount and the pressure change amount, the water level change amount or In the water shock prevention device for judging the water shock according to the set recognition method according to the pressure change amount, and selectively controlling the air compressor or the exhaust valve, the control signal of the control unit controls the operating unit through the output stage, the operation with the output stage The technical features of the present invention include a detection circuit unit which detects whether a control signal of the control unit and an output signal of the output terminal are generated and performs a predetermined control operation.

Hereinafter will be described in detail with reference to the accompanying drawings the water hammer prevention device provided with a detection circuit according to the present invention.

1 is a block diagram schematically showing a water hammer prevention device having a detection circuit according to the present invention, Figure 2 is a block diagram schematically showing an operating state of the detection circuit shown in FIG.

As shown in FIG. 1, in the water shock prevention device having a detection circuit unit according to the present invention, a fluid flowing in the main pipe 1 is connected to a shutoff valve 4 and a drain pipe 5 having a connection pipe 2. Is connected to the air chamber 3 through the air chamber 3, the water shock prevention device for controlling the air compressor (7) (8) and the exhaust valve (6) to reduce the water shock of the main pipe (1) In the upper and lower portions of the air chamber (3), respectively, the level switch 20 for generating a predetermined electrical signal when the stored fluid reaches a certain level; A level unit 30 provided inside or outside the air chamber 3 and configured to detect a level of the stored fluid and generate a predetermined electrical signal; A plurality of contact switches (31) installed inside the air chamber (3) at predetermined intervals in a vertical direction at a predetermined interval and generating a predetermined electrical signal when a fluid is detected; A pressure unit (40) provided at each of the upper and lower inner sides of the air chamber (3), for detecting a pressure change amount through the pressure difference between the upper and lower parts, and converting the pressure change amount into an electrical signal; A control unit 10 generating a predetermined control signal according to a set value input through the control panel 11 and input signals of the level switch 20, the level unit 30, and the pressure unit 40; A display 50 for visually displaying the operation state of the device according to the output signal of the controller 10; A storage unit 60 for storing the operating state of the current device in real time according to the output signal of the controller 10; Alarm unit 70 for generating an emergency alarm sound in accordance with the output signal of the control unit 10 and the detection circuit unit 90 receives a control signal of the control unit 10 to perform a predetermined control operation.

At this time, the level switch 20 is configured to generate a predetermined electrical signal when the fluid stored in the air chamber 3 reaches a specified high or low water level, and is located above the air chamber 3 that is outside the fluid. The upper limit level switch S _H 21 which exists exists, and the lower limit level switch S _L 22 which are located in the lower part of the air chamber 3 which are inside of a fluid.

Therefore, when the electrical signal is output from the upper limit level switch S _H 21, the water level inside the air chamber 3 reaches the highest point, and if the electrical signal is output from the lower limit level switch S _L 22, the air chamber ( 3) Since the internal water level has reached the lowest point, the data value of the contents is recorded in the storage unit 60, and an alarm signal is generated through the alarm unit 70, and at the same time, the air compressor 1 (7) and the exhaust gas are discharged. The operation of the valve 6 is stopped.

In addition, since a definite loss occurs in the apparatus when the air compressor 7 is defective, the present invention includes an air compressor 2 (8), which is an auxiliary air compressor, as an embodiment. The air compressor 7 operates alternately. It is preferable to prevent the defect of (8) beforehand. Of course, a plurality of air compressors may be mixed if necessary.

Meanwhile, the level unit 30 checks in real time the amount of change in the water level ΔH of the fluid stored in the air chamber 3, outputs a predetermined electrical signal corresponding thereto, and transmits it to the controller 10. At this time, one side of the level portion 30 is always in contact with the fluid, foreign matter may be caught in the surface portion, thereby causing an incorrect signal can be output.

In addition, in the present invention, a plurality of contact switches 31 are provided to more clearly grasp the level change amount ΔH of the air chamber 3.

The contact switch 31 is installed at regular intervals in the vertical direction to the inside of the air chamber 3, it is possible to accurately measure the amount of change in the water level.

However, the contact switch 31 is exposed to a problem that the stored fluid is scattered upward due to the rapidly changing pressure causing a malfunction of the specific contact switch 31.

In order to prevent this, the present invention further includes a pressure unit 40 for measuring the pressure change amount ΔP in the air chamber 3.

The pressure part 40 is divided into an upper limit pressure part 41 installed at an upper part of the air chamber (air) and the lower limit pressure part 42 installed at a lower part (fluid) of the air chamber 3. Since the position is set, if a change in pressure occurs in the upper and lower pressure parts 41 and 42 due to the water level change, the electric signal is converted and transmitted to the controller 10.

On the other hand, the control unit 10 is input to the set value of the conduit by the control panel 11, the set value is determined by how to design the conduit in the pump device as reference level H _r , reference pressure P _r , It includes the set time T.

At this time, the set value is calculated by calculating the volume elastic modulus of the fluid, the longitudinal modulus of the pipe, the pipe inner diameter, the data value of the pipe thickness, etc. in the device design step by the following equation to calculate the pressure wave propagation speed a, and again It is obtained by calculating the pressure wave arrival time μ through the pressure wave propagation speed a and the length L of the pipe.

Of course, instead of the set value, it is also possible to use an experimental value derived through a previously repeated experiment.

Therefore, the control unit 10 recognizes the level change amount ΔH of the air chamber 3 through the signal of the level unit 30 and the signal of the contact switch 31, and the air chamber through the signal of the pressure unit 40. The pressure change amount ΔP of (3) is recognized, and it is determined whether the water level change amount ΔH or the pressure change amount ΔP corresponds to the water shock based on the set value or the experimental value.

In addition, the controller 10 selectively operates the air compressors 7 and 8 and the exhaust valve 6 to control the air chamber 3 to respond to water shock. At this time, since the operation of controlling the air chamber 3 is a conventional known technique, detailed description thereof will be omitted below.

The output signal of the controller 10 is transmitted to the display 50 so that the manager can change the current situation (pressure wave propagation speed, pressure wave arrival time, level change amount ΔH, pressure change amount ΔP, water shock occurrence time, operation of the device). Date and time, etc.).

In addition, the output signal of the control unit 10 is transmitted to the storage unit 60, and the above-described current situation is stored in real time, so that it is possible to supplement the problem of the device through the data analysis later.

In addition, the output signal of the controller 10 is transmitted to the alarm unit 70 to generate an emergency signal, it is possible to ventilate the surroundings of the manager or operator.

Meanwhile, in the present invention, as illustrated in FIG. 2, a separate detection circuit unit 90 is provided between the output terminal 12 and the operation unit 9 to prepare for a malfunction of the apparatus.

The output terminal 12 is a component which finally instructs whether or not the operation unit 9 is operated according to a control signal of the control unit 10. For example, an output terminal of a power supply unit (not shown) or a semiconductor element (output port) ).

That is, the control signal of the control unit 10 is transmitted to the output terminal 12, the output terminal 12 is to perform a control operation to supply or cut off the power transmitted to the operating unit (9).

The detection circuit unit 90 primarily receives an output signal of the output terminal 12 and secondly receives a control signal of the controller 10 again. At this time, when both input signals are present, the operating unit 9 is regarded as a normal operation, and when there is no input signal, the operating unit 9 is determined to be a malfunction and the operation unit 9 is forcibly stopped.

Thus, the device body 100 is switched to all emergency stop states.

In addition, the detection circuit unit 90 transmits the data value corresponding to the currently detected state (normal operation or malfunction) to the controller 10 again, and the controller 10 transmits the transferred data value to the storage unit 60. ), And when a malfunction is recognized, an alarm alarm is generated through the alarm unit 70 to alert the manager.

The detection circuit unit 90 can be simply implemented by using a plurality of transistor resistors, diodes, and capacitances, in which two input signals (control unit and output terminal) are input and one or less (one of the control unit and the output terminal). Comparing the case in which the input signal is input to generate a separate control signal, characterized in that for transmitting the control signal back to the control unit 10 and the operating unit (9).

The present invention as described above is not limited to the specific embodiments described above, any person having ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims may be variously modified. will be.

According to the present invention, the water hammer prevention device provided with a detection circuit unit includes an air compressor (7) (8) and an exhaust valve (6) when a semiconductor device or a relay, which is each component constituting the control unit 10 of the water hammer prevention device, malfunctions. By emergency stop the device through the operating unit 9 of), there is an effect that can prevent in advance an unexpected malfunction.

In addition, when the semiconductor device or the relay malfunctions, the emergency alarm signal of the alarm unit 20 is used to ventilate the surroundings of the manager, thereby facilitating maintenance of the device.

Claims (3)

In the pump device or the water shock prevention device, It is composed of the upper limit level switch S _H (21) and the lower limit level switch (S _L (22)), and a level for generating a predetermined electrical signal when the fluid stored in the air chamber 3 reaches a specified maximum or minimum level. A switch 20; A level unit 30 for sensing a level of the fluid stored in the air chamber 3 to generate a predetermined electrical signal;  A plurality of contact switches (31) installed inside the air chamber (3) at predetermined intervals in a vertical direction at a predetermined interval and generating a predetermined electrical signal when a fluid is detected; It is configured to include a pressure unit 40 integrally detects the amount of pressure change of the air chamber 3, converts it into an electrical signal and outputs it, The control unit 10 controls a predetermined value according to a setting value input through the control panel 11 and input signals of the level switch 20, the level unit 30, the contact switch 31, and the pressure unit 40. Generates a signal and transmits it to the output terminal 12, The output signal of the output stage 12 controls the operating section 9 through the detection circuit section 90, whereby the exhaust valve 6 and the air compressors 7 and 8 are turned on and off, thereby providing an air chamber 3 Water shock prevention device equipped with a detection circuit unit for automatically adjusting the water level of the The method of claim 1, The detection circuit unit 90 primarily receives an output signal of the output terminal 12 and secondly receives a control signal of the controller 10 again. When there are two input signals, the operation unit 9 is operated as a normal operation, and when there is no input signal, the operation unit 9 is determined to be a malfunction and the operation unit 9 is forcibly stopped. Water shock prevention device provided with a circuit portion. The method of claim 1, The detection circuit unit 90 transmits the data value corresponding to the currently detected state (normal operation or malfunction) to the controller 10 again, and the controller 10 transmits the transferred data value to the storage unit 60. Save it,  Water shock prevention device provided with a detection circuit portion, characterized in that for generating an emergency alarm sound through the alarm unit 70 when a malfunction is recognized.

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