JPH0649962U - Flow rate abnormality detector - Google Patents

Abstract

(57) [Summary] [Purpose] A wide flow range from a small flow range to a large flow range is determined as a normal flow rate, and a flow rate abnormality that falls below the flow rate lower limit value with a simple configuration without increasing the flow resistance of the fluid. (EN) Provided is a flow rate abnormality detecting device capable of properly detecting a flow rate abnormality in a line for transferring a fluid having a pulsating characteristic that is pumped by a pump or the like in a state. A detection pipe 20 constituted by a tapered pipe accommodating a float whose level is displaced by fluctuations in flow rate is provided in a part of a fluid transfer line 22, and a predetermined level of the float in the pipe is provided with respect to the detection pipe. A sensor 24 for detecting a position within a fluctuation range is provided, and this sensor is connected to a control unit 26 for discriminating an abnormal flow rate state from a detection output signal accompanying an abnormal decrease in the float level of the detection pipe, On the other hand, the bypass line 32 including the relief valve 30 configured to adjust the valve opening degree in proportion to the flow rate of the fluid in the fluid transfer line at a predetermined value or more is connected in communication.

Description

[Detailed description of the device]

[0001]

[Technical field to which the device belongs]

 The present invention relates to a device for detecting flow rate abnormality in various fluid transfer systems.

[0002]

[Prior art]

 Conventionally, as a flow rate abnormality detecting device for a fluid pumped by a pump or the like, there is known a device having a detector tube containing a float and a sensor including a proximity switch for detecting the vertical movement of the float. There is. The applicant has previously developed a detection device of this type configured as shown in FIG. 5, for example.

That is, the detection device shown in FIG. 5 has a detection tube 12 accommodating a float 10 which is movable in the moving direction of the fluid, and an internal float 10 positioned within a predetermined level with respect to the detection tube 12. And a sensor 14 for detecting that. The detector tube 12 is made of a non-magnetic material, has an internal shape of a diffuser, and accommodates the spherical float 10 made of a metal material or the like. The sensor 14 is composed of a proximity switch or the like, and the position of the float 10 is set within a range from a relatively low level at which the fluid maintains a certain flow rate to the detection tube 12 to a high level near the maximum flow rate. Set it so that it can be detected. The sensor 14 is configured to shut off when the fluid is abnormally lowered, and the timer 16 counts the shutoff time that continues after that due to an output signal resulting from this to determine an abnormal state and generate an alarm output. There is.

The detection device having the above configuration compares the preset time from the time when the sensor detects the abnormal decrease in the discharge flow rate with the duration of the abnormal state, and the duration of the abnormal state exceeds the set time. Since an alarm output signal is generated at this time, it is possible to properly and easily detect an abnormally decreased flow rate of a fluid having a pulsating characteristic such as being discharged by a reciprocating pump or the like.

[0005]

However, in this type of detection device, in order to improve the sensitivity in a small flow rate region of the fluid, the taper of the detection tube is avoided and the vertical movement of the float is large. It is necessary to set so that the float can be easily detected by the sensor. On the other hand, in order to enable use in a large flow rate region, in the detector tube with the above-mentioned configuration, as the flow rate increases, the flow resistance increases and the pressure inside the detector tube increases, which increases the strength of the detector tube. However, there is a problem that it is required to increase the power for transporting the fluid.

Therefore, for example, if the taper of the detection tube is rapidly expanded in order to reduce the flow resistance of the detection tube, the above-mentioned sensitivity problem, processing and strength problem occur, and the manufacturing cost also increases. There are difficulties.

Therefore, an object of the present invention is to determine a wide flow rate range from a small flow rate range to a large flow rate range as a normal flow rate, and to lower the flow rate lower limit value with a simple configuration without increasing the flow resistance of the fluid. Another object of the present invention is to provide a flow rate abnormality detecting device which can properly detect abnormal flow rate and can detect a flow rate abnormality in a line for transferring a fluid having a pulsation characteristic that is pumped by a pump or the like.

[0008]

[Means for Solving the Problems]

 The flow rate abnormality detection device according to the present invention is a flow rate abnormality detection device in which a detection pipe for detecting a flow rate abnormality is provided in a line for transferring a fluid having a pulsation characteristic that is pumped by a pump or the like. It is composed of a taper tube that accommodates a float whose level is displaced by fluctuations of the level of the float.The sensor is equipped with a sensor that detects the position of the float within the fluctuation range of the specified level within the tube. Is connected to the control unit that determines the abnormal flow rate by the detection output signal accompanying the abnormal decrease in the flow level of the above, and is proportional to the flow rate of the fluid in the fluid transfer line above the detection pipe. It is characterized by connecting a bypass line with a relief valve configured to adjust the valve opening.

[0009]

[Action]

 According to the flow rate abnormality detection device of the present invention, the float level of the sensor is detected by detecting that the float inside the detection pipe is located within the predetermined level in the fluid transfer line provided with the detection pipe. According to the detection output signal associated with the abnormal decrease in, the controller can determine the abnormal flow rate. Therefore, for example, it is possible to properly detect the abnormally low flow rate state of the fluid having the pulsation characteristic discharged by the reciprocating pump or the like. Then, particularly when the flow rate of the fluid increases, the flow can be branched to the bypass line according to the increased flow rate by the action of the relief valve at a predetermined flow rate or more, and the pressure on the upstream side of the detection pipe is almost increased. In addition, the flow resistance can be properly detected without increasing the fluid resistance in the detection pipe.

[0010]

【Example】

 Next, an embodiment of a flow rate abnormality detecting device according to the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a system diagram showing an embodiment of a flow rate abnormality detecting device according to the present invention. That is, in FIG. 1, reference numeral 20 indicates a detection tube formed of a tapered tube connected to the fluid transfer line 22, and the detection tube 20 is configured as shown in FIG. A float that can move in the moving direction is stored. Further, a sensor 24 for detecting that the internal float is located within a predetermined level is provided to the detection tube 20, and the detection output signal accompanying the abnormal decrease of the float level of the detection tube 20 by the sensor 24 is provided. A control unit 26 for determining an abnormal flow rate state is provided. The above configuration can be the same as that of the device shown in FIG. 5 described above. Further, a pressure source 28 such as a pump is provided on the upstream side of the fluid transfer line 22 provided with the detection pipe 20.

However, the device of the present invention is characterized in that a bypass line 32 provided with a relief valve 30 is connected in parallel to the detection pipe 20 to the fluid transfer line 22 configured as described above. Reference numerals 34 and 36 denote pressure gauges connected and arranged on the upstream side and the downstream side of the fluid transfer line 22 to which the bypass line 32 is connected.

Therefore, when setting the operating point of the relief valve 30 provided in the bypass line 32, if the bypass line 32 is not provided as shown in FIG. The relationship between Q and its flow resistance P is as shown by the characteristic line I.

However, in the device of the present invention, the relief valve 30 is set to operate when the flow rate is slightly higher than the abnormal flow rate detection area in the detection pipe 20. As a result, in the large flow rate region, when the flow rate exceeds the preset flow rate, the relief valve 30 operates according to the flow rate exceeding the preset flow rate, and the fluid can be bypassed. The flow resistance in can also be stabilized as shown by characteristic line II.

Therefore, in the device of the present invention, as the relief valve 30 provided in the bypass line 32, for example, the relief valve 30 configured as shown in FIG. 3 can be preferably used. That is, the relief valve 30 shown in FIG. 3 has an outer casing 42 having a fluid inlet 40 and an inner caging 46 having a fluid outlet 44. By providing a valve seat 45 adjacent to the inlet 40, and arranging a valve element 52 inside the inner caging 46 via a compression coil spring 50, the outer caging 42 and the inner caging 46 are joined together. The valve body 52 is configured to elastically contact the valve seat 48. In the relief valve 30 configured as described above, the valve body 52 separates from the valve seat 48 under the action of the spring 52 in response to the pressure of the fluid acting on the fluid inlet, and the bypass transfer of the fluid in the bypass line 32 is performed. It can be done smoothly. In the relief valve 30 of the present embodiment, the valve seat 48 and the valve body 52 make a taper contact as shown in FIG. 4, but in this case, the taper contact area, that is, (D ₂ −D) By setting ₁ ) as small as possible, it is possible to keep the pressure fluctuation of the primary side fluid just before and immediately after the start of bypass.

[0016]

[Effect of device]

 As is apparent from the above-described embodiment, according to the present invention, the sensor detects that the float inside the detector tube is located within a predetermined level in the fluid transfer line provided with the detector tube for detecting the flow rate abnormality. As a result, the control unit can determine the abnormal flow rate by the detection output signal accompanying the abnormal decrease in the float level of the sensor. Therefore, for example, it is possible to properly detect the abnormally reduced flow rate of the fluid having the pulsation characteristic discharged by the reciprocating pump or the like. In particular, when the flow rate of the fluid is increased, the pressure of the upstream side of the detection pipe is almost increased since the flow can be diverted to the bypass line according to the excess flow rate by the action of the relief valve at a predetermined flow rate or more. The flow rate abnormality can be properly detected without increasing the fluid resistance in the detection pipe.

Since the pressure in the fluid transfer line is stabilized by such a flow dividing action of the bypass line, it is not necessary to increase the pressure of a pressure source such as a pump, so that the fluid transfer power can be reduced and energy saving can be achieved. It is effective as a system.

Further, since the pressure rise in the detection pipe can be reduced, the structure of the detection pipe is relaxed in terms of manufacturing and strength, and moreover, it is possible to cope with a small flow range to a large flow range. It is possible to significantly reduce the manufacturing cost of the detection device, and to add a function such as visualizing the float, for example.

Therefore, when the device of the present invention is applied to a pump discharge line for injecting chemicals in water and sewers, even if the quantity and quality of treated water (for example, flood) suddenly rises, Accurate processing is possible without the need to manually adjust the valve opening. Further, in this case, when the pump is clogged with foreign matter or leaks from the discharge line, the flow rate abnormality detection device can be operated properly and reliably.

In the above-described embodiment, an example of the relief valve provided in the bypass line is shown. However, the relief valve that can be used in the present invention is not limited to the above-mentioned embodiment, and the relief function of fluid is not limited thereto. Any known valve mechanism can be adopted.

[Brief description of drawings]

FIG. 1 is a system diagram showing an embodiment of a flow rate abnormality detecting device according to the present invention.

2 is an operational characteristic diagram of the device of the present invention shown in FIG. 1. FIG.

3 is a cross-sectional view of a main part of a relief valve that can be suitably used in the device of the present invention shown in FIG.

4 is a partially enlarged view of the relief valve shown in FIG.

FIG. 5 is an explanatory diagram of a mechanism of a conventional flow rate abnormality detecting device.

[Explanation of symbols]

 20 Detector Tube 22 Fluid Transfer Line 24 Sensor 26 Controller 28 Pressure Source 30 Relief Valve 32 Bypass Line 34, 36 Pressure Gauge 40 Fluid Inlet 42 Outer Caging 44 Fluid Outlet 46 Inner Caging 48 Valve Seat 50 Compression Coil Spring 52 Valve Body

Claims (1)

[Scope of utility model registration request] 1. A flow rate abnormality detecting device comprising a detection pipe for detecting a flow rate abnormality in a line for transferring a fluid having a pulsation characteristic which is pumped by a pump or the like, wherein the detection pipe has a level displaced by a change in flow rate. It is composed of a taper tube containing a float, and a sensor for detecting the position of the float within the fluctuation range of a predetermined level in the pipe is provided for the detection pipe, and this sensor is used for abnormally lowering the float level of the detection pipe. Connected to a control unit that determines an abnormal flow rate by the accompanying detection output signal, and further configured to adjust the valve opening in proportion to the flow rate of the fluid in the fluid transfer line with respect to the detection tube in proportion to the flow rate. A flow rate abnormality detection device characterized in that a bypass line provided with the relief valve is connected in communication.