CN218916709U - Monitoring system of liquid storage equipment - Google Patents

Abstract

The embodiment of the application discloses monitoring system of stock solution equipment, including pipeline, first flowmeter and second flowmeter, pipeline intercommunication stock solution equipment and working equipment, pipeline includes input pipeline and output pipeline, the output pipeline is used for carrying the fluid in the stock solution equipment to the working equipment, the input pipeline is used for carrying back the fluid in the working equipment to the stock solution equipment, first flowmeter links on the output pipeline, is used for measuring the flow of fluid that flows through the output pipeline, the second flowmeter links on the input pipeline, is used for measuring the flow of fluid that flows through the input pipeline. In the fluid characteristic detection process, the monitoring system can be used for monitoring the leakage amount of the fluid so as to prevent the leakage from being too large, so that the fluid amount of the liquid storage device is too small to influence the normal operation of the device.

Description

Monitoring system of liquid storage equipment

Technical Field

The application relates to the technical field of fluid monitoring, in particular to a monitoring system of liquid storage equipment.

Background

In industrial applications, it is often necessary to use a working device to detect a property of a fluid in a fluid storage device, and to deliver the fluid back to the fluid storage device after the detection is completed.

In the detection process, the working equipment and the conveying pipeline may have fluid leakage, which causes environmental protection problems, and if the leakage amount is excessive, the fluid in the liquid storage equipment is reduced, so that the normal operation of the equipment is affected.

Disclosure of Invention

The application provides a monitoring system of liquid storage equipment, in the fluid characteristic detection process, can utilize this monitoring system to monitor fluid leakage volume.

The monitoring system of the liquid storage device comprises a conveying pipeline, a first flowmeter and a second flowmeter, wherein the conveying pipeline is communicated with the liquid storage device and the working device, the conveying pipeline comprises an input pipeline and an output pipeline, the output pipeline is used for conveying fluid in the liquid storage device to the working device, the input pipeline is used for conveying the fluid in the working device back to the liquid storage device, the first flowmeter is connected to the output pipeline and used for measuring the fluid flow flowing through the output pipeline, and the second flowmeter is connected to the input pipeline and used for measuring the fluid flow flowing through the input pipeline.

In one embodiment of the monitoring system of the liquid storage device, the monitoring system further comprises a controller, and the first flow meter and the second flow meter are connected with the controller so as to feed back measurement data to the controller.

In one embodiment of the monitoring system of the liquid storage device, the monitoring system further comprises an input component, wherein the input component is connected with the controller and is used for inputting a set value to the controller.

In one embodiment of the monitoring system of the liquid storage device, the monitoring system further comprises an alarm, wherein the alarm is connected with the controller and is used for sending out alarm information when the difference value between the first flowmeter and the second flowmeter is larger than the set value.

One embodiment of the monitoring system of the liquid storage device further comprises a display, wherein the display is connected with the controller and used for displaying control information of the controller and/or alarm information of the alarm.

One embodiment of the monitoring system for a fluid storage device, the delivery conduit is configured with a plurality of different types of fittings to accommodate different types of fluid storage device interfaces and different types of working device interfaces.

Drawings

Fig. 1 is a schematic diagram of an embodiment of a monitoring system of a liquid storage device provided in the present application.

The reference numerals are explained as follows:

01 liquid storage equipment, 02 working equipment;

10 output tubing, 20 input tubing, 30 first flow meter, 40 second flow meter, 50 controller, 60 input component, 70 alarm, 80 display.

Detailed Description

In order to make those skilled in the art better understand the technical solutions of the present application, the following further details are given to the technical solutions of the present application by referring to the drawings and the detailed description.

As shown in fig. 1, the monitoring system of the liquid storage device 01 provided in the present application includes a conveying pipe, a first flowmeter 30 and a second flowmeter 40.

The conveying pipeline is communicated with the liquid storage device 01 and the working device 02. The transfer duct comprises an inlet duct 20 and an outlet duct 10. The output pipe 10 is used for delivering the fluid in the reservoir device 01 to the working device 02. The input conduit 20 is used to convey fluid from the working device 02 back to the reservoir device 01.

The fluid is stored in the fluid storage device 01, the working device 02 is used for detecting the characteristics of the fluid in the fluid storage device 01, and different working devices 02 can be selected according to different fluids and different characteristics of the fluid to be detected. For example, where the fluid is oil, the working device 02 may be an oil chromatography on-line monitoring device.

A first flow meter 30 is connected to the output conduit 10 for measuring the flow of fluid through the output conduit 10. A second flowmeter 40 is connected to the input pipe 20 for measuring the flow of fluid through said input pipe 20.

The above monitoring system can determine whether or not the fluid leaks in the conveying pipe and the working equipment 02 by comparing the difference between the measured data of the first flowmeter 30 and the measured data of the second flowmeter 40, and if the difference is large, the difference between the two is indicative of the leakage. When judging that leakage occurs, the maintenance should be performed as soon as possible, so that the leakage prevention amount is too large, which leads to too small fluid amount of the liquid storage device 01 and influences the normal operation of the device.

In particular, the delivery conduit may be configured with a plurality of different types of connectors to accommodate different types of reservoir 01 interfaces and different types of working 02 interfaces. The joint and the conveying pipeline body can be fixed in a detachable mode through threads and the like, so that the joint of different types can be replaced conveniently.

Specifically, the measurement data of the first flowmeter 30 and the measurement data of the second flowmeter 40 may be manually read, and the difference between the two may be manually calculated.

The controller 50 may also be provided, and the first flowmeter 30 and the second flowmeter 40 may be connected to the controller 50 by a wire connection or a wireless transmission connection. In this way, the measurement data of the first flowmeter 30 and the measurement data of the second flowmeter 40 can be transmitted to the controller 50, and the difference between the two can be automatically calculated by the controller 50. The controller 50 is utilized to automatically calculate the difference between the two, so that the accuracy is higher, and real-time monitoring can be realized, thereby more timely finding leakage.

Further, the monitoring system may further be provided with an input unit 60, where the input unit 60 may be a key, a touch key, etc., and the input unit 60 is connected to the controller 50, and may be a wire connection or a wireless transmission connection. The user may input a set value to the controller 50 through the input part 60. The set value is determined based on the measurement errors of the first flow meter 30 and the second flow meter 40. Only when the difference between the measured data of the first flow meter 30 and the measured data of the second flow meter 40 is greater than the set value, it is determined that the fluid leakage is currently occurring. In this way, the influence of the measurement errors of the first flowmeter 30 and the second flowmeter 40 on the judgment result can be eliminated, and the judgment result can be ensured to be accurate.

Specifically, the first flowmeter 30 and the second flowmeter 40 are preferably the same flowmeter, and preferably high-precision flowmeters.

Further, the monitoring system may also be provided with an alarm 70. The alarm 70 is connected to the controller 50, and may be a wired connection or a wireless transmission connection. The alarm 70 is used for sending out alarm information when the difference between the measured data of the first flowmeter 30 and the measured data of the second flowmeter 40 is greater than the set value, and the alarm information may be sound information or photoelectric information. Thus, the working personnel can be timely reminded of overhauling when the fluid leaks.

Further, the monitoring system may also be provided with a display 80. The display 80 is connected to the controller 50 and may be wired or wireless. The display 80 is used to display control information of the controller 50 and/or alarm information of the alarm 70. The control information of the controller 50 includes the difference between the measurement data of the first flowmeter 30 and the measurement data of the second flowmeter 40, the above-described set values, and the like.

In particular, the controller 50, the input unit 60, the alarm 70 and the display 80 may be integrated on a central console.

The foregoing has outlined the principles and embodiments of the present application with the understanding that the present application is directed to a method and core idea of the present application. It should be noted that it would be obvious to those skilled in the art that various improvements and modifications can be made to the present application without departing from the principles of the present application, and such improvements and modifications fall within the scope of the claims of the present application.

Claims (6)

1. Monitoring system of a liquid storage device, characterized in that the monitoring system comprises a conveying pipeline, a first flowmeter (30) and a second flowmeter (40), wherein the conveying pipeline is communicated with the liquid storage device (01) and a working device (02), the conveying pipeline comprises an input pipeline (20) and an output pipeline (10), the output pipeline (10) is used for conveying fluid in the liquid storage device (01) to the working device (02), the input pipeline (20) is used for conveying fluid in the working device (02) back to the liquid storage device (01), the first flowmeter (30) is connected to the output pipeline (10) and used for measuring fluid flow flowing through the output pipeline (10), and the second flowmeter (40) is connected to the input pipeline (20) and used for measuring fluid flow flowing through the input pipeline (20).

2. A monitoring system of a liquid storage device according to claim 1, further comprising a controller (50), wherein the first and second flow meters (30, 40) are each connected to the controller (50) for feeding back measurement data to the controller (50).

3. A monitoring system of a liquid storage device according to claim 2, characterized in that the monitoring system further comprises an input member (60), the input member (60) being connected to the controller (50) for inputting a set value to the controller (50).

4. A monitoring system of a liquid storage device according to claim 3, further comprising an alarm (70), the alarm (70) being connected to the controller (50), the alarm (70) being adapted to issue an alarm message when the difference between the first flowmeter (30) and the second flowmeter (40) is greater than the set point.

5. Monitoring system of a liquid storage device according to claim 4, characterized in that the monitoring system further comprises a display (80), the display (80) being connected to the controller (50) for displaying control information of the controller (50) and/or alarm information of the alarm (70).

6. Monitoring system of a liquid storage device according to any of claims 1-5, characterized in that the transport pipe is configured with a plurality of different types of joints to adapt to different types of liquid storage device (01) interfaces and different types of working device (02) interfaces.

Images