KR200301505Y1 - Pressure Scan-indicator - Google Patents

Abstract

The present invention relates to a system and a measuring method for measuring the pressure of all the places to be measured by using one electronic pressure sensor and one display device when measuring pressure at two or more places, and more specifically, a measuring point with one pressure sensor. It relates to a pressure gauge that measures the pressure of the sequential and transmits the pressure value as a digital signal to the recording device and display on the display device.

Description

Pressure Scan-indicator

The present invention relates to a system and a measuring method for measuring the pressure of all the places to be measured by using an electronic pressure sensor and a display device when measuring pressure at two or more places, and more specifically, a measuring point with one pressure sensor. It relates to a pressure gauge that measures the pressure of the sequential and transmits the pressure value as a digital signal to the recording device and display on the display device.

In general, an apparatus used for pressure measurement in an industrial site or a research laboratory is configured as shown in FIG. 1. The pressure sensor 10 is installed at every point to be measured, and the output signal measured at the installed location is displayed on each display 11. At the same time, it is transmitted to the A / D device 12, converted into a digital signal, and stored in the control means 13.

In this way, the problems in pressure measurement can be summarized as follows.

First, as the number of measuring points increases, the number of pressure sensors and displays also increases, which can cause the complexity of wiring between the pressure sensors and the display, the lack of installation space, and the price.

Second, each pressure sensor must be calibrated and the status of the display also checked. In other words, the more pressure sensors and display devices, the more difficult it is to manage.

Third, an A / D device is needed to store the measured pressure value, because the storage device commonly used in the control means is digitized.

Fourth, the pressure sensor, the display and the A / D device is located independently, there is a problem that you can not carry because each device must be managed separately.

The present invention is devised to solve the above problems, the object of the present invention is to provide an easy-to-use, portable device for the user.

In order to provide an economical and robust pressure measuring device by miniaturizing the flow opening / closing device, pressure sensor, pressure display, A / D and D / I into one device, and to provide a pressure measuring device using the method. have.

1 is a block diagram according to the prior art of the present invention

2 is a block diagram of an embodiment of the present invention

Explanation of symbols on the main parts of the drawings

10: pressure sensor 11: display

12: A / D 13: Control means (computer)

20: Input flow path 21: Electronic selection for flow path selection

22: output flow path 23: pressure sensor

24: microprocessor 25: LCD display

26: serial communication driver 27: control means (computer)

28: case

The configuration of the present invention for achieving the above object is made as follows.

Input flow path 20 connected to the pressure measurement point, the flow path selection electronic valve 21 to open and close the input flow path, output flow path 22 through which the pressure of the selected flow path is output, pressure sensor 23 connected to the output flow path, A / D It consists of a microprocessor 24 having a built-in, LCD display 25 for displaying the pressure value, a communication driver 26 and the control means 27 for serial communication with the control means.

Hereinafter, an operation method of the present invention will be described with reference to the drawings. The control channel 27 selects the input channel to be measured and sends a signal to the communication driver 26 through the serial communication port built into the control means, and the communication driver 26 notifies the microprocessor 24. The processor 24 applies electricity to the flow path selection electromagnetic valve 21 corresponding to the input flow path 20 to open the flow path. At this time, if pressure is transmitted to the pressure sensor 23 connected to the output flow path 22, the pressure The value is converted into an electrical signal and transmitted to the microprocessor 24, which converts the signal into a digital signal and displays it on the LCD display 25, and simultaneously to the control means 27 through the communication driver 26. send. The control means 27 records the value.

Referring to the effects of the present invention described above are as follows.

First, it reduces the number of pressure sensors and display devices, as shown in Figure 2 can measure and store the pressure of more than 10 places with one device of the present invention.

Secondly, since the A / D device 12 is not required, any control means 27 can transmit the measured value through serial communication. That is, since the microprocessor 24 replaces the A / D device 12 function, a separate A / D device is not necessary.

Third, the sensor is easy to calibrate and manage. Since there is only one sensor and display per device of the present invention, it is easy to manage.

Fourth, it is easy to carry and easy to use. In other words, all the existing external devices are integrated into one device, making it easy to move and easy to install.

Claims (2)

The pneumatic input end of the flow path selection solenoid 21 is connected to the input flow path 20, and the pneumatic output ends of the flow path selection solenoid 21 are all connected to one output flow path 22, and the output flow path 22 is provided. Is connected to the pressure measuring port of the pressure sensor 23, the pressure sensor 23 is electrically connected to the microprocessor 24, the LCD display 25, the serial communication device 26 and the electronic valve for channel selection (21) is a pressure scan indicator in electrical connection with the microprocessor (24). The microprocessor 24 interprets the command received from the control means through the serial communication device 26 to generate an electric signal on the flow path selection electronic valve 21 connected to the input flow path 20 to measure the pressure. When the flow path is opened, the pressure of the input flow path 20 to be measured is output to the output flow path 22, and the output pressure is transmitted to the pressure measuring port of the pressure sensor 23, at which time the pressure sensor 23 is a pressure value. Converts the electric signal into a microprocessor 24, and the microprocessor 24 digitizes and displays an electric signal received from a pressure sensor and a unique number of an electronic valve for selecting a flow path opened on the LCD display 25. Pressure scan instruction, characterized in that for requesting at (27) transmits the pressure value and the unique number of the open flow path selection electronic valve to the control means through the serial communication device 26 as a digital signal.