RU110482U1 - CALIBRATION STAND FOR PRESSURE SENSORS - Google Patents

Abstract

 A stand for calibrating pressure sensors comprising a control and data processing system connected to a control panel, a pressure control system, a working chamber containing a reference pressure sensor, a stationary temperature sensor, a temperature control system, characterized in that the data management and processing system is based on a personal a computer connected to the control panel via an information exchange system, wherein the information exchange system is connected to a personal computer by means of ceiling elements of the communications interface and the remote control is connected to the calibrated sensor and information exchange system via a data interface of two-wire half-duplex multipoint serial communication, the processing chamber is further provided with at least one mobile temperature sensor and a sliding table.

Description

The utility model relates to measuring equipment, in particular to devices for calibrating pressure sensors, mainly laser-interference sensors.

A device is known (SU AS No. 1739230) for calibrating pressure sensors, comprising a resonant pipe connected to a pressure source with sockets for control and calibrated sensors, a pressure pulsating valve connected to the resonant pipe, a medium pressure setpoint mounted on the pipe. The disadvantages of the known device is the lack of automation of the calibration process, as well as the lack of accounting for the influence of air temperature on the readings of pressure sensors.

Closest to the claimed utility model is a stand for calibrating pressure sensors, a description of which is given on the website, http://www.tritec.ru/library/article/i_1165.aspx. The stand consists of a working chamber containing a reference pressure sensor, a stationary temperature sensor and a temperature control system, as well as a pressure control system, a data processing and control system made in the form of a control and calibration system, each of which is controlled by its own computer, which are integrated into a local network Ithernet and connected to the control panel.

However, the known device does not allow sufficiently accurate calibration of large and massive sensors, such as laser interference, due to the inertia of the heating and cooling processes, therefore it is important to take into account the errors associated with the influence of temperature fluctuations of the environment on the measured value of pressure variations.

The objective of the claimed utility model is to expand the functionality of the device by improving the accuracy of calibration of massive pressure sensors.

The technical result of the claimed device is to increase the accuracy of measurements of massive laser sensors, structural simplicity, ease of use.

The problem is solved by a stand for calibrating pressure sensors, containing a control and data processing system connected to a control panel, a pressure control system, a working chamber containing a reference pressure sensor, a stationary temperature sensor, a temperature control system, while the control and data processing system is based on a personal computer connected to the control panel via an information exchange system, while the information exchange system is connected to a personal computer after COROLLARY serial interface, and the controller is connected to the calibrated sensor and information exchange system via a data interface of two-wire half-duplex multipoint serial communication, the processing chamber is further provided with at least one mobile temperature sensor and retractable table

In FIG. a block diagram of the inventive device is presented, where 1 is a pressure control system, 2 is a working chamber, 3 is a valve, 4 is a calibrated pressure sensor, 5 is a mobile temperature sensor, 6 is a reference pressure sensor, 7 is a stationary temperature sensor, 8 is a system temperature control, 9 - control panel, 10 - information exchange system 11 - personal computer.

To take into account the errors associated with the influence of temperature fluctuations of the environment on the measured value of pressure variations, and therefore to increase the accuracy of measurements, the claimed calibration stand also contains at least one mobile temperature sensor installed on the body of the calibrated sensor. This is especially true for large and massive structural elements, in particular for laser-interference sensors, since their heating and cooling is slow. In addition, for an in-depth analysis of the effect of temperature on the readings of the calibrated sensor, it becomes possible to additionally measure the temperature on its various structural elements by installing a mobile temperature sensor in various places of the calibrated sensor housing.

The table on which the calibrated sensor is mounted is retractable, which significantly improves the operational properties of the device.

The control and data processing system of the stand includes a personal computer (PC), a control panel and an information exchange system based on microprocessors. The control and data processing system uses a PC, for example, an IBM PC, with a processor frequency of at least 1 MHz, which allows using the received information in real time. Data is exchanged between the information exchange system and the PC via USB, the calibrated sensor and the control panel exchange data with the information exchange system using the RS485 interface, and the pressure and temperature sensors are interrogated by the remote control via I2C protocol.

The specific hardware implementation of the reference pressure sensor and temperature sensors is standard and according to the characteristics depends on the task of measurement, the required accuracy, speed.

The working chamber is sealed and equipped with a valve (not shown in FIG.) Connected to a control panel, which allows maintaining a predetermined pressure when the temperature in the chamber changes.

Pressure control and temperature control systems are standard. For example, a pressure control system can be performed using an automobile compressor, which is connected through a nozzle to the working chamber, and the temperature control system can include a device for heating and mixing air, made in the form of a heat fan

The inventive device operates as follows.

In the working chamber (2) on a sliding table (not shown in Fig.), A calibrated sensor (4) is placed, a mobile temperature sensor (5) is installed on its body. The camera is hermetically closed by a lid (not shown in Fig.) A signal is sent from the computer (11) to the control panel (9), from where it enters the pressure control system (1). The compressor (1) pumps air into the working chamber (2) until the required pressure value is established. The temperature control system (8) heats / cools and mixes the air, sets the required air temperature. Data received from a reference pressure sensor (6), a stationary temperature sensor (7), a mobile temperature sensor (5) and a calibrated sensor (4) are sent to the information exchange system (10) and then to the computer (11), where the data is processed and the dependence of the pressure values of the calibrated sensor (4) on the air temperature is built, an analysis of the accuracy of the readings is done.

Thus, the constructive implementation of the inventive device, as well as the use of a mobile temperature sensor, which allows you to adjust the measured value of the pressure variations of the large-sized sensor at various fluctuations in ambient temperature, leads to an increase in the accuracy of measurement of the stand, has structural simplicity, and is also convenient to operate.

Claims (1)

A stand for calibrating pressure sensors comprising a control and data processing system connected to a control panel, a pressure control system, a working chamber containing a reference pressure sensor, a stationary temperature sensor, a temperature control system, characterized in that the data management and processing system is based on a personal a computer connected to the control panel via an information exchange system, wherein the information exchange system is connected to a personal computer by means of ceiling elements of the communications interface and the remote control is connected to the calibrated sensor and information exchange system via a data interface of two-wire half-duplex multipoint serial communication, the processing chamber is additionally provided with at least one mobile temperature sensor and retractable table.