RU163179U1 - EQUIPMENT CONTROL DEVICE - Google Patents

Abstract

1. A device parameters control device, comprising a compact case, inside of which are installed on a single printed circuit board: microcontroller, Bluetooth transceiver, battery, laser pointer, means for determining the temperature characteristics, RFID reader containing a read antenna, a vibrometer containing a probe made with the possibility of controlling the vibration parameters of the equipment, the controls of the elements of the device and the connector for connecting external sensors, moreover, Bluetooth transceiver Execute to transmit data from the control means of the temperature characteristics and the external device vibrometer operatora.2. The device according to claim 1, characterized in that the controls are a keyboard. 3. The device according to claim 2, characterized in that the keyboard is touch. The device according to any one of paragraphs. 2 or 3, characterized in that the keyboard contains a key configured to simultaneously activate an RFID reader, a vibrometer, and a means for monitoring the temperature characteristics of the equipment. 5. The device according to claim 1, characterized in that the antenna of the RFID reader is located on the rear surface of the housing. The device according to claim 1, characterized in that it further comprises a sensor for measuring humidity. The device according to claim 1, characterized in that it further comprises a gas analyzer sensor. The device according to claim 1, characterized in that the connector for connecting external sensors is a 3.5 mm jack connector. The device according to claim 1, characterized in that the means of monitoring the temperature characteristics is a thermal imager made on the basis of thermocouple matrices that provide a range of

Description

FIELD OF TECHNOLOGY

The claimed device relates to the field of computing and measuring technology, in particular, to a means for monitoring the parameters of equipment designed to monitor the status of industrial equipment installed at power facilities, for example, substations, hydroelectric power stations, nuclear power plants, thermal power plants, or at civil and industrial construction sites.

BACKGROUND

A device for controlling the parameters of equipment is known, which comprises a means for measuring temperature and vibrations — a VT-21 vibrometer (_vt_21), which, in addition to measuring the parameters of equipment vibrations, contains a pyrometer for measuring temperature.

The difference between the claimed device and the known vibrometer is the possibility of wireless data transmission to the device of the crawler (operator) and the presence of an RFID reader.

DISCLOSURE OF A USEFUL MODEL

The objective of the claimed solution is to create a new type of portable multifunctional (MFP) device for monitoring equipment parameters.

The technical result is the expansion of functionality by providing wireless transmission of measured equipment parameters to the crawler device and the ability to read RFID tags of equipment to accurately determine the control characteristics of equipment, as well as providing the possibility of expanding the functions of the device using external sensors.

The technical result is achieved due to the claimed device parameters control equipment, containing a compact case, inside of which there are installed on a single printed circuit board: microcontroller, Bluetooth transceiver, battery, laser pointer, means for determining temperature characteristics, RFID reader containing a reading antenna, a vibrometer containing a probe configured to control the vibration parameters of the equipment, controls for the elements of the device and a connector for connecting cheniya external sensors, the Bluetooth transceiver is configured to transmit data from the imager and vibrometer to an external operator device.

In a private embodiment, the controls are a keyboard, which can be mechanical or touch.

In another particular embodiment, the keyboard comprises a key configured to simultaneously activate an RFID reader, a vibrometer, and a means for monitoring temperature characteristics.

In another private embodiment, the antenna of the RFID reader is located on the rear surface of the housing.

In another particular embodiment, the device further comprises a sensor for measuring humidity.

In another particular embodiment, the device further comprises a gas detector sensor.

In another private embodiment, the device further comprises a connector for connecting external sensors, which can be made in the form of a 3.5 mm JACK connector.

In another particular embodiment, the means of monitoring the temperature parameters is a thermal imager based on thermocouple arrays, providing control of the temperature range from -30 ° C to + 300 ° C.

In another particular embodiment, the device further comprises a video camera module.

In another particular embodiment, the means of monitoring temperature parameters is a pyrometer made on the basis of infrared matrices with a temperature measuring range from -70 ° C to + 380 ° C.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 presents a General diagram of the claimed device.

IMPLEMENTATION OF A USEFUL MODEL

The claimed device 100 is made in the form of a portable device for performing a comprehensive analysis of equipment parameters. The device 100 for analyzing the parameters of the equipment contains a compact case, inside of which on a single printed circuit board through a common data bus 105 there are installed: controls 101, a microcontroller 102, Bluetooth transceiver 103, an RFID reader 104, a means for determining the temperature characteristics 106, a vibrometer 108, and a connector to connect external sensors.

The controls 101 are a keyboard, which can be mechanical or touch type. The keyboard contains a key that allows you to activate the RFID reader 104, the vibrometer 108, and means for monitoring the temperature characteristics 106.

The microcontroller 102 is a main computing unit that performs the function of processing signals received from the remaining elements of the device 100.

Bluetooth transceiver 103 is a standard communication module designed to transfer data from device 100 to external sources, for example, an operator or crawler device, designed to record equipment parameters obtained using the claimed device 100. Transmission occurs automatically when the device detects it 100 external device with which a wireless data channel is installed.

The RFID reader 104 is designed to read data from RFID tags located on the equipment or part thereof using an antenna. In a preferred embodiment, the antenna of the RFID reader is located on the rear surface of the housing of the device 100.

To control the temperature characteristics of the equipment, an integrated means of controlling the temperature characteristics 106 is used, which allows a comprehensive analysis of the temperature characteristics of the equipment or its components. In a particular embodiment, a thermal imager based on thermocouple arrays, for example, having a resolution of 16 × 4, which allows analyzing temperature characteristics in the range from -30 ° C to + 300 ° C, can be installed as said means 106. In another particular embodiment, said means 106 is a pyrometer made on the basis of infrared matrices with a temperature measuring range from -70 ° C to + 380 ° C.

Additionally, when used in the design of the thermal imager device, a video camera module can be installed. The video camera module is soldered to a common printed circuit board and connected directly to a common data bus 105 and is designed to display the visible control zone when working with a thermal imager.

The device 100 also contains a laser pointer 107, which is used for more accurate guidance of the device 100 when monitoring the characteristics of the equipment, in particular when using a pyrometer to analyze temperature indicators.

A vibrometer 108 is used to control the vibrational characteristics of the equipment. The parameters are monitored using a special probe, which is soldered to the common board at one end and protrudes from the housing with the other end for use as an element to monitor the condition of the equipment.

The device 100 also contains a connector 109 for expansion using external sensors 200 for additional parameter control. Said connector 109 may be implemented as a 3.5 JACK connector.

Additionally, the claimed device 100 may comprise a gas analyzer sensor and / or a humidity control sensor mounted on a single board.

Additionally, a LED flashlight may be provided in the design of the device 100.

The functioning of the device is carried out using a battery (battery) 110 located on a single board, which is charged through a special connector, for example, micro-usb.

Control of equipment parameters is as follows.

The crawler at the beginning of the crawl reads the RFID tag of the equipment using the device 100, then, using the temperature control 106 and the vibrometer 108, the corresponding parameters are monitored and transferred from the device 100 to the crawler device, for example, a tablet computer, via Bluetooth the transmitter. If in addition to temperature and vibration parameters it is necessary to carry out additional control, then additional sensors are connected through connector 109 and an analysis of equipment parameters is performed using them.

When using the claimed device, the problem of obtaining a number of necessary equipment parameters is solved by using a single compact device, which allows to reduce the time of equipment diagnostics, as well as to quickly perform the necessary work, depending on the data received using the claimed device.

Claims (11)

1. A device parameters control device, comprising a compact case, inside of which are installed on a single printed circuit board: microcontroller, Bluetooth transceiver, battery, laser pointer, means for determining the temperature characteristics, RFID reader containing a read antenna, a vibrometer containing a probe made with the possibility of controlling the vibration parameters of the equipment, the controls of the elements of the device and the connector for connecting external sensors, moreover, Bluetooth transceiver Execute to transmit data by means of temperature characteristics of the control and vibrometer to an external operator device. 2. The device according to p. 1, characterized in that the controls are a keyboard. 3. The device according to p. 2, characterized in that the keyboard is touch. 4. The device according to any one of paragraphs. 2 or 3, characterized in that the keyboard contains a key configured to simultaneously activate an RFID reader, a vibrometer, and a means for monitoring the temperature characteristics of the equipment. 5. The device according to p. 1, characterized in that the antenna of the RFID reader is located on the rear surface of the housing. 6. The device according to p. 1, characterized in that it further comprises a sensor for measuring humidity. 7. The device according to claim 1, characterized in that it further comprises a gas analyzer sensor. 8. The device according to p. 1, characterized in that the connector for connecting external sensors is a 3.5 mm jack connector. 9. The device according to p. 1, characterized in that the means of monitoring the temperature characteristics is a thermal imager made on the basis of thermocouple arrays, providing control of the temperature range from -30 ° C to + 300 ° C. 10. The device according to p. 9, characterized in that it further comprises a video camera module. 11. The device according to p. 1, characterized in that the means of monitoring the temperature parameters is a pyrometer made on the basis of infrared matrices with a temperature measuring range from -70 ° C to + 380 ° C.

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