KR20090127455A - Radio transceiver for measuring instrument - Google Patents

Abstract

PURPOSE: A radio transceiver using the Zigbee communication is provided to prevent the measurement error by transmitting the measurement data of a measuring instrument to a main computer by the Zigbee communication. CONSTITUTION: A hinge(30) moves the measurement data of a measuring instrument to a main body(20). The hinge is inserted into an insert hole(21) of the main body. A connection fixing tool(40) connects a port(10), the main body, and the hinge at both sides to fix the insert hole and the hinge. A power jack(22) is formed for connection with the electric power at one side of the main body. A radio transceiver(100) transmits the measuring data to a main computer by the Zigbee communication.

Description

Wireless Transceiver for Instrument Using Zigbee Communication {RADIO TRANSCEIVER FOR MEASURING INSTRUMENT}

The present invention relates to a wireless transceiver for measuring instrument using ZigBee communication, and more preferably to analyzing and determining the data measured by the at least one measuring instrument data transmitted through the wireless transceiver using Zigbee communication in the processing unit of the main computer This is to enable transmission of signals between each other.

Commonly used instruments are divided into general-purpose instruments and dedicated instruments, and general-purpose instruments are not used for specific products such as oscilloscopes, digital multimeters, signal analyzers, and spectrum analyzers. These instruments are used to measure these instruments, and the dedicated instrument refers to instruments that are used only for specific applications, such as 'protocol analyzer' and 'SWR meter'.

In particular, in the manufacturing industry in the electronics industry, such as mobile phone production line, display production line, and notebook production line, many expensive high-frequency measuring equipment or luminance measuring devices are used, and large-scale and high-tech infrastructure facilities such as bridges, large facilities, and underground burial facilities The necessity of indoor and verification experiments is increasing, and the number of structures that have been passed for several decades since their completion has gradually accumulated, and the introduction of precise safety diagnosis and maintenance measurement system for evaluating the status of the current structure has increased rapidly. There is a trend.

According to the specification of the product, the measurement data or the status of the structure is data through the measuring instrument, and this data is analyzed and judged by a computing processing device such as a computer to identify and predict the quality and safety status of the target product or facility. Done.

In the related art, a main computer which is mostly processed by a measuring instrument and a processing unit is connected to a wired cable such as a GPIB cable to perform data transmission. In this way, the measuring instrument control system using a wired cable requires a plurality of measuring instruments and a plurality of wired cables when a large number of measurement objects are measured. In this case, a plurality of measuring instruments are connected to a computer to transmit signals. Wired cables connected between computers not only complicate the configuration of the equipment, but also have management problems such as entangled wires of several strands.

In addition, since wired cables such as GPIB cables are expensive products, the use of multiple wired cables increases the installation cost of the measuring equipment itself, and the maintenance cost increases, and the maintenance distance between the instrument and the main computer is limited. There is a problem.

In addition, if the transmission between the instrument and the main computer is connected by a wired cable for a long time, a change in the cable resistance value due to temperature change increases, causing a measurement error between the actual data and the data received from the main computer. .

The present invention has been made to solve the above-mentioned disadvantages, and an object of the present invention is to provide a wireless transceiver capable of wirelessly transmitting bidirectionally to a main computer using data measured by a Zigbee communication.

That is, the data measured by the instrument is transmitted to the main computer through Zigbee communication using a wireless transceiver installed in the instrument so that the processing unit of the main computer can analyze and judge the data and control the measurement method and range of the instrument. I would like to.

In addition, the present invention can be equipped with a wireless transceiver to transmit and receive using ZigBee communication to each of a plurality of measuring instruments to transmit the data measured by each measuring instrument to the main computer by wireless, simplifying the configuration of the equipment and at the same time maintained The aim is to reduce the cost of maintenance.

In addition, the present invention has an object to increase the communication distance between the measuring instrument and the main computer because the transmission between the measuring instrument and the main computer to the Zigbee communication using a wireless transceiver.

In addition, an object of the present invention is to freely adjust the angle of the main body for transmitting and receiving data by mounting a port to the instrument by allowing the main body of the radio transceiver mounted on the meter to be freely rotated by the connector.

Referring to the configuration of the present invention having the above object in more detail based on the accompanying drawings as follows.

As shown in the figure, the port 10 is coupled to the measuring instrument 200 and fixed with a fastener 11,

The insertion hole 21 of the main body 20 is inserted into the rear insertion hole 12 of the port 10 to transfer the data measured by the measuring instrument 200 to the main body 20 and to rotate the main body 20. A hinge 30 inserted into the

The port 10 and the main body 20 and the hinge 30 are connected at both sides to fix the hinge 30 inserted into the insertion hole 12 of the port 10 and the insertion hole 21 of the main body 20. The connection fixture (40)

On one side of the main body 20 to transmit data measured using the wireless transceiver 100, including a power jack 22 formed to be connected to the power source and the main computer 300 by Zigbee communication It provides a wireless transceiver for measuring instrument using Zigbee communication, characterized in that configured.

In addition, the main body 20 of the present invention includes a window 23 and a display lamp 24 for analyzing, determining, and displaying the data measured by the measuring instrument 100, and a reset for resetting the data displayed on the window 23. Provided is a wireless transceiver for measuring instrument using Zigbee communication, characterized in that it comprises a button 25.

In addition, the present invention provides a wireless transceiver for measuring instrument using ZigBee communication, characterized in that the wireless transceiver 100 is connected to a plurality of measuring instruments 200 and configured to be mutually transmitted by the main computer 300 and Zigbee communication. do.

The present invention by the configuration as described above can be transmitted to the main computer by ZigBee communication using a wireless transceiver coupled to the instrument measured by the instrument is simple in structure so that no measurement error occurs even if the transmission distance is increased It works.

In addition, since the wireless transceiver is connected to the main body and the port by the hinge, it can be connected to the instrument to rotate the main body at a free angle, and the measured data can be analyzed and judged on the main computer and displayed on the window. By confirming this, it is possible to quickly identify and predict the safety status of the facility.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 and 2 are a perspective view and a state diagram showing the wireless transceiver 100 of the present invention, in particular, the electronics industry, such as mobile phone production line, display production line, notebook production line, bridges, large facilities, underground installations, etc. It is a configuration that couples the wireless transceiver 100 using the ZigBee communication to the measuring instrument 200 so as to transmit data measured in the measuring instrument used in the industry and the like with the main computer.

The wireless transceiver 100 is coupled to the meter 200, the port 10 is formed to be fixed by the fastener 11, the port 10 forms an insertion hole 12 in the lower portion. In addition, the hinge 30 is inserted into the insertion hole 12 of the port 10 and the insertion hole 21 of the main body 20 so as to transmit the data measured by the measuring instrument 200 to the main body 20. In this case, the port 10 and the hinge 30 and the main body 20 are connected to both sides so that the main body 20 can be rotated by the hinge 30 around the port 10 mounted on the measuring instrument 200 ( It is a configuration to connect and fix with 40).

The main body 20 transmits the data measured by the measuring instrument 200 to the main transceiver 300 to the wireless transceiver 100 using Zigbee communication, and then analyzed and determined by the arithmetic processing unit of the main computer 300. The data is configured to be displayed on the window 23 formed on the surface of the main body 20 of the wireless transceiver 100 again using Zigbee communication. In addition, a display lamp 24 for displaying data displayed on the window 23 is also formed on the outer periphery of the surface, and a reset button 25 is also formed to reset the data displayed on the window again.

In addition, a power jack 22 for inputting power to the wireless transceiver 100 is formed on one side of the main body 20, and a PCB (not shown) is installed inside. 3, the small jack 51 coupled to the power jack 22 is connected to one side of the curl cable 52, and the other side of the curl cable 52 is connected to the power cord 53. The power supplied is configured to be connected to one side of the power socket 50 to transfer power to the meter 200.

4 is a perspective view illustrating a state in which data measured by mounting a wireless transceiver 100 to a plurality of measuring instruments 200 are transmitted to a main computer 300, and when a plurality of objects are measured, The instrument 200 is installed to mount the radio transceiver 100 for wirelessly transmitting data measured by Zigbee communication to the main computer 300 in each instrument 200.

At this time, the main computer 300 is equipped with a servo module 400 is configured to transmit the data transmitted from the wireless transceiver 100 safely in both directions.

Hereinafter, an embodiment of a wireless transceiver transmitted by Zigbee communication of the present invention will be described.

As shown in FIG. 3, at least one measuring device 200 is installed in order to perform a precise safety diagnosis of a product or a structure of an electronic industry field installed at various industrial sites, and measures data.

At this time, the data measured by the measuring instrument 200 is connected to the measuring instrument 200 and transmitted to the main computer 300 through the wireless transceiver 100 by Zigbee communication, the transmitted data is calculated by the main computer 300 The calculation is performed by the processing apparatus, the comparison is determined, the analysis is transmitted to the wireless transceiver 100, and the data is displayed on the window 23 formed on the surface of the main body 20 of the wireless transceiver 100. The power jack 22 of the wireless transceiver 100 supplies power by coupling a small jack 51 connected to the curl cable 52 to one side of the power socket 50 in advance. That is, the power supplied through the power cord 53 is supplied along the curl cable 52 connected to one side of the power socket 50 while supplying power to the instrument 200 along the power socket 50. Power is supplied to the power jack 22 via the small jack 51 to operate the wireless transceiver 100. In addition, the display lamp 24 also operates so that the data displayed on the window 23 can be quickly delivered to the operator.

After the operator checks the data displayed on the window 23 and wants to check other data, the operator can check the new data by pressing the reset button 25 to reset the data displayed on the window 23.

And when the operating state of the wireless transceiver 100 coupled to the measuring instrument 200 will be described with reference to Figure 2, first, the fastener 11 by coupling the port 10 to the measuring instrument 200 to the wireless transceiver 100 Secure with. The main body 20 may be rotated in accordance with the installation position of the measuring instrument 200.

That is, the hinge 30 is inserted into the insertion opening 21 of the main body 20 and the insertion opening 12 of the port 10 to connect the port 10 and the main body 20 to the connection fixture 40 at both sides. Since the main body 20 is rotated, the main body 20 and the hinge 30 can rotate about one end of the connecting fixture 40 connected to the port 10, thereby rotating the main body at a desired angle. You can use it.

1 is a perspective view showing a wireless transceiver of the present invention.

2 is a perspective view showing a state diagram of use of the wireless transceiver of the present invention.

3 is a view showing a power line for supplying power.

4 is a perspective view illustrating a state in which the wireless transceiver 100 of the present invention is mounted to a plurality of measuring instruments 200, respectively, and transmits measured data to the main computer 300.

 * Explanation of symbols on the main parts of the drawings

10. Port 11. Fasteners

12. Insertion hole 20. Main body

21.Inlet 22. Power Jack

30. Hinges 40. Connection Fixtures

50. Power socket 51. Small jack

52. Curl Cable 53. Power Cord

100. Wireless Transceiver 200. Instrument

300. Main computer 400. Servo module

Claims (4)

A port 10 coupled to the meter 200 and fixed with a fastener 11, The insertion hole 21 of the main body 20 is inserted into the rear insertion hole 12 of the port 10 to transfer the data measured by the measuring instrument 200 to the main body 20 and to rotate the main body 20. A hinge 30 inserted into the The port 10 and the main body 20 and the hinge 30 are connected at both sides to fix the hinge 30 inserted into the insertion hole 12 of the port 10 and the insertion hole 21 of the main body 20. The connection fixture (40) On one side of the main body 20 to transmit data measured using the wireless transceiver 100, including a power jack 22 formed to be connected to the power source and the main computer 300 by Zigbee communication Wireless transceiver for measuring instrument using Zigbee communication, characterized in that the configuration. The method of claim 1, The main body 20 includes a window 23 and a display lamp 24 for analyzing, determining and displaying the data measured by the measuring instrument 100, and a reset button 25 for resetting the data displayed on the window 23. Wireless transceiver for measuring instrument using Zigbee communication, characterized in that configured to include. The method of claim 1, The small jack 51 coupled to the power jack 22 is connected to the power socket 50 and the curl cable 52 is configured to supply power to the wireless transceiver for measuring instrument using Zigbee communication, characterized in that. The method according to claim 1 or 2, The wireless transceiver (100) connected to each of the plurality of measuring instruments (200), each of the wireless transceiver for measuring instrument using ZigBee communication, characterized in that configured to be transmitted to each other by a plurality of main computers 300 and ZigBee communication.

Images