KR101303038B1 - Displacement device of the spring-loaded automatic tensioning device - Google Patents

Abstract

PURPOSE: A displacement measuring device of a spring-loaded automatic tensioning device is provided to use monitoring data accumulated according to temperature changes for correlation analysis, thereby enabling scientific maintenance. CONSTITUTION: A displacement measuring device of a spring-loaded automatic tensioning device comprises a sensor unit (110) to measure a change of tension through the spring-loaded automatic tensioning device; a control unit (120) to store data measured by the sensor unit and transmit the data to a communication unit (140); a power source unit (130) to supply power to the displacement measuring device; and the communication unit to transmit the stored data delivered from the control unit to the outside. [Reference numerals] (110) Sensor unit; (120) Control unit; (130) Power source unit; (140) Communication unit; (200) Spring-type automatic tension adjusting device; (300) External communication module; (AA) RS-232C communication; (BB) Wireless communication

Description

Displacement measuring device of spring-loaded automatic tensioning device {Displacement Device of The Spring-loaded Automatic tensioning device}

The present invention relates to a displacement measuring device of a spring-type automatic tension adjusting device, and more particularly, to maintain a constant tension for the electric power line and a stable current collector, which is a facility that supplies electricity by directly contacting the pantograph of the electric vehicle, The present invention relates to a displacement measuring device of a spring-loaded automatic tension adjusting device for measuring whether the tension device is operating properly with respect to the change in the length of the catenary.

In general, a catenary is a device that supplies electricity by directly contacting a pantograph of an electric vehicle. A constant tension must be maintained for good current collection.

The device to automatically adjust the tension of catenary is pulley type, pulley type and spring type, and about 3,000 sets are installed by the end of 2011. The double pulley type has been installed the most, but since corrosion was found in the bearing part of the pulley, the spring type automatic tension adjusting device was successfully developed and purchased as a new product development project under the purchase condition of Small and Medium Business Administration since 2004 to improve maintenance efficiency and maintenance. Was promoted.

  The spring-type automatic tension adjusting device is a device that maintains a constant tension with elastic force by an internal spring in the tension device when the expansion and expansion (length change) of the tank line according to the temperature change as shown in Figures 1 and 2, tension device The staff reads and judges the stroke of the stroke installed in the lower part of the tension device during the circuit inspection.

The life of the spring-loaded automatic tensioning device is the elastic modulus of the spring (k) and should remain unchanged until replacement.

If the modulus of elasticity is changed, it is difficult to maintain the tension of the chariot because of the loss of the function of the tension device, which may lead to accidents.

Currently, some of the tension device circuit inspection results (temperature and ruler values) are recorded and managed, but the management is not well managed.

In order to manage the facility scientifically, the daily, monthly, and yearly data record management and change state analysis are required, which is difficult in reality and requires the dismantling and dismantling of the tension device to measure the spring elastic modulus.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and has the following objectives.

The present invention maintains a constant tension for stable electric current and the front line of the equipment that supplies electricity by directly contacting the pantograph of the electric vehicle, and a spring for measuring whether the tension device is properly operating against the change in the length of the line according to temperature changes It is an object of the present invention to provide a displacement measuring device for automatic tension adjustment.

The present invention for achieving the above object is implemented by an embodiment having the following configuration.

The displacement measuring device of the spring-type automatic tension adjustment device of the present invention is a sensor unit for measuring the change of the spring-type automatic tension adjustment device, a control unit for storing and transmitting the data measured through the sensor unit, and the spring-type automatic tension adjustment device It includes a power supply unit for supplying power to the displacement measuring device of the, and a communication unit for receiving the data request signal in the wireless communication with the outside and receiving the stored data from the control unit and transmitting it wirelessly to the outside.

Displacement measuring device of the spring-type automatic tension adjustment device of the present invention monitors the automatic tension adjustment device that can maintain a constant tension on the electric tank line, which is a facility for supplying electricity by directly contacting the pantograph of the electric vehicle, so that stable current collection can be achieved. Has

In addition, the accumulated monitoring information according to the temperature change can correlate the change in the length and have the effect of scientifically performing the maintenance of the facility.

1 and 2 is a view showing a conventional spring-type automatic tension adjustment device,
Figure 3 is a block diagram showing a displacement measuring device of the spring-type automatic tension adjustment device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The applicant will now describe in detail the construction of the embodiments with reference to the accompanying drawings.

Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

Hereinafter, with reference to the accompanying drawings look at the operating state of the present invention.

Displacement measuring device of the spring-type automatic tension adjustment device as shown in Figure 3,

Sensor unit 110 for measuring the change of the spring-type automatic tension adjustment device,

A controller 120 for storing the measured data through the sensor unit and transmitting the measured data to the communication unit;

A power supply unit 130 for supplying power to the displacement measuring device;

The communication unit 140 receives the data request signal through wireless communication with the outside and receives the stored data from the control unit and transmits the data to the outside.

The sensor unit 110 reads not only the displacement sensor value but also the tilt sensor value and the temperature sensor value of the spring-type automatic tension adjusting device. The displacement sensor of the sensor unit 110 measures the displacement according to the change of the reference point and the target point (magnet) using the principle of the electromagnetic field.

The control unit 120 is configured to include a CPU, EEPROM, Real Time Clock (hereinafter RTC). Displacement measurement, temperature measurement, tilt measurement, EEPROM handling and RTC can be operated at regular intervals.

The controller 120 stores and accumulates values measured at regular time intervals in the EEPROM, which is very important information for inspection and maintenance.

The power supply unit 130 supplies power to each part using a battery for a wireless communication module.

The communication unit 140 is configured as a BlueTooth module, a WiFi module, and a ZigBee module, all of which are wireless communication modules. Also, it operates by power-on at regular intervals and sends out its own device ID and checks whether there is a communication target within 10ms.

At this time, if the communication target is not confirmed, power-off and operate in the power saving mode.When the communication target is confirmed, the stored EEPROM data is transmitted to the confirmed communication target, and when the reception completion message is received, the EEPROM data is deleted.

If there is no data transmission at power-on, internal control command is executed.

Meanwhile, the control unit 120 and the communication unit 140 may release the power saving mode at the request of each other.

The displacement measuring device of the spring-type automatic tension adjusting device of the present invention operates in a power saving mode by power switching in a sleep timer method, and stores the measured value from the sensor unit in the EEPROM and wirelessly operates the wireless communication module according to an external request signal. It has the function of wirelessly transmitting the stored data to outside.

In the displacement measuring device of the spring-loaded automatic tensioning device of the present invention, the basic data configuration is stored in the EEPROM or communicated with the outside as shown in Table 1.

division designation Byte number Explanation Header Company / Region ID One Installation Area / Type Device ID 2 Sensor node number Start time 2 time reservation One reservation DATA Displacement 2 16 bit inclination 2 16 bit Temperature 2 16 bit

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

100: displacement measuring device 110: sensor
120: control unit 130: power unit
140: communication unit 300: external communication module

Claims (16)

Sensor unit 110 for measuring the changed tension through the spring-type automatic tension adjustment device;
A controller 120 for storing data measured through the sensor unit and transmitting the measured data to the communication unit;
A power supply unit 130 supplying power to the displacement measuring device of the spring-type automatic tension adjusting device;
A communication unit 140 receiving the data request signal through wireless communication with the outside and receiving the stored data from the control unit and transmitting the received data to the outside; In the displacement measuring device of the spring-type automatic tension adjustment device consisting of,
The sensor unit displacement measuring device of the spring-type automatic tension adjustment device, characterized in that for measuring any one or all of the displacement sensor value, the tilt sensor value and the temperature sensor value of the spring-type automatic tension adjustment device.

delete The method of claim 1,
The displacement sensor is a displacement measuring device of the spring-type automatic tension adjustment device, characterized in that for measuring the displacement in accordance with the change of the reference point and the target point (magnet).
The method of claim 1,
The control unit is a displacement measurement device of the spring-type automatic tension adjustment device comprising a CPU, EEPROM, Real Time Clock (hereinafter RTC).
The method of claim 1,
The control unit is a displacement measuring device of the spring-type automatic tension adjustment device, characterized in that to operate the displacement measurement, temperature measurement, tilt measurement, EEPROM handling, RTC operation at a predetermined time interval.
The method of claim 1,
The control unit is a displacement measuring device of the spring-type automatic tension adjustment device, characterized in that for additionally storing the value measured at regular intervals in the EEPROM.
The method of claim 1,
Wherein the communication unit BlueTooth module, WiFi module, the displacement measuring device of the spring-type automatic tension adjustment device, characterized in that comprising a ZigBee module.
The method of claim 1,
The communication unit is a displacement measuring device of the spring-type automatic tension adjustment device, characterized in that by operating at a predetermined time interval.
The method of claim 1,
And the communication unit transmits its device ID at regular time intervals and checks whether there is a communication object within 10 ms.
The method of claim 1,
Wherein the communication unit is a displacement measuring device of the spring-type automatic tension adjustment device characterized in that it comprises a function to operate in a power saving mode by power-off when the communication target is not confirmed after the power-on.
The method of claim 1,
And the communication unit deletes the EEPROM data when the reception completion message is received after transmitting the stored EEPROM data to the identified communication target.
The method of claim 1,
And the communication unit includes a function of performing an internal control command when there is no data transmission after power-on.
The method of claim 1,
The control unit and the communication unit displacement measuring device of the spring-type automatic tension adjustment device, characterized in that it comprises a function to be released from the power saving mode by the request of each other.
The method of claim 1,
Displacement measuring device of the spring-type automatic tension adjusting device is a displacement measuring device of the spring-type automatic tension adjusting device characterized in that it further comprises a function of operating in the power saving mode by power switching in the Sleep Timer method.
The method of claim 1,
Displacement measuring device of the spring-type automatic tension adjusting device is a displacement measuring device of the spring-type automatic tension adjusting device, characterized in that it further comprises a function for wirelessly transmitting the stored data to the outside according to an external request signal through the wireless communication module.
The method of claim 1,
Basic data configuration for EEPROM storage or external communication in displacement measuring device of spring type automatic tensioning device is 1 byte for installation area / type, 2 byte for sensor node number, 2 byte for start time, 1 byte for reservation information, 2 byte for displacement value, slope Displacement measuring device of spring type automatic tensioning device, characterized in that it consists of 2 byte for value and 2 byte for temperature value.

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