KR19990070791A - Oil detection device and automatic oil supply device using laser - Google Patents

Abstract

The oil level and turbidity of the oil is detected by a sensor using a laser beam, and relates to an oil detection device using a laser to perform a control operation according to the appropriate level.

The present invention, the instrument panel attached to the machine using the oil to display the oil level of the instrument, installed side by side on the instrument panel, sensing means for detecting the oil level and turbidity of the oil appearing on the instrument panel, oil storage tank, oil storage tank Pump and sensing means that is pumped to supply the oil stored in the oil storage tank by the pipe between the machine and the machine, and the sensing signal connected to the pump by receiving the sensing signal output from the sensing means It is provided with a control unit for controlling the pumping operation by applying a pumping signal to the pump to determine the size of the.

Therefore, according to the present invention, the oil level and turbidity of the oil supplied to the driving device is sensed by a sensor using a laser to supplement and replace the oil, and when an abnormality occurs, a malfunction of the driving device due to the oil is prevented. There is an effect that is prevented in advance.

Description

Oil detection device and automatic oil supply device using laser

The present invention relates to an oil detection device and an automatic oil supply device using a laser, and more particularly, to detect a water level and turbidity of an oil in a sensor using a laser beam, and to control a laser according to an appropriate level. The present invention relates to an oil detection device and an automatic oil supply device.

Generally, lubricating oils are widely used to reduce friction generated by rotation of mechanical elements and to prevent heat generation.

When mechanical friction such as a device rotating at a high speed is severely generated or the use time is excessive, the viscosity of the lubricating oil is lowered, the color is changed, and the suspended solids are used. In particular, the oil supplied to the engine of the car should be replaced according to the driving degree of the car, and the oil supplied to the Kia box is the same. In particular, the rotary pump (Rotary Pump) for forming the vacuum is supplied with oil serves to reduce the friction of the gear connected to the rotor rotating at high speed.

In order to measure the level and turbidity of the conventional lubricating oil, the operator directly checks the scale through the flow meter 10 with the naked eye as shown in FIG. 1, and judges the life of the lubricating oil by judging its color.

By the way, when determining the water level should be made at the time of 'a', there has been a case made of the time of 'b', or 'c'. This can be a big problem for devices that require fine levels.

Oil used in machinery reduces the amount accumulated as it is used, and turbidity increases as the machine element wears out, resulting in improper function as oil. The oil level or turbidity of oil is often checked by workers. Oil must be replaced.

However, in the related art, as described above, there is a problem in that an operator must directly determine the level and turbidity of an appropriate level of oil, and there is a problem in that efficient oil management is not performed due to the subjective judgment of the operator.

An object of the present invention, by installing a sensor close to the flow meter to determine the state of the oil supplied to the device using the oil to detect the oil level of the oil level by using a laser to generate an alarm when the predetermined level or less To provide.

Another object of the present invention, the oil level and turbidity of the oil supplied to the machine using the oil is detected by a sensor using a laser beam is an automatic oil supply device using a laser to automatically perform the pumping operation at low water level To provide.

1 is a view showing an error that may occur when visually discriminating the level of the flow rate shown in a conventional bar flow meter.

2 is a view showing an embodiment of an oil detection apparatus and an automatic oil supply device using a laser according to the present invention.

3 is a view showing 'A' portion of FIG. 2 in detail.

※ Explanation of codes for main parts of drawing

10, 22: flow meter 20: machinery

24: laser generator 26: laser detector

28: control unit 30: storage tank

32: pump 34: alarm

Oil detection device using a laser according to the present invention for achieving the above object, the instrument panel attached to the machine using the oil to display the level of the oil, installed side by side on the instrument panel, the oil level of the oil appearing on the instrument panel Sensing means for detecting the alarm and an alarm unit for generating an alarm when the output of the sensing signal of the sensing means is low (low) is made to maintain the proper level of oil.

And, the instrument panel is preferably made of a transparent material protruding on one side of the mechanical device.

In addition, the sensing means has an optical sensor having a directivity in one direction, and in particular, it is preferable that the oil level is sensed using a laser beam.

In addition, the sensing means is installed in parallel to one side of the instrument panel to generate a laser beam and a laser detector installed on the opposite side of the laser generator around the instrument panel to detect the laser beam irradiated from the laser generator Equipped with.

The automatic oil supply device using the laser according to the present invention for achieving the above object, the instrument panel attached to the machine using the oil to display the level of the oil, installed side by side on the instrument panel, Sensing means for sensing the water level and turbidity, the oil storage tank, a pumping operation is performed to supply the oil stored in the oil storage tank to the machine by a pipe connected between the oil storage tank and the mechanical device And a control unit for controlling a pumping operation by applying a pumping signal to the pump by determining a magnitude of the sensing signal by receiving a sensing signal output from the sensing means connected to the pump and the sensing means and the pump.

In addition, the instrument panel is formed in a protruding shape on one side of the mechanical device, and particularly preferably made of a transparent material.

In addition, the sensing means is installed in parallel with one side of the instrument panel to generate a laser beam penetrating the instrument panel and the laser beam is installed on the opposite side of the laser generator centered on the instrument panel and irradiated from the laser generator It is provided with a laser detector which detects.

In addition, the laser generator is irradiated in parallel with each other in one direction from the two or more different generation sites on the same line spaced by a predetermined distance.

The laser generator includes a high level generator stage for irradiating a laser beam for indicating a high level of oil and a low level generator stage for irradiating a laser beam for indicating a low level of oil.

In addition, the laser detector includes a high level detection stage for detecting a laser beam for determining a high level of the oil level, and a low level detection stage for detecting a laser beam for detecting a low level of the oil level.

In addition, the sensing signal of the sensing means is applied to the control unit so that the intensity of the laser beam is converted into a voltage magnitude, and the turbidity of the oil is determined according to the level of the voltage.

Further, it is preferable that an alarm unit is further connected to the control unit, and when the level of the voltage is lower than a predetermined setting criterion, it is determined that the turbidity of the oil is high and outputs a signal for generating an alarm.

The alarm unit may generate an alarm for notifying the low water level when the water level detected by the sensing unit is equal to or less than a predetermined setting criterion.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2, a flow meter 22 showing a flow level of a flow rate is formed on one side of the machine 20 in which oil is stored, and the laser generator 24 on one side in parallel with the flow meter 22. As shown in FIG. Is installed. On the other side parallel to the flow meter 22, a laser detector 26 is provided facing the laser generator 24, and these laser generators 24 and the laser detectors 26 are connected to the control unit 28, respectively. .

The storage device 30 is connected to the mechanical device 20 via a pipe, and a pump 32 for pumping oil is installed in the middle, and the pump 32 is connected to the control unit 28.

The alarm unit 34 is connected to the control unit 28 and the laser detector 26.

By the above configuration, the oil level and turbidity of the oil are sensed and detected by the laser detector 26, and processed by the control unit 28 so that the pump 32 is driven to adjust the water level when the water level is below an appropriate level. The turbidity is determined according to the strength of the detection signal applied to the control unit 28, and an alarm is generated when the turbidity is less than or equal to a predetermined setting criterion.

This will be described in detail with reference to FIGS. 2 and 3.

The laser generator 24 formed on both sides of the flowmeter 22 so that the oil can be seen by the naked eye generates laser beams by the control signal of the control unit 28. The laser beam is irradiated in a direction perpendicular to the flow meter 22 in parallel with each other at three different sites. That is, as shown in FIG. 3, three laser beams X, Y, and Z are irradiated to the laser detector 26 through the flowmeter 22 in parallel to each other in order to detect the oil flow appearing in the flowmeter 22.

Naturally, the light beam irradiated from the laser generator 24 is installed to be detected in a one-to-one match in the laser detector 26.

'X' is a light beam for detecting a high level of the oil level, 'Y' is a proper level, 'Z' acts as a light beam for detecting a low level. In addition, when the oil level is low level according to the detection signal strength of these light beams detected by the laser detector 26, an alarm is generated in the alarm unit 34 by the switching set by the laser detector 26 itself.

Let us analyze the operation according to the intensity of the detection signal of each light beam according to the detection position.

First, when the intensity of the signal detecting the 'X' ray is high, it is normal as it is not out of the high level. On the contrary, when the intensity of the signal is low, the control unit 28 is out of the high level. Alarm is output by outputting alarm signal. The operator then discharges the oil to an appropriate level through the outlet.

When the intensity of the signal detecting the 'Z' ray is high, it means a low level or less. The controller 28 immediately outputs an alarm signal, and simultaneously operates the pump 32 to supply the storage tank 30 to the storage tank 30. Stored oil is stored in the mechanism (20).

If low, it means that the state does not leave the low level. If low, the signal strength is set again. That is, the low signal when the oil turbidity is low is a low signal close to the high signal, whereas the low signal when the turbidity is high detects a low signal having a lower level than the signal when the turbidity is low. Thus, when the level of the signal set to the case of high turbidity is detected, the control unit 28 determines this and outputs an alarm signal, and the alarm unit 34 generates an alarm.

The intensity of the signal detected by the 'Y' ray detects the level of the appropriate level, but the alarm is not generated even when the high signal is detected, but it acts as a signal to determine the turbidity as in the case of the 'Z' ray. .

According to the embodiment according to the present invention as described above, the oil level used in the drive unit is maintained at an appropriate level, the degree of turbidity is judged by the detection signal of the laser beam, and an alarm is generated so that the operator can There is an advantage to performing appropriate measures accordingly.

Therefore, according to the present invention, the oil level and turbidity of the oil supplied to the driving device is sensed by a sensor using a laser to supplement and replace the oil, and generate an alarm when an abnormality occurs, thereby causing the failure of the driving device due to the defective oil. Malfunctions are prevented in advance.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, and such modifications and modifications are within the scope of the appended claims.

Claims (15)

An instrument panel attached to a machine using the oil to display the oil level; Sensing means installed side by side on the instrument panel and sensing the level of oil appearing on the instrument panel; And An alarm unit for generating an alarm when the output of the sensing signal of the sensing unit is low; Oil detection apparatus using a laser, characterized in that by maintaining the appropriate level of oil. The method of claim 1, wherein the instrument panel, Oil detection device using the laser, characterized in that protruding to one side of the mechanical device is installed. The method of claim 1, wherein the sensing means, Oil detection device using the laser, characterized in that having an optical sensor having a directivity in one direction. The method of claim 1, wherein the sensing means, Oil level detection device using the laser, characterized in that the level of the oil is detected using a laser beam. The method of claim 4, wherein the sensing means, A laser generator installed parallel to one side of the instrument panel to generate a laser beam; And A laser detector mounted on an opposite side of the laser generator with respect to the instrument panel to detect a laser beam irradiated from the laser generator; Oil detection apparatus using the laser, characterized in that provided with. An instrument panel attached to a machine using the oil to display the oil level; Sensing means installed side by side on the instrument panel and sensing oil level and turbidity of the oil appearing on the instrument panel; Oil storage tanks; A pump connected to the oil storage tank and the machine by a pipe to perform a pumping operation to supply oil stored in the oil storage tank to the machine; And A control unit connected to the sensing means and the pump to control the pumping operation by receiving a sensing signal output from the sensing means to determine the magnitude of the sensing signal and applying a pumping signal to the pump; Automatic supply of oil using a laser, characterized in that provided with. The method of claim 6, wherein the instrument panel, Automatic oil supply device using the laser, characterized in that the protruding shape on one side of the machine. The method of claim 6, wherein the instrument panel, Automatic oil supply device using the laser, characterized in that made of a transparent material. The method of claim 6, wherein the sensing means, A laser generator installed parallel to one side of the instrument panel to generate a laser beam passing through the instrument panel; And A laser detector mounted on an opposite side of the laser generator with respect to the instrument panel to detect a laser beam irradiated from the laser generator; Automatic supply of oil using the laser, characterized in that provided with. The method of claim 9, wherein the laser generator, The automatic supply of oil using the laser, characterized in that the laser beams are irradiated in parallel in one direction at two or more different generation sites on the same line spaced by a predetermined distance. The method of claim 9, wherein the laser generator, A high level generator for irradiating a laser beam for indicating a high level of oil; And A low level generator for irradiating a laser beam for indicating a low level of oil; Automatic supply of oil using the laser, characterized in that provided with. The method of claim 9, wherein the laser detector, A high level detection stage for detecting a laser beam for identifying a high level of the oil level; And A low level detecting stage for detecting a laser beam for detecting a low level of the oil level; Automatic supply of oil using the laser, characterized in that provided with. The method of claim 9, The sensing signal of the sensing means is applied to the control unit, the intensity of the laser beam is converted into a voltage magnitude, the oil turbidity supply apparatus using the laser, characterized in that the oil turbidity is determined according to the level of the voltage. The method according to claim 1 or 13, wherein the control unit, And an alarm unit is further connected, and when the level of the voltage is lower than a predetermined setting criterion, it is determined that the turbidity of the oil is high and outputs a signal for generating an alarm. The method of claim 14, wherein the alarm unit, When the water level detected by the sensing means is less than a predetermined set criterion, an automatic oil supply device using the laser, characterized in that the low level alarm is generated.