KR101393461B1 - Apparatus for detecting the wearing of tube - Google Patents

Abstract

The present invention is characterized in that a film type sensor on which a conductive line is printed is attached to the bottom where contact of the fluid tube is expected to confirm the wear state of the fluid tube by the resistance value of the conductive line according to the contact of the fluid tube, Which can detect a leakage state by a change in resistance value of a conductive line caused by a fluid to be applied to the fluid tube.
To attain the above object, the present invention provides a wear detection apparatus for a fluid tube,
A pair of conductive lines are formed in a lengthwise or widthwise direction on the upper surface of the base layer made of a film material by a printing method and an adhesion layer is formed on the lower surface of the base layer and attached to a bottom surface A connector electrically connected to the conductive line is coupled to an end of the base layer to supply power to the conductive line from the controller, and the controller controls the conductive line by a wear due to contact of the fluid tube or leakage from the fluid tube, And determines whether or not an alarm is generated accordingly.

Description

[0001] Apparatus for detecting wear of a fluid tube [0002]

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a wear detection apparatus for a fluid tube, and more particularly, to a wear detection apparatus for a fluid tube that can detect an abrasion state caused by contact of a fluid tube to transmit fluid and take an immediate action.

A fluid tube is used to transmit power such as pneumatic pressure, hydraulic pressure, and water pressure from an industry such as a factory. As shown in FIG. 1, a rail 100 is installed at a position spaced upward from a floor, The fluid tube 120 through which the fluid flows flows into the rail 100 by the plurality of link members 130 in the form of a ring.

In addition, the conveying body 110 is provided on the rail 100 to transmit power to a desired position by conveying the fluid tube 120.

Accordingly, the conveying member 110 is moved on the rail 100 to transfer the fluid tube 120 to the destination.

Usually, one end of the fluid tube 120 is fixed to a power source generating pneumatic pressure or hydraulic pressure, and the other end is conveyed by the conveying body 110, so that the fluid tube 120 is unfolded from the floor as shown in FIG. 2, a contact portion 140 where the lower end of the fluid tube 120 held by the rail 100 contacts the floor is generated.

Therefore, when the fluid tube 120 is unfolded due to frequent movement of the fluid tube 120, the contact portion 140 is abraded due to contact with the ground, resulting in leakage of pneumatic pressure, hydraulic pressure, water pressure, and the like.

Since the process of the fluid tube 120 must be stopped due to the wear of the fluid tube 120, economic and time loss are caused. Also, due to leakage of the fluid, contamination of the equipment or products occurs. .

In order to solve such a conventional problem, the present invention relates to a method of attaching a film type sensor on which a conductive line is printed to a bottom where contact of a fluid tube is expected, so that a wear state of the fluid tube by a resistance value of a conductive line And it is also an object of the present invention to provide a wear detection apparatus for a fluid tube which can confirm a leakage state by a change in resistance value of a conductive line caused by a fluid leaking from the fluid tube.

To attain the above object, the present invention provides a wear detection apparatus for a fluid tube,

A pair of conductive lines are formed in a lengthwise or widthwise direction on the upper surface of the base layer made of a film material by a printing method and an adhesion layer is formed on the lower surface of the base layer and attached to a bottom surface A connector electrically connected to the conductive line is coupled to an end of the base layer to supply power to the conductive line from the controller, and the controller controls the conductive line by a wear due to contact of the fluid tube or leakage from the fluid tube, And determines whether or not an alarm is generated accordingly.

The present invention attaches the film-type sensing device to the bottom surface of the fluid tube, and generates an alarm in advance based on the resistance value depending on the wear state or the leakage state, thereby anticipating the interruption of the process due to the damage of the fluid tube Therefore, there is an advantage in that the economic and temporal loss due to the process interruption can be reduced.

Figures 1 and 2 show a general structure for delivering power by a fluid tube.
3 is a view showing a state in which the present invention is applied.
4 is a view showing a structure of a base layer and an adhesive layer according to the present invention.
5 is a view showing a wear state of a conductive line due to contact of a tube.
6 is a view for explaining a leak detection state;
Figure 7 shows another form of a conductive line.
8 is a circuit block diagram applied in the present invention.

The present invention thus constructed will be described in detail with reference to the accompanying drawings.

FIG. 3 is a view showing a state where the contact sensor 200 according to the present invention is applied, and a contact sensor 200 is attached to the bottom surface of the position where the fluid tube 120 is frequently contacted while being transported.

The contact sensor 200 senses a change in resistance value due to abrasion due to the contact of the fluid tube 120 or a fluid such as oil or water that is leaked due to damage to the fluid tube 120, A pair of conductive lines 211 and 212 printed with a conductive ink or a silver compound along the length or width direction of the base layer 210 made of PET, PE, PTFE, PVC or other Teflon type film material, And are arranged in strips parallel to each other.

An adhesive layer 220 in the form of a double-sided tape is attached to the lower surface of the base layer 210, and is attached and fixed to the bottom surface by the adhesive layer 220 as shown in FIG.

Connectors are mounted on both ends of the contact sensor 200. The connector mounted on one end electrically connects the ends of the conductive lines 211 and 212 to each other and the connector 300 is mounted on the other end as shown in FIG. And is electrically connected to the remote controller 400.

The controller 400 supplies the sensing power to the conductive lines 211 and 212 of the contact sensor 200 through the connector 300 and generates an alarm through the alarm unit 500 according to the resistance value change of the conductive lines 211 and 212 .

On the other hand, when the lower end is touched by the transfer of the fluid tube 120 and the lower end thereof contacts the base layer 210, the conductive lines 211 and 212 are gradually worn and the abrasion portion 230 is generated.

This means that the resistance value of the conductive lines 211 and 212 increases, so that the controller 400 senses a change in the resistance value and generates an alarm through the alarm unit 500 when the resistance value exceeds the set resistance value.

That is, when the fluid tube 120 frequently contacts the base layer 210 and the conductive lines 211 and 212 are worn out, the fluid tube 120 is also worn. Therefore, before the fluid tube 120 is seriously damaged, So that measures such as replacement or maintenance can be performed in advance.

In addition, when the fluid tube 120 is damaged due to an external force and a fluid such as water or oil leaks and falls, the fluid 240 leaked through the pair of conductive lines 211 and 212 as shown in FIG. .

This causes a change in the resistance value of the conductive lines 211 and 212. The controller 400 senses a change in the resistance value and generates an alarm through the alarm box 500 so that leakage can be prevented.

As a result, the present invention is capable of detecting up to wear and leaking states of the fluidic vane 120 by one touch sensor 200.

7 shows the conductive line 213 printed in a zigzag form in order to increase the resolution for sensing the contact and leakage state with the fluid tube 120 on the road showing another form of the conductive line.

Of course, the conductive lines can be formed in various shapes to sense contact and leakage.

200: touch sensor 210: base layer
211, 212, 213: conductive line 220:
230: Wear zone 240: Leakage fluid

Claims (1)

A base layer made of a film material and having a pair of conductive lines formed in a lengthwise or widthwise direction on a top surface thereof by a printing method and a base layer formed on a bottom surface of the base layer, A touch sensor composed of an adhesive layer to which a base layer is attached;
A connector to be electrically connected to the conductive line at an end of the contact sensor;
A power supply to the conductive line of the contact sensor is provided through the connector, and when the resistance value exceeds a predetermined value due to frequent contact of the fluid tube due to wear of the conductive line, whether an alarm is generated or not is determined, And a controller for determining whether or not an alarm is generated when the resistance value of the conductive line is changed due to the leakage of the fluid from the sensor.

Images