KR20120129233A - Fatigue checking device of a wire half disconnection - Google Patents

Abstract

PURPOSE: A wire partial disconnection fatigue measuring device is provided to measure a partial disconnection of a wire with mechanical fatigue repeatedly added on various wires, thereby accurately grasping the partial disconnection existence of the wire. CONSTITUTION: A wire partial disconnection fatigue measuring device comprises a table(100), a wire fixing unit(200), a weight plumb(300), a rotary supporting unit(400), a fatigue applying unit(500), a proximity sensor(600), and an angle displaying unit(700). The table is fixed to a bottom surface. The wire fixing unit arranges a wire perpendicularly on the central portion of the table and fixes the wire by pressing a predetermined portion of the wire. The weight plumb maintains the wire in the lower part of the table to be perpendicular to a gravity direction so that loads of the weight plumb is applied to the lower part of the wire around the wire fixing unit. The rotary supporting unit comprises a fastener. The fastener grips the upper part of the wire of predetermined height on the top of the table around the wire fixing unit. The rotary supporting unit repeats a left and right side bending of the wire. The fatigue applying unit applies bending fatigue to the wire.

Description

FANGUE CHECKING DEVICE OF A WIRE HALF DISCONNECTION}

The present invention relates to an electric wire half wire fatigue measuring device, and more particularly, it is possible to accurately determine whether the electric wire half broken due to the mechanical fatigue applied to various wires repeatedly, so that the transmission can be accurately determined. It is possible to prevent the electricity to be cut off, and relates to a wire half-line fatigue measurement device that can prevent fire and human injury due to electrical defects of the wire.

In general, an electric wire is an electric conductor coated with an electric conductor insulator used for the transmission of electrical energy, or an electric conductor covered with a protective coating on an upper part coated with an insulator. An electric current is applied to an electric device such as an electronic product or a home appliance. It is the general term for spiral, insulated wire, cable and cord.

Such a fatigue measuring device is a device for measuring the information of the wire by applying a variety of mechanical fatigue, such as bending by modifying the thickness and the number of strands of the wire.

However, the prior art has a problem in that it is impossible to obtain an accurate measurement value because the limit of the number of repetitions and the angle adjustment occurs in applying the mechanical fatigue of the wire.

As a result, the measurement value is not obtained and the transmission of the electric wires is cut off as it is not possible to accurately determine whether the wires are disconnected.

The present invention for solving the problems as described above, because it can measure the half-break of the wire due to mechanical fatigue applied to various wires repeatedly to accurately determine whether the half-break of the wire is transmitted is blocked It is an object of the present invention to provide a device for measuring wire half-break fatigue that can be prevented and prevents fire and human damage caused by electric defects in the wire in advance.

The present invention for achieving the above object is provided with a predetermined space fixed to the floor; An electric wire fixing part for pressing and fixing a predetermined portion of the electric wire while keeping the electric wire vertically positioned in the center of the table; A weight on the lower side of the table such that the wire is vertical in the direction of gravity so that a load of weight is applied to the lower part of the wire around the wire fixing part; A rotation support part having a fixing clamp for gripping the upper part of the electric wire at a predetermined height from the upper part of the table around the electric wire fixing part to repeat the bending of the electric wire left and right; A fatigue applying unit configured to provide bending fatigue to the wire by including a driving motor for rotating the rotating support part on which the wire is gripped at a predetermined angle; Proximity sensor portion capable of adjusting the vertical height of the upper and lower sides configured to rotate left and right within a certain angle range in accordance with the operation of the left and right rotation angle of the rotation support portion around the wire fixing portion to which the wire is fixed; And an angle display unit displaying scales and numbers on one side thereof so as to measure the left and right rotation angles of the rotation support unit. Characterized in that it comprises a.

Preferably, the wire fixing part is a pair of fixing members which are stacked in two stages of different rectangular shapes of different sizes integrally and moved in the left and right directions to maintain a fixed state from an external force; A close contact member having a streamlined fixing groove formed at one end of the rectangular inner surface laminated on the fixing member with a predetermined width and moving in a left and right direction according to the thickness of the wire; And a pair of transfer members configured to have a cylindrical shape on a rectangular outer surface fixedly integrated under the fixing member to move the fixing member in left and right directions. Characterized in that it comprises a.

Also preferably, the pivot support is formed to be elongated in the longitudinal direction of the rectangular shape, the one side is fixed to the upper portion of the table, the rotating body is repeated left and right due to the drive motor is inserted into the fixed one side; And a clamp formed in a "b" shape to be mounted on a mounting groove formed in the longitudinal direction of the rotating body to grip the wire at a predetermined height. Characterized in that it comprises a.

Also preferably, the fatigue applying unit is a drive motor for rotating the rotational support portion is inserted into the rotational force is generated due to the electricity is fixed to the upper surface of the table; And a rectangular counter connected to one side of the driving motor to adjust a rotational speed of the rotation support unit. Characterized in that it comprises a.

Also preferably, the proximity sensor unit is formed long in the longitudinal direction of the rectangular shape sensor body which is fixed to both sides around the pivot support; And a sensor member coupled to a guide groove elongated in the longitudinal direction of the sensor body and capable of manually adjusting the vertical height of the pivot support so as to rotate left and right within a predetermined angle range. Characterized in that it comprises a.

Also preferably, the driving motor of the fatigue applying unit may recognize the angle range according to the height of the proximity sensor unit and rotate the rotation support unit within the angle range.

And preferably, the left and right rotation angle range of the rotation support portion is adjusted according to the height adjustment of the proximity sensor portion.

The present invention of the above configuration, the mechanical fatigue applied to a variety of wires can be measured by the half-break of the wire repeatedly due to the effect that can accurately determine whether the half-break of the wire to prevent the transmission of electricity is cut off Is provided.

In addition, it is also provided with the effect that the reliability is excellent because it can prevent the fire and human injury due to electrical defects of the wire in advance.

1 is a perspective view showing an electric wire half-break fatigue measuring apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the wire fixing part according to an embodiment of the present invention is moved in the left and right directions.
Figure 3 is a perspective view showing a state in which the fixing clamp of the pivot support according to an embodiment of the present invention can be adjusted up and down.
4 is a perspective view showing a state in which the sensor member of the proximity sensor unit according to an embodiment of the present invention can be adjusted up and down.
Figure 5 is a front view showing a state in which the rotating support is rotated repeatedly left and right according to an embodiment of the present invention.
Figure 6 is a front view showing a state in which the left and right rotation angle of the rotation support in accordance with one embodiment of the present invention is increased.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

Referring to Figures 1 to 6 with respect to the structure of the wire half-break fatigue measurement apparatus according to an embodiment of the present invention.

1 is a perspective view showing a wire half-line fatigue measurement apparatus according to an embodiment of the present invention, Figure 2 is a perspective view showing a state in which the wire fixing part according to an embodiment of the present invention is moved to the left, right direction, 3 is a perspective view showing a state in which the clamping portion of the pivot support according to an embodiment of the present invention can be adjusted vertically, Figure 4 is a perspective view showing a state in which the sensor member of the proximity sensor unit according to an embodiment of the present invention can be adjusted vertically. 5 is a front view showing a state in which the rotation support part is repeatedly rotated left and right according to an embodiment of the present invention, and FIG. 6 is a front view showing a state in which the left and right rotation angles of the rotation support part according to an embodiment of the present invention are increased. to be.

Device for measuring wire half-break fatigue according to an embodiment of the present invention is a device for measuring the half-break of the wire (W) to analyze the reliability of mechanical fatigue.

Half-break is a state in which the wire is disconnected in the insulation coating and repeats the disconnection at that part or the part of the core wire remains so that it is not completely disconnected.

As shown in Figure 1 to Figure 4, the wire half-line fatigue measurement apparatus according to an embodiment of the present invention is a table 100, wire fixing part 200, weight weight 300, pivot support 400 , A fatigue applying unit 500, a proximity sensor unit 600, and an angle display unit 700.

The table 100 is provided as a predetermined space and is fixed to the floor to maintain a fixed state even from external force applied from the outside.

The table 100 has a predetermined groove formed inward on an upper surface on which the fatigue measuring device is mounted.

The table 100 has a wire fixing part 200 that presses and fixes a predetermined portion of the wire W while allowing the wire W to be vertically positioned in the center.

The wire fixing part 200 is laminated in two stages of different sizes in one piece and is moved in the left and right directions to maintain the fixed state of the pair of fixing members 210 from the external force.

The fixing member 210 has a predetermined width on a rectangular inner surface stacked on the top thereof, and a fixed groove 240 having a streamline shape is formed at one end of the fixing member 210 to be in close contact with the contact member 220. Fix it.

The fixing member 210 consists of a pair of cylindrical shapes on a rectangular outer surface fixed integrally at the bottom to move the fixing member 210 through the transfer member 230 in the left and right directions.

The wire fixing part 200 is moved in the left and right directions according to the thickness of the wire (W) held in the fixing groove 240 to be firmly fixed.

In the present embodiment, the fixing member is stacked in two stages of a rectangular shape, but the present invention is not limited thereto.

The fixing member 210 is knotted by hanging the weight 300 to one end of the vertically located wire (W), moved in the left, right direction to press a predetermined portion of the wire (W) made of a predetermined diameter Fix it.

The weight 300 is the wire (W) at the lower side of the table 100 to maintain the vertical in the direction of gravity so that the weight of the load around the wire fixing part 200 is applied to the wire (W) lower To lose.

The weight 300 may give a tensile force in the cylindrical shape, the wire (W) is suspended in the ring is fixed integrally on the upper surface.

The wire fixing part 200 is provided with a clamp 430 for gripping the upper portion of the wire (W) of a predetermined height from the upper portion of the table 100 to rotate the support 400 to the left and right bending the wire (W).

The rotation support part 400 is formed in the longitudinal direction of the rectangular shape so that one side is fixed to the upper portion of the table 100, the rotation body 410 due to the drive motor 510 is inserted into one side is fixed Repeated left and right.

The rotation body 410 is formed higher than the height of the angle display portion 700 to be described below, it is located on the rear of the angle display portion 700.

The rotating body 410 is mounted to the mounting groove 420 formed in the longitudinal direction therein is fixed to the clamp 430 made of a "b" shape for holding the wire (W) at a predetermined height.

The fastener 430 is adjustable up and down using the mounting groove 420 of the rotation body 410 can be changed freely height.

The wire (W) is provided with a drive motor (510) for rotating the gripping support portion 400 to be rotated left and right at a predetermined angle to give the fatigue applying portion (500) the bending fatigue to the wire (W).

The fatigue applying part 500 rotates the pivot support part 400 inserted and coupled by a rotational force generated by electricity applied to the upper surface of the table 100.

The fatigue applying unit 500 is connected to one side of the driving motor 510, the rotational force is formed of a square counter 520 for adjusting the rotational speed of the rotation support unit 400.

The counter 520 may calculate the disconnection rate of the internal element wire according to setting the rotation speed of the driving motor 510.

The driving motor 510 of the fatigue applying unit 500 recognizes the angle range according to the height of the proximity sensor unit 600 to be described below, and rotates the pivot support unit 400 left and right within the angle range.

The wire (W) is a proximity sensor unit 600 capable of adjusting the vertical height is configured to rotate left and right within a certain angle range in accordance with the operation of the left and right pivot angle of the pivot support unit 400 is fixed around the fixed wire 200 It is provided.

The proximity sensor unit 600 is formed long in the longitudinal direction of the rectangular shape is fixed to the sensor body 610 on both sides around the pivot support 400.

The sensor body 610 is coupled to the sensor member 630 which can be manually adjusted up and down height so that the pivot support 400 rotates left and right within a predetermined angle range in the guide groove 620 formed in the longitudinal direction therein. .

The sensor member 630 is formed in a cylindrical shape, but the groove is formed inward as the height of the guide groove 620 in the center, it is easy to adjust the vertical height.

The sensor member 630 is formed larger than the width of the guide groove 620 to block the departure from the sensor body 610.

The proximity sensor unit 600 is adjusted to the left and right rotation angle range of the rotation support unit 400 according to the height adjustment.

An angle display part 700 on which a scale and a number are displayed on one side is fixed to the table 100 to measure the left and right rotation angles of the rotation support part 400.

The angle display part 700 is made of a rectangular plate material is mounted on the needle needle in the center can measure the rotation angle through the rotation of the needle needle.

The angle display part 700 is interposed between the wire fixing part 200 and the rotation support part 400.

As shown in Figure 5, the wire (W) is to maintain the vertical due to the weight (300) in the lower portion, the upper part of the wire (W) is gripped by the clamp 430 of the pivot support 400 To maintain the overall vertical position.

The drive motor 510 of the fatigue applying unit 500 rotates the inserted rotation support part 400 to rotate left and right within the angle range of the proximity sensor part 600 fixed to both sides of the rotation support part 400. .

The pivot support 400 may be rotated at the same time as the needle needle of the angle display 700 seated on the table 100 to measure the rotation angle of the pivot support 400 using a scale and a number. .

As shown in FIG. 6, the rotation support part 400 rotates left and right to the sensor member 630 of the proximity sensor part 600 fixed to both sides due to the rotation of the driving motor 510 of the fatigue applying part 500. do.

The proximity sensor unit 600 is interlocked with the driving motor 510 and the pivot support unit 400 is rotated left and right to a height at which the sensor member 630 of the proximity sensor unit 600 is located.

Referring to the state of use and operating state of the wire half-break fatigue measurement apparatus according to an embodiment of the present invention having the above-described configuration as follows.

First, as shown in Figures 1 to 4, the wire half-break fatigue measurement device is assembled in the factory and modular in advance.

The wire fixing part 200 is made to hold the wire (W) of various sizes.

The pivot support unit 400 is suspended from the weight (300) at the bottom while the wire (W) to be measured fixed to the clamp (430) to maintain the vertical.

The wire (W) to maintain this vertical is fixed to the wire fixing portion 200 is moved to the left, right direction by pressing a predetermined portion of the wire (W).

As shown in FIG. 5, the rotation support part 400 is a driving motor 510 of the fatigue applying part 500 inserted and coupled to the rotation support part 400 in a state in which the wire W is fixed to the clamp 430. The number of rotations and the angle of rotation are measured for fatigue caused by bending the wire (W) by repeating the right and left rotation.

As shown in FIG. 6, the proximity sensor unit 600 is interlocked with the driving motor 510 so that the sensor member 630 can be adjusted up and down in height.

The proximity sensor 600 moves the sensor member 630 downward so that the rotation angle of the pivot support 400 is increased.

Due to this, the rotational support is repeatedly rotated left and right, so that it is possible to determine exactly how many times the rotational and rotational angles become half-break through the bending of the wire.

In addition, the wire half-break fatigue measurement device can perform the fatigue measurement work in the state that the wire to be measured is connected to the connection plug.

In addition, it is possible to evaluate whether the wire is thin in the area of the same wire and many wires are excellent in mechanical strength, or the thickness of the wire is thick and the use of a small amount of wire is good in mechanical strength.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the invention pertains. It is not limited to.

100-Table 200-Front Panel
210-fixing member 220-contact member
230-conveying member 240-fixing groove
300-Weight 400-Rotating Support
410-Rotating Body 420-Mounting Grooves
430-Fastener 500-Fatigue
510-Drive Motors 520-Counters
600-Proximity sensor 610-Sensor body
620-Guide groove 630-Sensor member
700-angle indicator W-wire

Claims (7)

A table provided in a predetermined space and fixed to the floor;
An electric wire fixing part for pressing and fixing a predetermined portion of the electric wire while keeping the electric wire vertically positioned in the center of the table;
A weight on the lower side of the table such that the wire is vertical in the direction of gravity so that a load of weight is applied to the lower part of the wire around the wire fixing part;
A rotation support part having a fixing clamp for gripping the upper part of the electric wire at a predetermined height from the upper part of the table around the electric wire fixing part to repeat the bending of the electric wire left and right;
A fatigue applying unit configured to provide bending fatigue to the wire by including a driving motor for rotating the rotating support part on which the wire is gripped at a predetermined angle;
Proximity sensor portion capable of adjusting the vertical height of the upper and lower sides configured to rotate left and right within a certain angle range in accordance with the operation of the left and right rotation angle of the rotation support portion around the wire fixing portion to which the wire is fixed; And
An angle display unit displaying scales and numbers on one side thereof so as to measure left and right rotation angles of the rotation support unit; Wire half-break fatigue measurement apparatus comprising a. The method of claim 1,
The front line fixing part,
A pair of fixing members having two different sized rectangular shapes stacked one-piece and moving in left and right directions to maintain a fixed state from an external force;
A close contact member having a streamlined fixing groove formed at one end of the rectangular inner surface laminated on the fixing member with a predetermined width and moving in a left and right direction according to the thickness of the wire; And
A pair of transfer members configured to have a cylindrical shape on a rectangular outer surface fixedly integrated under the fixing member to move the fixing member in left and right directions; Wire half-break fatigue measurement apparatus comprising a. The method of claim 1,
The rotation support portion,
Rotating body which is formed in the longitudinal direction of the rectangular shape is fixed to the upper side of the table, the left and right repeating body due to the drive motor is inserted into the fixed one side; And
A fixing rod formed in a mounting groove formed in the longitudinal direction of the rotating body and configured to have a "b" shape for holding an electric wire at a predetermined height; Wire half-break fatigue measurement apparatus comprising a. The method of claim 1,
The fatigue application unit,
A driving motor for rotating the pivot support part inserted into and coupled with the rotation force generated by the electricity applied to the upper surface of the table; And
A rectangular counter connected to one side of the driving motor to adjust a rotational speed of the pivot support; Wire half-break fatigue measurement apparatus comprising a. The method of claim 1,
The proximity sensor unit,
Sensor body is formed in the longitudinal direction of the rectangular shape is fixed to both sides around the pivot support; And
A sensor member coupled to a guide groove formed in the longitudinal direction of the sensor body and capable of manually adjusting the height up and down so that the pivot support rotates left and right within a predetermined angle range; Wire half-break fatigue measurement apparatus comprising a. The method according to claim 1 or 4,
The drive motor of the fatigue applying unit is a half-wire fatigue measurement device, characterized in that for rotating the rotating support to the left and right within the angle range by recognizing the angle range according to the height of the proximity sensor. 6. The method according to claim 1 or 5,
Wire half-line fatigue measurement apparatus characterized in that the left and right rotation angle range of the rotation support is adjusted in accordance with the height adjustment of the proximity sensor.

Images