KR20140050383A - Apparatus for inspecting wire coil - Google Patents

Abstract

The present invention relates to a wire coil inspection device comprising a device frame; a specimen rotating mean installed on the device frame and provided to rotate a wire coil specimen for an operator to check the specimen; and a fixing mean connected to the specimen rotating mean and fixing the wire coil specimen. According to the present invention, it is possible to simply fix a high temperature wire coil specimen and check surface defects of the wire coil in all directions, and the position is adjustable corresponding to a visual angle of the operator and it is possible to expand surface of the wire coil specimen so that accurate observation is expected.

Description

Apparatus for inspecting wire coil

The present invention relates to a wire coil inspection apparatus, and more particularly, to a wire coil inspection apparatus capable of precisely checking whether a wire coil is defective on its surface.

Conventionally, as shown in FIG. 1, after a wire rod rolling process is completed, an extracted wire rod coil is placed on a cutter by an operator and then cut to produce a wire rod coil specimen of a desired size (S1). After that, the operator places the fabricated specimen on the press machine, and presses the specimen under the prescribed set down force for each coil material (S2).

The worker then presses the pressurized specimen with the heat-resistant glove, rotates it by hand, and visually checks the presence or absence of defects that may occur on the surface of the specimen after the pressing step (S3).

However, even if the worker wears heat resistant gloves, the high-temperature wire coil specimen after the wire rolling process is directly hand-held and inspected, thereby exposing the operator to the risk of safety accidents such as burns.

And because of the high temperature, it must be turned in a short time, which may result in inability to accurately detect whether the specimen is defective.

In addition, there is a problem that the visual acuity of the operator is different for each person, and a minute defect can not be grasped due to the visual limit of the person.

The present invention has been proposed in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to easily fix a high-temperature wire coil specimen and to inspect the surface coil defects in all directions, And the surface of the wire coil specimen can be enlarged, thereby providing a device capable of precise observation.

In order to achieve the above object, an embodiment of the present invention provides a wire coil inspection apparatus as described below.

In one embodiment of the present invention is installed on the device frame and the device frame, and connected to the specimen rotating means and the specimen rotating means provided to rotate the wire coil specimen so that the operator inspects the wire coil specimen, the wire coil It may include a specimen holding means for fixing the specimen.

In one embodiment, the specimen fixing means, the mounting block and the mounting block is installed on the first support beam in the upper part of the device frame connected to the specimen rotating means, the magnetic force provided to fix the wire coil specimen by magnetic force It may include a member.

In one embodiment, the specimen rotation means is installed in the first handle member and the first coupling groove of the movable block penetrating the first coupling groove of the movable block and connected to the seating block, the first handle member It may include a first bearing unit provided to support the rotation of the seating block by.

In one embodiment, further comprising a specimen position adjusting means installed on the first support beam to adjust the vertical position of the wire coil specimen, the specimen position adjusting means, the guide groove formed in the longitudinal direction on the moving block And a nut member which penetrates the guide groove and is connected between the adjustment bolt and the first support beam and the first support beam to fix the position of the moving block.

In one embodiment, the inspection mirror rotation means connected to the second support beam and connected to the second support beam so as to rotate the inspection mirror in accordance with the inspection mirror and the operator's view that is installed on the second support beam of the upper device frame It may further include.

In one embodiment, the inspection means rotating means is installed in the second handle member and the second coupling groove of the second support beam penetrating the second coupling groove of the second support beam and connected to the inspection mirror, 2 may include a second bearing unit provided to support the rotation of the inspection mirror by the handle member.

One embodiment of the wire coil inspection apparatus according to the present invention can easily fix the hot wire coil specimen by using the magnetic force, and thus it is possible to prevent the safety risk such as the image of the conventional worker.

Further, the wire coil sample can be rotated, and it is possible to easily check whether or not the wire coil has surface defects.

Then, the inspection surface is rotated in accordance with the visual angle of the operator, and the surface of the wire coil is enlarged and observed using the inspection surface, thereby enabling more precise inspection of the surface state.

1 is a state diagram showing a state in which a conventional wire coil sample is inspected.
Figure 2 is a perspective view of one embodiment according to the present invention.
FIG. 3A is an exploded perspective view of the inspection light rotating means in the invention shown in FIG. 2; FIG.
FIG. 3B is an exploded perspective view of the specimen rotating means in the invention shown in FIG. 2. FIG.
4 is a state diagram showing a state in which a wire coil sample according to the present invention is inspected.

In order to facilitate understanding of the features of the present invention, a wire coil inspection apparatus according to an embodiment of the present invention will be described in detail.

In order to facilitate understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, the related components among the components that perform the same function in the respective embodiments are denoted by the same or an extension line number.

Embodiments related to the present invention are basically capable of easily fixing a hot wire coil specimen and inspecting whether or not the wire coil is defective in all directions and adjusting the position corresponding to the visual angle of the worker, So that accurate observation can be performed.

Hereinafter, a specific embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a perspective view of an embodiment of the present invention, FIG. 3 (a) is an exploded perspective view of the inspection light rotating means in the invention shown in FIG. 2, and FIG. 3 (b) is an exploded perspective view of the sample rotating means in FIG.

2 to 3B, the configuration of one embodiment of the wire-wound coil inspection apparatus of the present invention includes an apparatus frame 20 and a wire-wound coil specimen (not shown) provided on the apparatus frame 20 so as to inspect the wire- And a specimen fixing means 40 connected to the specimen rotating means 30 for fixing the wire coil specimen.

First, the apparatus frame 20 may include a lower base 27, first and second support beams, and a moving block 23. First, the lower base 27 may be provided in the form of a plate, and may be bolted and fixed on a facility for inspecting the wire coil sample. The first and second support beams may be spaced apart from the upper end of the lower base 27 by a predetermined distance so as to be fastened with bolts 21b and 25b.

At this time, the first support beams 21 may be provided by bending the lower part and the upper part, wherein the movement block 23 may be connected to the bent upper part of the first support beam 21.

Next, the specimen fixing means 40 may include a seating block 43 and a magnetic force member 41. The seating block 43 may be provided in a cylindrical shape, and at one side thereof, a seating portion 43a having a shape corresponding to the magnetic force member 41 may be provided to be coupled to the magnetic force member 41. The side may be provided with a connecting portion (43b) formed with a dark line so that the specimen rotation means 30 can be connected. That is, the seating block 43 is connected to the specimen rotating means 30 on the first supporting beam 21 disposed on the upper part of the apparatus frame 20.

The magnetic force member 41 may be a permanent magnet or an electromagnet whose magnetic force is controlled through a current flow, and is mounted on the seating portion 43a of the seating block 43. [ Although not shown, a fixing pin passing through the side surface of the seating block 43 and the magnetic force member 41 may be provided to fix the magnetic force member 41 to the seating portion 43a. The magnetic force member 41 generates magnetic force to fix the wire coil sample.

Next, the specimen rotating means 30 may include a first handle member 31 and a first bearing unit. The first pull member 31 includes a handle body 31a having a female thread on one side and a male threaded portion formed on both sides of the handle body 31a so as to be connected between the handle body 31a and the connecting portion 43b of the seating block 43. [ And a bar 31b.

The connecting bar 31b penetrates through the first engaging groove 23a of the moving block 23 and connects the handle body 31a with the seat block 43. When the operator turns the handle body 31a The seating block 43 may be provided to rotate.

At this time, the first bearing unit 33 can be mounted around the outer circumference of the connecting bar 31b and the inner circumference of the first connecting groove 23a so as to support the rotation of the connecting bar 31b. The first bearing unit 33 is seated in the first coupling groove 23a and is fixed to the inside of the movable block 23 by the first fixing cover 35.

The configuration of one embodiment of the wire coil inspection apparatus according to the present invention may further include a sample position adjusting means (50) provided on the first support beam (21) so as to adjust the vertical position of the wire coil sample.

The specimen position adjusting means 50 may include a guide groove 51, an adjusting bolt 53, and a nut member 55. The guide groove 51 may be formed on the moving block 23 at a lower portion of the first engaging groove 23a and in a longitudinal direction of the moving block 23. [

The adjustment bolt 53 may be inserted into the through hole 58 provided in the upper bent portion of the first support beam 21 through the guide groove 51. A nut member 55 is disposed on the opposite side of the through hole and is engaged with the adjusting bolt 53 so as to securely fix the upper bending portion of the moving block 23 and the first supporting beam 21 . At this time, a washer 57 may be used to increase the coupling force.

The worker releases the adjusting bolt 53 and the nut member 55 and changes the vertical position of the moving block 23 and then tightens the nut member 55 and the adjusting bolt 53 again, Thereby adjusting the vertical position.

In the wire coil inspection apparatus according to the present invention, the test piece is fixed and the rotation and the vertical position of the test piece are adjusted as described above. In addition, (Not shown) connected to the first support beam 25 and connected to the second support beam 25 so as to rotate the inspection light 70 corresponding to the visual angle of the inspection light 70 and the operator, And an inspection light-rotating means 60 installed.

The inspection mirror rotating means 60 may be configured to include a second handle member 61 and the second bearing unit (33).

The second pull member 61 is connected to a handle body 61a having a female thread on one side and a connecting portion 70a on which the handle body 61a and the male threads of the test probe 70 are formed, And a connecting bar 61b having a male thread and a female thread on the other side.

The connecting bar 61b passes through the second coupling groove 25a of the second supporting beam 25 and connects the handle body 61a and the examination light 70 to allow the operator to press the handle body 61a, The probe 70 may be rotated to rotate the probe 70.

In this case, the second bearing unit 33 may be implemented as a ball bearing along the outer circumference of the connecting bar 61b and the inner circumference of the second coupling groove 25a to support the rotation of the connecting bar 61b. Can be mounted. The second bearing unit 33 is seated in the second coupling groove 25a and is fixed to the inside of the second support beam 25 by the second fixing cover 65.

The configuration of an embodiment according to the present invention is the same as described above, and an operation state will be described below.

4 is a state diagram showing a state in which a wire coil sample according to the present invention is inspected.

Referring to FIG. 4, the operator finishes the wire rolling process, places the wire rod coil on the cutter, cuts the wire rod, and cuts the wire rod coil specimen to a desired size (S1). After the specimen is placed on the press machine, the specimen is pressed under a prescribed set down force for each coil material (S2). The operator then places the pressed specimen on the wire coil inspection apparatus 10 of the present invention, and then conducts the surface inspection.

Specifically, the operator attaches the prepared specimen to the magnetic force member 41 and fixes it. At this time, when the magnetic force member 41 is a permanent magnet, the strength of the magnetic force may be within a range that allows the operator to easily separate the specimen while fixing the specimen. If the magnetic force member 41 is an electromagnet, the magnitude of the magnetic force is determined through current control, so that the magnitude of the magnetic force can be freely determined.

Next, the operator rotates the second knob member 61 of the specimen rotating means 30 to rotate the specimen, and checks whether or not the surface of the specimen has a defect after the pressing step. Since the specimen can be rotated 360 degrees by the specimen rotating means 30, it is possible to confirm whether or not any surface is defective.

Then, the operator rotates the second pull member (61) of the inspection light rotating means (60) to adjust the inspection light (70) in accordance with the visual angle of the operator so as to inspect the surface of the specimen more precisely. In this case, the surface of the specimen appears to be enlarged by the inspection light 70.

According to the embodiment of the present invention, it is possible to easily fix a high-temperature wire coil sample through the above-described configuration and operating state, to check whether or not the wire coil is defective in all directions, So that the surface of the wire rod coil specimen can be enlarged and an effect of making it possible to observe precisely can be expected.

The above items are only specific examples of the wire coil inspection apparatus.

Therefore, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. do.

20 ... device frame 21 ... first support beam
23 ... Moving block 25 ... Second supporting beam
25b ... second coupling groove 30 ... specimen rotating means
31 ... first handle member 33 ... first bearing unit
40 ... specimen fixing means 41 ... magnetic force member
43 ... seating block 50 ... specimen position adjusting means
51 ... Guide groove 53 .... Adjustment bolt
60 ... Inspection light rotation means 70 ... Inspection light

Claims (6)

Device frame;
Specimen rotating means provided on the apparatus frame and provided so as to rotate the wire rod coil specimen so that the operator inspects the wire coil specimen; And
Specimen fixing means connected to the specimen rotating means, and fixed to the wire coil specimen;
And a wire coil inspecting device.
The method of claim 1,
The specimen fixing means comprises:
A seating block connected to the specimen rotating means on a first support beam above the apparatus frame; And
A magnetic member installed on the seating block and provided to fix the wire coil specimen by magnetic force;
And a wire coil inspecting device.
3. The method of claim 2,
The specimen-
A first handle member penetrating through the first coupling groove of the movable block and connected to the seating block; And
A first bearing unit provided in the first coupling groove of the moving block and provided to support the rotation of the seating block by the first knob member;
And a wire coil inspecting device for inspecting the wire coil.
The method of claim 3,
Further comprising specimen position adjusting means provided on the first support beam so as to adjust a vertical position of the wire coil specimen,
The sample position adjusting means includes a guide groove formed in the longitudinal direction on the moving block; And
An adjusting bolt passing through the guide groove and connected to an upper portion of the first supporting beam, and a nut member coupled between the adjusting bolt and the first supporting beam to fix the position of the moving block;
And a wire coil inspecting device.
5. The method according to any one of claims 1 to 4,
A probe beam connected to and mounted on a second support beam above the apparatus frame; And
An inspection light rotating means connected to the second support beam so as to rotate the inspection light corresponding to a visual angle of an operator;
Further comprising: a wire coil inspecting device for inspecting the wire coil.
6. The method of claim 5,
Wherein the inspection light-
A second pull member passing through the second coupling groove of the second support beam and connected to the inspection field; And
A second bearing unit provided in the second coupling groove of the second support beam and provided to support the rotation of the examination wrist by the second knob member;
And a wire coil inspecting device for inspecting the wire coil.

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