KR102140270B1 - A Holding Fixture Which Having Multi-axial For Inspection Object - Google Patents

Abstract

The present invention relates to a jig for fixing an inspection target consisting of multiple axes fixing and rotating the inspection target to facilitate full inspection of the inspection target during a non-destructive inspection for determining whether or not a component of an aircraft or a space launch vehicle is defective. Disclosed is the jig for fixing the inspection target consisting of the multiple axes, capable of selecting a rotation center of the inspection target by comprising: a pair of support frames installed to stand up on the ground; a rotation unit rotated by a driving means and provided with a first fixation device fixing the inspection target; and an auxiliary shaft provided on the rotation unit, rotated by an auxiliary drive means, and provided with a second fixation device.

Description

A Holding Fixture Which Having Multi-axial For Inspection Object}

The present invention relates to a fixture for fixation, and more specifically, an inspection object composed of multiple axes for fixing and rotating the inspection object to facilitate the entire inspection of the inspection object during a non-destructive inspection to determine whether a component of an aircraft or space launch vehicle is defective. It relates to a fixing tool.

Most of the environments exposed during the operation of aircraft and space launch vehicles are extreme environments created by high temperature and pressure. Therefore, for safety during operation, it is necessary to perform a destructive inspection to find defects in components in the manufacturing process in addition to design. However, since the components of aircraft and space launch vehicles require considerable manufacturing cost, non-destructive inspection for finding defects without changing the prototype and function of components is widely used.

This non-destructive inspection is disclosed in Korean Patent Registration No. 10-1452974 ("Turbine stand setting master and method for non-destructive inspection of turbines for power plants" in 2014.10.14.).

However, when loading a component, that is, an inspection object, to a fixture for performing a non-destructive inspection as described in the preceding document, the inspection object is a large structure. There has been a problem that requires working time. In addition, the fixed tool used for non-destructive inspection of components of conventional aircraft and space launchers is a problem that consumes a lot of cost because the tool is individually manufactured according to the shape of the component, and as the rotation center is one, the object to be inspected Even if the size was small, there were many problems in that the rotation time of the test equipment was long due to the large turning radius, and when the measurement height of the test equipment was high, vibration or deflection of the test equipment occurred, requiring re-inspection.

Therefore, it is necessary to develop a fixed tool for non-destructive inspection of aircraft and space launch vehicles that has versatility so that the workforce and time are shortened for non-destructive inspection of aircraft and space launch vehicles, and is not limited by the size and shape of components.

1. Korea Registered Patent No. 10-1452974 ("Master and method of setting turbine stand for non-destructive inspection of turbines for power plants" 2014.10.14.)

The present invention has been devised to solve the above problems, and the object of the present invention is to make it possible to change the center of rotation of the inspection object mounted on the fixture for fixing the inspection object to various positions, thereby efficiently performing non-destructive inspection work. It is to provide a fixture for fixing the inspection object made of a multi-axis.

In addition, it is to provide a fixture for fixing an inspection object with improved versatility by allowing the fixing position to be adjusted differently according to the size and shape of the inspection object.

Meanwhile, the object of the present invention is not limited to the above-mentioned object, and other objects not mentioned will be clearly understood from the following description.

A fixture for fixing an inspection object formed of a multi-axis of the present invention includes a pair of support frames installed to stand on the ground; A main shaft portion including a driving means provided on an upper side of the support frame located on one side and a main shaft rotated by the driving means; A first connection frame that is connected to the main shaft and rotates, a second connection frame that is rotatably connected to the support frame located on the other side, and one end of the first connection frame and the second connection frame that are formed long and have both ends respectively. A rotating part comprising a first horizontal frame connected to the; A first fastener provided on the first horizontal frame and fixing an object to be inspected; An auxiliary frame connected to the first horizontal frame at an angle, an auxiliary drive means installed on the auxiliary frame and spaced apart from the first horizontal frame by a predetermined distance, and an auxiliary shaft rotating by the auxiliary drive means Auxiliary shaft portion; And it is provided at the end of the auxiliary shaft, the second fixing fixture for fixing the inspection object; including, the inspection object is characterized in that it can be fixed to at least one of the first fixture and the second fixture.

In addition, the inspection object is fixed to the first fixture according to the size and rotated around the main shaft, fixed to the second fixture, rotated around the auxiliary shaft, or fixed to the first fixture and the second fixture. After rotating a predetermined angle around the main axis, the fixing is released from the first fastener, and is rotated around the auxiliary axis.

In addition, the fixture for fixing the inspection object made of the multi-axis is formed elongated along the extension direction of the auxiliary frame, a position adjustment unit including a vertical position adjustment bar having a plurality of vertical positioning holes formed along the extension direction; further provided It is characterized in that the auxiliary driving means is detachably coupled to any one of the up and down position adjustment holes to adjust the relative position with respect to the main axis.

In addition, the fixture for fixing the inspection object made of the multi-axis, is formed long on the side of the first horizontal frame along the extension direction of the first horizontal frame, a plurality of left and right position adjustment bar formed with a plurality of left and right positioning holes along the extension direction It further comprises; a position control unit including, one end of the auxiliary frame is detachably coupled to any one of the left and right position adjustment holes, it is characterized in that it is possible to change the engagement position.

In addition, the auxiliary shaft portion is provided with a pair, each of the second shaft is provided at the end of each auxiliary shaft, it characterized in that the inspection object can be fixed in both left and right directions.

In addition, the rotating portion is formed long, and further includes a second horizontal frame, both ends of which are connected to the other ends of the first connection frame and the second connection frame, and the auxiliary frame has both ends of the first horizontal frame, respectively. And it is connected to the second horizontal frame, characterized in that to distribute the weight of the inspection object when the inspection object is fixed to the second fixture.

In addition, the rotation center of the second connection frame and the main axis are disposed on the same line, and the first connection frame and the second connection frame are formed in a shape of an angle bent around the main axis.

The fixture for fixing an inspection object formed of the multi-axis of the present invention according to the above configuration has an effect of selecting the rotation center of the inspection object through the main shaft portion and the auxiliary shaft portion.

In addition, there is an effect capable of adjusting the position of the rotation center of the inspection object through the vertical position adjustment bar.

In addition, through the left and right position adjustment bar, it is possible to adjust the fixed position according to the size of the object to be fixed to the second fastener.

In addition, by distributing the weight of the inspection object fixed to the second fixture through the second horizontal frame, there is an effect capable of stable support.

In addition, the first connecting frame and the second connecting frame are formed to be bent around the main axis, so that the center of the weight is positioned near the main axis when the aircraft fuselage or wing portion of the curved type is fixed to the first fixture. , It has the effect of stably fixing the object to be inspected to the first fixture when the main shaft is rotated.

1 is a perspective view of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.
2 is a perspective view for explaining a main shaft portion of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.
3 is a perspective view showing a rotating part of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.
4 is a perspective view showing a first fixture of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.
5 is a front view showing a state in which the inspection object is fixed to the second fixture of the fixture for fixing the inspection object made of multiple axes according to the preferred embodiment of the present invention.
6 is a partially enlarged view of FIG. 5.
7 is a perspective view showing a state in which the auxiliary shaft portion of the fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention rotates.

Before describing the technical spirit of the present invention in more detail with reference to the accompanying drawings, the terms or words used in the present specification and claims should not be interpreted as being limited to ordinary or dictionary meanings. In order to explain the invention in the best way, it should be interpreted as meanings and concepts consistent with the technical idea of the present invention based on the principle that the concept of terms can be properly defined.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and thus can replace them at the time of application. It should be understood that there may be variations.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings. The accompanying drawings are only examples shown in order to describe the technical spirit of the present invention in more detail, so the technical spirit of the present invention is not limited to the form of the accompanying drawings.

1 is a perspective view of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.

The fixture 1000 for fixing an object to be inspected made of multiple axes according to a preferred embodiment of the present invention is a non-destructive inspection device (not shown) disposed in front or rear of the fixture 1000 for fixing an object to be inspected. It is a device that rotates (10) to scan the object to be inspected 10 using the non-destructive inspection device.

As shown, the fixture 1000 for fixing the inspection object is largely a support frame 100, a main shaft part 200, a rotating part 300, a first fastener 400, and an auxiliary shaft part 500. , It comprises a second fastener 600 and the position adjustment unit 700.

The support frame 100 is installed to stand on the ground, and a pair is installed to be spaced apart from each other, and serves to support the configuration of each part and the load of the inspection object. For reference, a weight frame 101 is provided between the pair of support frames 100 to connect the lower ends of the respective support frames 100 to each other, and the center of gravity of the fixture 1000 for fixing an inspection object composed of multiple axes is at the bottom. In order to facilitate the movement, or to facilitate movement, a caster (not designated) may be further provided at the bottom of each support frame 100.

2 is a perspective view for explaining a main shaft portion of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.

The main shaft part 200 will be described with reference to FIG. 2. The main shaft portion 200 is a configuration for providing rotational force to the rotating portion 300, which will be described later. The main shaft part 200 includes a driving means 220 provided on the support frame 100 located on one side, and a main shaft 210 rotated by the driving means 220. The driving means 220 may be a spinning wheel or the like rotated by a motor or a handle, and the main shaft 210 extends a predetermined length in a direction in which the support frame 100 disposed on the other side is disposed.

3 is a perspective view showing a rotating part of the fixture for fixing an inspection object made of a multi-axis according to a preferred embodiment of the present invention.

The rotating part 300 includes a first connection frame 330, a second connection frame 340, a first horizontal frame 310, and a second horizontal frame 320.

The first connection frame 330 is formed long, the central side is vertically connected to the end of the main shaft 210 is connected to rotate according to the rotation of the main shaft 210, the second connection frame 340 is It has the same shape as the first connection frame 330, and is rotatably connected to the top of the support frame 100 located on the other side. At this time, the rotation center of the second connection frame 340 and the main shaft 210 are disposed on the same line. The first horizontal frame 310 is a configuration in which an inspection object (not shown) is fixed by a first fixture to be described later, and is formed long, and both ends of the first connection frame 330 and the second connection frame 340, respectively. Once connected. The second connection frame 340 is connected to the other ends of the first connection frame 330 and the second connection frame 340, so that one end and the other end of the first connection frame 330 and the second connection frame 340. Balance. Through this coupling structure, when rotational force is generated from the main shaft 210, the first connection frame 330, the second connection frame 340, and the first horizontal frame 310 included in the rotation unit 300 are Rotate integrally.

On the other hand, the first connection frame 330 and the second connection frame 340 is formed to be long, the side shape is formed in a predetermined angle bending form around the position where the main shaft 210 is disposed. In addition, an eccentric plate 350 is further formed between the first connection frame 330 and the main shaft 210 and the second connection frame 340 and the top of the support frame 100 located on the other side, and the first connection frame Each of the 330 and the second connection frame 340 is connected to one side of the eccentric plate of the main shaft 210 at a point where bending starts, and may be eccentrically connected to one side from the extension line of the main shaft 210. If the first connection frame 330 and the second connection frame and the eccentric plate 350 are formed and combined as described above, two parts connected at different angles of the first connection frame 330 and the second connection frame 340 An extension line of the main shaft 210 is arranged on the side forming the acute angle, so that the center of gravity of the aircraft part, which is a generally curved shape, is located near the main shaft 210.

4 is a perspective view showing a first fixture of a fixture for fixing an inspection object made of multiple axes according to a preferred embodiment of the present invention.

The first fastener 400 is a portion where the inspection object 10 is fixed when the inspection object 10 is to be rotated around the main shaft 210. A plurality of first fasteners 400 may be provided along the extending direction of the first horizontal frame 310, coupled to the rear surface of the first horizontal frame 310, and the upper end portion upwards to the first horizontal frame 310. A rear support plate (not shown) formed to protrude, and provided at a position corresponding to the rear support plate on the front surface of the first horizontal frame 310, the upper end protruding upwards to the first horizontal frame 310, and the rear support plate It is made of a holder formed to be able to adjust the distance between. That is, when the inspection object 10 is to be rotated around the main shaft 210 by fixing the inspection object 10, the inspection object 10 is fixed by placing the inspection object 10 between the rear support plate and the holder and adjusting the holder. do. For reference, the shape of the first fastener 400 is not limited to the above-described shape, and may be implemented in various ways, such as clamping or fixing through a bolt hole formed in the inspection object 10 through a bolt nut. Will be able to.

As described above, when the inspection object 10 is to be rotated around the main shaft 210, the inspection object 10 can be fixed to the first fixture 400 and rotated. However, when the inspection object 10 is small, a large amount of operation time is required to adjust the rotating part so that the inspection object is positioned as the scanning area of the non-destructive inspection device, and even if the inspection object 10 is large, the area to be scanned according to the shape There is a problem in that it may take a lot of working time to adjust the rotating part out of the scanning area of the non-destructive inspection device.

The auxiliary shaft part 500, the second fastener 600, and the position adjusting part 700 are components for solving the above problems.

FIG. 5 is a front view showing a state in which a test object is fixed to a second fastener of a fixture for fixing a test object made of multiple axes according to a preferred embodiment of the present invention, and FIG. 6 is a partially enlarged view of FIG. 5.

The auxiliary shaft part 500 includes an auxiliary frame 510, an auxiliary driving means, and an auxiliary shaft 530, and a pair is provided between the pair of support frames.

When explaining the respective components of the auxiliary shaft 500, the auxiliary frame 510 is formed long between the first horizontal frame 310 and the second horizontal frame 320, as shown in Figures 5 and 6, both ends Each of the first horizontal frame 310 and the second horizontal frame 320 is connected via a left and right position adjustment bar. The auxiliary frame 510 has a role of distributing the weight of the inspection object 10 fixed to the second fixture, which will be described later, into the first horizontal frame 310 and the second horizontal frame 320, and the auxiliary driving means 520 is provided. 1 serves to be installed at a position spaced from the horizontal frame 310. The auxiliary driving means 520 is installed in the auxiliary frame 510, and is installed at a predetermined distance from the first horizontal frame 310. The auxiliary shaft 530 is rotated by the auxiliary driving means 520 and is formed to extend a predetermined length in a horizontal direction with the first horizontal frame 310. At this time, the auxiliary shafts 530 of each pair of auxiliary shafts 500 extend in directions opposite to each other.

The second fastener 600 is provided at the end of the auxiliary shaft 530 and serves to fix the inspection object 10. The second fastener 600 is formed of a screw and a bolt, and may be in a form of being fixed through a bolt hole formed in the inspection object 10.

When the object to be inspected 10 is fixed to only the second fixture 600, the object to be inspected 10 may be rotated around the auxiliary shaft 530, as shown in FIG. In some cases, in the preferred embodiment of the present invention, the fixture 1000 for fixing an inspection object made of multiple axes is the area of the inspection object 10 while the inspection object 10 is fixed to both the first fixture and the second fixture. This wide and simple formed area is rotated around the main axis to perform non-destructive inspection, and the small and complex area is fixed only to the second fixture 600 by rotating the inspection object 10 around the auxiliary axis 530. Nondestructive testing may be performed. When the object to be inspected 10 rotates around the auxiliary shaft 530, the radius of rotation is narrower than when the object to be inspected rotates around the main shaft 210 when the object is rotated at the same angle. It is possible to prevent the problem that the inspection object 10 deviates from.

Referring to FIGS. 5 and 6 again, the position adjusting unit 700 will be described. The position adjusting unit 700 is configured to adjust the position of the auxiliary shaft unit 500, and includes a vertical positioning bar 710 and a horizontal positioning bar 720.

First, the vertical position adjustment bar 710 is formed long along the extension direction of the auxiliary frame 510, and has a plurality of vertical position adjustment holes 711 formed along the extension direction. The auxiliary driving means 520 is screwed to any one of the up and down positioning holes 711. That is, by selecting the position in which the auxiliary driving means 520 is coupled to the vertical position adjusting bar 710, it is possible to adjust the rotation radius according to the shape of the inspection object 10 fixed to the second fastener 600 will be.

The left and right positioning bars 720 are provided on the first horizontal frame 310 and the second horizontal frame 320, respectively, and are formed long along the extending direction of the first horizontal frame 310 and the second horizontal frame 320. do. And a plurality of left and right positioning holes 721 are formed along the extending direction. The left and right position adjustment bars 720 provided on the first horizontal frame 310 and the second horizontal frame 320 are respectively coupled to one end and the other end of the auxiliary frame 510. At this time, the one end and the other end of the auxiliary frame 510 are detachably coupled to any one of the left and right position adjustment holes 721 of the left and right position adjustment bars 720, thereby coupling the auxiliary frame 510 as necessary. The position can be changed. As described above, as the pair of auxiliary frames 510 is provided, the pair of auxiliary frames 510 adjust the distance between each other according to the size of the inspection object 10, thereby to the left and right of the inspection object 10 It is possible to fix both sides in the direction, and there is an effect that more stable fixing of the inspection object 10 is possible.

It should not be interpreted that the technical spirit is limited to the above-described embodiments of the present invention. Of course, the scope of application is various, and various modifications can be implemented at the level of those skilled in the art without departing from the gist of the present invention as claimed in the claims. Accordingly, such improvements and modifications fall within the protection scope of the present invention as long as it is apparent to those skilled in the art.

10: inspection object
100: support frame
200: main shaft
210: main axis
220: driving means
300: rotating part
310: first horizontal frame
320: second horizontal frame
330: first connection frame
340: second connection frame
350: eccentric plate
400: first fixture
500: auxiliary shaft
510: auxiliary frame
520: auxiliary driving means
530: auxiliary axis
600: second fixing zone
700: Position adjustment unit
710: Up and down position adjustment bar
711: Up and down position adjustment hole
720: left and right positioning bar
721: left and right positioning hole
1000: fixture for fixing the inspection object consisting of multiple axes

Claims (7)

A pair of support frames installed to stand on the ground;
A main shaft portion including a driving means provided on an upper side of the support frame located on one side and a main shaft rotating by the driving means;
A first connection frame that is connected to the main shaft and rotates, a second connection frame that is rotatably connected to the support frame located on the other side, and one end of the first connection frame and the second connection frame that are formed long and have both ends respectively. A rotating part comprising a first horizontal frame connected to the;
A first fastener provided on the first horizontal frame and fixing an object to be inspected;
An auxiliary frame connected to the first horizontal frame at an angle, an auxiliary drive means installed on the auxiliary frame and spaced apart from the first horizontal frame by a predetermined distance, and an auxiliary shaft rotating by the auxiliary drive means Auxiliary shaft portion; And
A second fastener provided on an end of the auxiliary shaft and fixing an inspection object;
Including, fixture for fixing the inspection object made of a multi-axis, characterized in that the inspection object can be fixed to at least one of the first fixture and the second fixture.
According to claim 1,
The object to be inspected is fixed to the first fixture according to the size and rotated around the main shaft, fixed to the second fixture, rotates around the auxiliary shaft, or fixed to the first fixture and the second fixture, to the main After rotating a predetermined angle around the axis, the fixture is released from the first fixture, and the fixture for fixing an inspection object made of multiple axes is characterized in that it rotates around the auxiliary shaft.
According to claim 1,
The fixture for fixing the inspection object made of the multi-axis,
It is formed elongated along the extension direction of the auxiliary frame, a position control unit including a vertical position adjustment bar with a plurality of vertical position adjustment holes formed along the extension direction; is further provided,
The auxiliary driving means is a removably coupled to any one of the up and down position adjustment hole fixture for fixing the inspection object made of a multi-axis characterized in that it is possible to adjust the relative position with respect to the main axis.
According to claim 1,
The fixture for fixing the inspection object made of the multi-axis,
The first horizontal frame is formed on one side along the extending direction of the first horizontal frame, and a position adjusting unit including a left and right positioning bar having a plurality of left and right positioning holes formed along the extending direction;
One end of the auxiliary frame is detachably coupled to any one of the left and right positioning holes, the fixture for fixing the inspection object made of a multi-axis characterized in that it is possible to change the coupling position.
According to claim 4,
The auxiliary shaft portion is provided in a pair, each of the secondary shaft end is provided with each of the second fixture, the fixture for fixing the inspection object made of multiple axes characterized in that the inspection object can be fixed in both sides in the left and right.
According to claim 1,
The rotating part,
Formed elongate, both ends further include a second horizontal frame connected to the other ends of the first connection frame and the second connection frame, respectively,
The auxiliary frame,
Both ends are respectively connected to the first horizontal frame and the second horizontal frame, the fixture for fixing the test object made of a multi-axis, characterized in that to distribute the weight of the test object when the test object is fixed to the second fixture.
According to claim 1,
The rotation center of the second connection frame and the main shaft are disposed on the same line,
The first connection frame and the second connection frame,
A fixture for fixing an inspection object made of multiple axes, characterized in that it is formed in a bent shape at a predetermined angle around the main axis.

Images