KR102135441B1 - Inspection stand - Google Patents

Abstract

The present invention relates to an object holder for inspection, which is implemented to manufacture a breathable fabric capable of easily spreading out wrinkles and actions of a magnetic force by using functional yarns, magnetic yarns, shape memory yarns etc. The object holder for inspection comprises a weaving unit manufacturing a primary fabric by weaving prepared weaving yarns.

Description

Insulator Inspection Stand {INSPECTION STAND}

The present invention relates to a test object inspection cradle, and more particularly, to a test object inspection cradle implemented to be stably mounted for inspection of the test object.

In general, the steel used in automobile engines, transmissions, and chassis is manufactured as a finished product through hot forging and fixing such as drilling, milling, and turning.

Automobile steel materials are becoming high strength and high hardness according to the development trend of greenhouse gas reduction and weight reduction.

When the high-strength and high-hardness material is subjected to a machining process using a drill blade for processing purposes, problems of wear and damage of tools such as a drill blade frequently occur.

In recent years, it is required to develop a technique for predicting processability by evaluating the degree of wear on the cutting surface of the drill bit as described above.

On the other hand, the above-described background technology is the technical information acquired by the inventor for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily a known technology disclosed to the general public before filing the present invention. .

Korean Patent Publication No. 10-2009-0030284 Korean Registered Patent No. 10-1267669

One aspect of the present invention provides a cradle for inspecting an object to be stably mounted to inspect the object.

In addition, by attenuating vibrations or shocks generated by the inspection device using a central support that supports the installation part, the inspection can be improved not only to improve the inspection precision of the device, but also to improve the durability of equipment stagnation. Provide a cradle for object inspection.

In addition, it is possible to prevent the inspection due to the fall of the inspected object during the inspection due to the excessive proximity between the rear end support and the front end where the object is mounted using an access guard, as well as the rear end support and the front end support. It provides a cradle for inspecting an object to be inspected so that each support is in close contact with each other to prevent damage due to collision.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

In accordance with an embodiment of the present invention, an inspection object inspection cradle includes a support portion on which a sliding rail extending in a longitudinal direction is formed along an upper surface; And a sliding mount for connecting to the upper side of the support and slidingly moving in the front-rear direction along the sliding rail, and for mounting an object to be inspected during the inspection.

In one embodiment, the sliding mounting portion, the rear end is formed to be bent to the upper side is formed in a "b" form, the slider is connected to the upper side of the support portion is installed to slide in the front-rear direction along the sliding rail; A rear end support installed on the front end of the slider to support the rear end of the inspected object; A shear support installed on the front end of the support to support the front end of the inspected object; The rear end of the rear end block of the slider, which is erected upward, is inserted to be inclined in a downward direction from the top end, and the front end is exposed to the front end of the rear end block, and the rear end support is in close contact with the rear end support and the rear end of the inspected object mounted on the front end support. ; And a rear end of the rear end support exposed to the rear end of the rear end block, and moving the rear end support as the rear end of the rear end block forming an inclined surface approaches or moves away from the inclined direction of the rear end support. Control plate; may include.

In one embodiment, the shear support, the support frame is formed extending in the vertical direction; An “V” groove formed in an “V” shape in the upper portion of the support frame; A first frame installed on one side of the "V" groove to support one side of the inspected object; And a second frame installed on the other inclined surface of the "V" groove to support the other side of the inspected object.

In one embodiment, the mounting portion for the support is installed on the upper side; A lower supporter installed at each lower corner of the installation unit to support the installation unit; And the lower support is installed on the upper side, the shelf portion for supporting the installation spaced apart from the bottom surface, respectively.

In one embodiment, the lower support is formed in the form of a flat bottom plate is installed on the upper side of the shelf; An upper plate formed in a plate shape corresponding to the shape of the lower plate to support the lower side of the installation portion; A central support installed at the center of the lower plate to support the central portion of the upper plate; And four corner supports installed along the edges of the lower plate and the upper plate to support between the lower plate and the upper plate.

In one embodiment, the central support, the first support portion is formed with an upper seating groove in the form of a hemisphere on the lower side; A second support portion formed in correspondence with the shape of the first support portion and installed at a lower side of the first support portion, wherein a lower seating groove having a hemispherical shape is formed at an upper side; A third support portion formed in a spherical shape and having an upper portion seated in the upper seating groove and a lower portion seated in the lower seating groove to support between the first support portion and the second support portion; And a plurality of fourth supports that are installed along the first and second support portions to support the first and second support portions using elastic force.

In one embodiment, the second support portion, a plurality of fifth support portions are spaced apart from each other along the lower seating groove so as to support the lower side of the third support portion seated in the lower seating groove; have.

In one embodiment, the fifth support portion, the lower groove is formed extending in the vertical direction; A lower elastic body installed under the lower groove; A sliding bar seated in the lower groove, supported by the lower elastic body, and slidingly moving along the lower groove; And it is installed to be rotatably connected to the upper portion of the sliding bar support beads for supporting the lower side of the third support; may include.

In one embodiment, the third support portion, a support disc formed in the form of a disc that is installed in a horizontal direction past the center of the sphere so as to divide the sphere into upper and lower portions; And between the upper disk installed on each edge of the support disk facing the four corner supports and extending in the vertical direction, the upper disk installed on the upper side of the first support and the lower disk installed on the lower side of the second support. Four disk support frame for supporting; may be provided.

In an embodiment, the lower support may further include a lifting guide for elevating the edge support as the disk support frame descends.

In one embodiment, the lifting induction unit, the first bar is installed to be connected to one side so as to be rotatable to the lower side of the disk support frame, the other side is installed to be inclined in the downward direction while looking at the edge support; A first elastic support unit installed on one side of the first bar to support one side of the first bar; One side is connected to the bottom surface of the installation tunnel extending to the lower side of the corner support along the inside of the lower plate so as to be rotatable, the first elastic support is installed on one side and the other side is the corner support The second bar is installed to be inclined in the upward direction while looking at the other bar connected to the other side of the first bar to be rotated; It is formed to extend in the horizontal direction and is seated inside the installation tunnel, and is connected to the first bar and the second bar to be rotatable together on one side, and the first elastic support is lowered so that the first bar and the first A third bar moved in the direction of the edge support as the gap between each side of the two bars decreases; A fourth bar connected to the other surface of the other side of the installation tunnel so that the other side is rotatable, and one side is installed to be inclined upward, and connected to the other side of the third bar to be rotatable; A second elastic support installed on the other side of the fourth bar; A fifth bar on which the other side is supported by the second elastic support, and is installed so that one side is inclined downward, and connected to the other side of the third bar to be rotatable together with the fourth bar; And extending vertically and vertically so that the lower portion is rotatably connected to the other side of the fifth bar, and the third bar moves in the direction of the corner support so that the other side of the fourth bar and the fifth bar is different. It may include; a sixth bar that elevates as the gap between the gaps rises and elevates the edge support.

In one embodiment, the edge support, fixed support is fixed to one corner of the lower plate; A sliding through hole formed through the fixing support in the vertical direction so that the sixth bar is erected and seated and moved vertically; And it is seated on the upper side of the fixed support is supported by the sixth bar, the elevating support that is elevated as the sixth bar elevates; may include.

In one embodiment, the sliding mounting portion is installed on the rear surface of the front end support, the rear end support to prevent access to within the predetermined distance in the direction of the front end support; may further include a.

In one embodiment, the access bar, a first support for supporting the front of the rear end support; A second support facing the first support and spaced apart from the first support to support the front surface of the rear support; A third support spaced apart from the second support, and elevated as the first support descends to support the front surface of the rear support; A fourth support spaced apart from the first support and lifted as the second support descends to support the front surface of the rear support; It is formed in the shape of a round “U” downward, and is connected to the first support so as to be rotatable once on the upper side, and connected to the third support so as to be rotatable to the other end, and rotates as the first support descends. A first rotating link that elevates and lifts the third support; It is formed in a round “U” shape downwardly corresponding to the shape of the first rotating link, and is connected to the second support so as to be rotatable once on the upper side, and connected to allow the fourth support to be rotatable to the upper side of the other end. The second rotational link rotates as the second support descends to elevate the fourth support; A first link support on which a curved portion of the first rotational link is formed so as to support the first rotational link; The curved portion of the second rotating link is seated so as to support the second rotating link, and the first supporting link and the second supporting are spaced apart from the first rotating link and the first A second link support spaced apart from the first link support so as to be connected and installed by two rotating links; And a bottom frame installed on the rear surface of the front end support and formed in a flat shape so that the first link support and the second link support are installed on the rear surface.

In one embodiment, the first link support, the bottom plate is formed extending in the longitudinal direction before and after; A shear support installed above the shear of the bottom plate; A rear end support installed on the rear end of the bottom plate; A front end lower end connected to the upper side of the bottom plate to be rotatable, and a front end lower end support block supported by the front end support; A lower end support block connected to the lower end of the front plate to be rotatable together with the lower end of the front end support block on the upper side of the bottom plate; A shear sliding tunnel extending from an upper front side to a lower rear side of the front support block in response to a curvature of the first rotating link so that the first rotating link is seated; And a rear end extending from the front lower side to the rear upper side of the rear supporting block in response to the curvature of the first rotating link so that the first rotating link is seated so as to face the rear end of the front sliding tunnel. Sliding tunnel; may include.

In one embodiment, the first rotational link has a pivot axis at the bottom so that the front end and the rear end can be apart from each other as each upper end of the front end supporting block and the rear end supporting block rotates away from each other. It can be formed, and the upper lag gear is formed along the upper side, and the lower lex gear can be formed along the lower side.

In one embodiment, the shear sliding tunnel, a plurality of first link support formed along the upper surface to support the upper side of the first rotary link seated in the interior space; And a plurality of second link supports formed along the lower side so as to support the lower side of the first rotatable link seated in the interior space.

In one embodiment, the first link support portion, the vertical sliding groove is formed extending in the upper longitudinal direction from the upper side of the inner space of the shear sliding tunnel; An upper support spring installed on an upper side of the vertical sliding groove; A slider seated in the upper and lower sliding grooves, the upper side being supported by the upper support spring, and slidingly moving in the vertical direction along the vertical sliding grooves; And a support gear engaged with the upper lag gear so as to be rotatable to the lower side of the slider, and supporting the upper side of the first rotatable link while rotating as the first rotatable link moves along the shear sliding tunnel. ; May include.

According to one aspect of the present invention described above, it is possible to provide an effect that can be stably mounted temporarily for inspection of the inspected object.

In addition, by attenuating vibrations or shocks generated by the inspection device using a central support that supports the installation part, it is possible to improve the inspection precision of the device as well as provide an effect of improving the durability of equipment stagnation. have.

In addition, it is possible to prevent the inspection due to the fall of the inspected object during the inspection due to the excessive proximity between the rear end support and the front end where the object is mounted using an access guard, as well as the rear end support and the front end support. It provides a cradle for inspecting an object to be inspected so that each support is in close contact with each other to prevent damage due to collision.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within a range apparent to those skilled in the art from the following description.

1 is a view showing a schematic configuration of a cradle for inspecting an inspected object according to an embodiment of the present invention.
FIG. 2 is a view showing a connection relationship between the support portion of FIG. 1 and the sliding mount portion.
FIG. 3 is a view showing the sliding mount of FIG. 2.
4 is an exemplary view of a mounting bracket for inspecting an inspected object according to an embodiment of the present invention.
FIG. 5 is a view showing the front support of FIG. 1.
6 is a view showing a schematic configuration of a holder for inspecting an inspected object according to another embodiment of the present invention.
FIG. 7 is a view showing the central support of FIG. 6.
8 and 9 are views showing the central support of FIG. 7.
10 is a view showing a fifth support of FIG. 9.
11 and 12 are views showing a third support according to another embodiment.
13 is a view showing another embodiment of the center support of FIG. 3.
14 is a view showing another embodiment of the edge support.
15 is a view showing another embodiment of the sliding mounting portion of FIG. 1.
FIG. 16 is a view showing the access guard of FIG. 15.
17 is a view showing the first link support of FIG. 16.
18 is a view showing a connection relationship between the first link support and the second link support.
19 is a view showing a connection relationship between the rear end support block and the first rotary link.
20 is a view showing a connection relationship between the first rotary link and the first link support.
21 is a view showing a connection relationship between the front support block and the rear support block.
22 is a view showing a first link support and a second link support according to the present invention.

For a detailed description of the present invention, which will be described later, reference is made to the accompanying drawings that illustrate, by way of example, specific embodiments in which the invention may be practiced. These examples are described in detail enough to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, certain shapes, structures, and properties described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it should be understood that the location or placement of individual components within each disclosed embodiment can be changed without departing from the spirit and scope of the invention. Therefore, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention, if appropriately described, is limited only by the appended claims, along with all ranges equivalent to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

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

1 is a view showing a schematic configuration of a cradle for inspecting an inspected object according to an embodiment of the present invention.

Referring to FIG. 1, the holder 10 for inspecting an inspected object according to an embodiment of the present invention includes a support unit 100 and a sliding mount unit 200.

The support part 100 is formed with a sliding rail 110 extending along the upper surface in the longitudinal direction.

The sliding mounting unit 200 is connected to the upper side of the support unit 100 and slides in the front-rear direction along the sliding rail 110 and mounts the inspected object P during the inspection.

In the present invention, the object to be inspected (P) refers to a cutting tool such as a circular end mill that extends in the longitudinal direction, but is not limited thereto and can be an object to be inspected by an optical inspection device. It can be applied without regard to the name.

In one embodiment, the sliding mount 200 may include a slider 210, a rear end support 220, a front end support 230, a rear end support 240 and an adjustment plate 250.

Slider 210, the rear end is formed to be bent to the upper side is formed in a "b" form, is connected to the upper side of the support portion 100 is installed and slides forward and backward along the sliding rail 110.

The rear end support 220 is installed at the front end of the slider 210 to support the rear end of the inspected object P.

The front end support 230 is installed at the front end of the support part 100 to support the front end of the inspected object P.

The rear end support 240 is inserted so as to be inclined in a downward direction from the rear end upper side of the rear end block of the slider 210 upright, the front end is exposed as the front end of the rear end block, and the rear end support 220 and the front end support 230 It is in close contact with the rear end of the test object (P) mounted on.

The adjustment plate 250 is provided with a rear end of the rear end support 240 exposed as the rear end of the rear end block, and the rear end of the rear end of the rear end block forming the inclined surface 211 as shown in FIG. As the inclined direction of the support 240 moves closer or further away, the rear end support 240 is moved, and is fixed or released by an adjustment knob installed on the slider 210.

The holder 10 for inspecting an inspected object according to an embodiment of the present invention having the configuration as described above is installed on the lower side of the light source L1 installed on the lower side of the measuring device L2 as shown in FIG. 4. The measurement value can be displayed on the output device such as the monitor L3 by the measurement device L2.

Accordingly, the holder 10 for inspecting an inspected object according to an embodiment of the present invention having the configuration described above can be stably mounted temporarily for inspecting the inspected object.

FIG. 5 is a view showing the front support of FIG. 1.

Referring to FIG. 5, the front end support 230 includes a support frame 231, a “V” groove 232, a first frame 233, and a second frame 234.

The support frame 231 is formed to extend in the vertical direction.

The “V” groove 232 is formed in an “V” shape in the upper portion of the support frame 231.

The first frame 233 is installed on one side of the inclined surface of the "V" groove 232 to support one side of the inspected object P.

The second frame 234 is installed on the other inclined surface of the "V" groove 232 to support the other side of the object P.

6 is a view showing a schematic configuration of a holder for inspecting an inspected object according to another embodiment of the present invention.

Referring to FIG. 6, the holder 20 for inspecting an inspected object according to another embodiment of the present invention includes a support part 100, a sliding mount part 200, an installation part 300, a lower support part 400 and a shelf part 500.

Here, since the support portion 100 and the sliding mounting portion 200 are the same as the components of FIG. 1, description thereof will be omitted.

In the installation part 300, a support part 100 is installed on an upper surface forming a plane, and each lower corner portion is supported by a lower support 400.

The lower support 400 is installed at each lower corner of the installation unit 300 to support the installation unit 300, and is installed on the upper side of the shelf unit 500.

The shelf unit 500 is provided with a lower support 400 on the upper side, and supports the installation unit 300 spaced apart from the bottom surface.

The holder 20 for inspecting an inspected object according to another embodiment of the present invention having the configuration as described above, the lower support for supporting the installation unit 300 for vibration or shock generated by the inspection device (L2) By attenuating using 400, not only can the inspection precision of the device be improved, but also the durability of equipment stagnation may be improved.

FIG. 7 is a view showing the central support of FIG. 6.

Referring to FIG. 7, the lower support 400 includes a lower plate 410, an upper plate 420, a center support 430, and four corner supports 440.

The lower flat plate 410 is formed in a flat plate shape, and is installed on the upper side of the shelf 500, and a central support 430 and four corner supports 440 are respectively installed on the upper side.

The upper flat plate 420 is formed in a flat plate shape corresponding to the shape of the lower flat plate 410 and is installed and supported by the central support 430 and four corner supporters 440, and is installed on the upper side 300 ).

The center support 430 is installed at the center of the lower plate 410 to support the center of the upper plate 420.

The edge supports 440-1 to 440-4 are installed at each upper edge portion of the lower flat plate 410 to support each lower edge portion of the upper flat plate 420.

The lower support 400 having the configuration as described above, by supporting the lower side of the installation unit 300 using the center support 430 and four corner supports (440-1 to 440-4), the inspection device ( It is possible to make the stable mounting of the sliding mounting unit 200 by buffering vibration or shock generated according to the driving of L2).

8 and 9 are views showing the central support of FIG. 7.

8 and 9, the central support 430 includes a first support 431, a second support 432, a third support 433, and a plurality of fourth supports 434.

The first support part 431 is formed with an upper seating groove H1 in a hemisphere shape on the lower side and seated on the upper side of the third support part 433 to support the upper flat plate 420.

The second support part 432 is formed in correspondence with the shape of the first support part 431 and is installed under the first support part 431, and a lower seating groove H2 having a hemispherical shape is formed on the upper side to form a third support part It supports the lower side of 433 and is installed on the upper side of the lower plate 410.

The third support portion 433 is formed in a spherical shape, and the upper portion is seated in the upper seating groove H1, and the lower portion is seated in the lower seating groove H2, and between the first support portion 431 and the second support portion 432. Support.

A plurality of fourth support parts 434 are installed along the first support part 431 and the second support part 432 to support the first support part 431 and the second support part 432 using elastic force.

In one embodiment, the fourth support portion 434 is seated on the upper groove 4331 formed along the lower edge of the first support portion 431, and is formed along the upper edge of the second support portion 432 A lower portion may be seated and installed in the lower groove 4321.

In one embodiment, the second support part 432, a plurality of spaced apart from each other along the lower seating groove (H2) to support the lower side of the third support portion 433 seated in the lower seating groove (H2) A fifth support part 435 may be provided.

In addition, the first support part 431 is a plurality of fifth support parts spaced apart from each other along the upper seating groove H1 to support the upper side of the third support part 433 seated in the upper seating groove H1 (436) may be provided.

10 is a view showing a fifth support of FIG. 9.

Referring to FIG. 10, the fifth support part 435 includes a lower groove 4351, a lower elastic body 4252, a sliding bar 4355, and a support ball 4442.

Here, the fifth support portion 436 of the first support portion 431 is configured to have the same configuration as the fifth support portion 435 of the second support portion 432, and description will be omitted below to avoid overlapping descriptions. do.

The lower groove 4351 is formed to extend in the longitudinal direction so that the central axis faces the center of the third support 433, the lower elastic body 4322 is installed at the lower side, and the sliding bar 4355 is seated in the vertical direction. It moves sliding.

The lower elastic body 4252 is installed under the lower groove 4351 to support the sliding bar 4355 using elastic force.

Sliding bar (4353) is seated on the lower groove (4351) is supported by the lower elastic body (4352), sliding along the lower groove (4351), forming a seating ring (4355) along the upper edge to form a lower groove It is seated on the seating jaw 4356 formed along the upper rim of (4351) and supported so as not to descend from the lower groove 4351, and the support beads 4344 are rotatably installed on the upper side.

The support bead 4344 is connected to the upper portion of the sliding bar 4355 so as to be rotatable so that the upper part is exposed to support the lower side of the third support 433.

The fifth support portion 435 having the above-described configuration, by radially supporting the lower portions of the third support portion 433, vibration or shock generated between the lower plate 410 and the upper plate 420, etc. Can be effectively attenuated to prevent equipment damage.

11 and 12 are views showing a third support according to another embodiment.

11 and 12, the third support 433 according to another embodiment includes a support disk 4321 and four disk support frames 4332.

The support disk 4331 is formed in a disk shape that is installed in a horizontal direction and passes through the center of the sphere so as to divide the sphere into upper and lower portions, and is seated in a space between the lower flat plate 410 and the upper flat plate 420.

The disk support frame 4332 is installed at each edge of the support disk 4331 facing the four corner supports 440, and is formed to extend in the vertical direction, and the upper disk installed at the upper side of the first support 431 It may support between the lower disk 4322 installed at the lower side of the 4312 and the second support part 432.

In one embodiment, the disc support frame 432 is more elastic, so as to support between the upper disc 4312 and the lower disc 4322

An upper spring F1 may be installed between the upper disk 4312 and a lower elastic body F2 may be installed between the lower disk 4322.

13 is a view showing another embodiment of the center support of FIG. 3.

Referring to Figure 13, the lower support 400 according to another embodiment, the lower plate 410, the upper plate 420, the center support 430, four corner support 440 and the lifting guide 450 Includes.

Here, since the lower plate 410, the upper plate 420, the center support 430 and the four corner supports 440 are the same as the components of FIG. 7, the description thereof will be omitted.

The elevating guide portion 450 elevates the edge support 440 that faces the disk support frame 4332 and is installed as one disk support frame 4322 descends.

In one embodiment, the lifting guide portion 450 includes a first bar 451, a first elastic support 452, a second bar 453, a third bar 454, a fourth bar 455, a second It includes an elastic support 456, a fifth bar 457 and a sixth bar 458.

The first bar 451 is installed so that one side is rotatable to the lower side of the disk support frame 4332, and the other side is installed to be inclined in the downward direction while looking at the edge support 440.

The first elastic support portion 452 is installed on one lower side of the first bar 451 to support one side of the first bar 451.

The second bar 453 is connected to one side to be rotatable on one side of the bottom surface K1 of the installation tunnel T extending along the inside of the lower plate 410 to the lower side of the edge support 440, The first elastic support portion 452 is installed on one side, and the other side is installed to be inclined in the upper direction while looking at the edge support 440, and is connected to the other side of the first bar 451 so as to be rotatable.

The third bar 454 is formed to extend in the horizontal direction and is seated inside the installation tunnel T, and the first bar 451 and the second bar 453 are connected to one side to be rotatable together. 1 The elastic support portion 452 descends and moves in the direction of the edge support 440 as the gap between each side of the first bar 451 and the second bar 453 decreases.

The fourth bar 455 is installed so that the other side is rotatable to the other side of the installation tunnel T so that the other side is rotatable, and one side is installed to be inclined in an upward direction and the other side of the third bar 454 The connection is installed so that it can rotate.

The second elastic support portion 456 is provided on the other upper side of the fourth bar 455.

The fifth bar 457, the other side of the lower side is supported by the second elastic support 456, is installed so that one side is inclined in the downward direction, and the fourth bar 455 on the other side of the third bar 454 It is installed to be able to rotate together.

The sixth bar 458 is formed to extend vertically and vertically so that the lower part is rotatably connected to the other side of the fifth bar 457, and the third bar 454 moves in the direction of the edge support 440 As the gap between each other side of the fourth bar 455 and the fifth bar 457 increases, the edge support 440 is elevated.

14 is a view showing another embodiment of the edge support.

Referring to FIG. 14, the edge support 440 includes a fixed support 441, a sliding through hole 442, and an elevation support 443.

The fixed support 441 is fixedly installed at one corner of the lower flat plate 410, and the elevating support 443 is mounted on the upper side.

The sliding through hole 442 is formed by penetrating the fixed support 441 in the vertical direction so that the sixth bar 458 is upright and seated and movable in the vertical direction.

The lifting/lowering support 443 is formed in the form of a closed circular pipe on the upper side, seated on the upper side of the fixed support 441, supported by the sixth bar 458, and elevates as the sixth bar 458 elevates. The upper plate 420 is elevated.

15 is a view showing another embodiment of the sliding mounting portion of FIG. 1.

Referring to FIG. 15, the sliding mount 200 according to another embodiment includes a slider 210, a rear end support 220, a front end support 230, a rear end support 240, an adjustment plate 250, and access It includes a guard 600.

Here, since the slider 210, the rear end support 220, the front end support 230, the rear end support 240, and the adjustment plate 250 are the same as the components in FIG. 2, description thereof will be omitted.

The access guard 600 is installed at the rear of the front support 230 and the rear end support 220 is a predetermined distance in the direction of the front support 230 (that is, the distance corresponding to the two of the access guard 600) ) To prevent access.

The access guard 600 having the configuration as described above is caused by the object P1 falling during the inspection as the rear end support 220 and the front end support 230 on which the object P1 is mounted are too close. In addition to preventing the inspection from being normally performed, the rear end support 220 and the front end support 230 are in close contact, so that each support can be prevented from being damaged due to collision.

FIG. 16 is a view showing the access guard of FIG. 15.

Referring to FIG. 16, the access guard 600 includes a first support 610, a second support 620, a third support 630, a fourth support 640, and a first rotating link 650 , A second rotating link 660, a first link support 670, a second link support 680, and a bottom frame 690.

Here, as shown in FIG. 15, the access guard 600 is installed between the rear end support 220 and the front end support 230 while supporting vibration while reducing vibrations or shocks generated in the left and right directions. For convenience of explanation, the support in the left and right directions will be described based on the support in the up and down directions.

The first support 610 is spaced apart from the second support 620 and supported by the first rotary link 650 (610a, see FIG. 20), and supports the front surface of the rear support 220.

The second support 620 faces the first support 610 and is spaced apart from the first support 610 and supported by the second rotary link 660 and supports the front surface of the rear support 220.

The third support 630 is spaced from the second support 620 and is installed by being supported (630a, see FIG. 20) by the first rotary link 650, and rotates as the first support 610 descends It is lifted by the first rotating link 650 to support the front of the rear end support 220.

The fourth support 640 is installed spaced apart from the first support 610, and is lifted by the second rotational link 660 that rotates as the second support 620 descends, so that the rear end support 220 Support the front.

The first rotational link 650 is formed in a round “U” shape on the lower side, and the first support 610 is installed to be rotatable at the upper end, and the third support 630 is rotatable to the upper end at the rear end. It is installed so as to be connected, and rotates as the first support 610 descends, thereby elevating the third support 630.

At this time, the third support 630 should be installed at a lower position than the first support 610.

The second rotatable link 660 is formed in a round “U” shape downwardly corresponding to the shape of the first rotatable link 650, and is connected to the second support 620 so as to be rotatable at an upper side of the rear end. , The fourth support 640 is connected to the front end so as to be rotatable, and rotates as the second support 620 descends to elevate the fourth support 640.

At this time, the fourth support 640 should be installed at a lower position than the fourth support 640.

The first link support 670 is seated under the first rotational link 650 so as to support the first rotational link 650.

The second link support 680, the lower side of the second rotary link 660 is seated to support the second rotary link 660, the first support 610 and the second support 620 is It is spaced apart in the front-rear direction and is installed spaced apart in the front direction from the first link support 670 so that it can be connected and installed by the first rotating link 650 and the second rotating link 660.

The bottom frame 690 is formed in a flat shape so that the first link support 670 and the second link support 680 may be installed on the upper side.

The access preventer 600 having the above-described configuration can effectively prevent the rear end support 220 and the front end support 230 from being too close by supporting the front surface of the rear end support 220.

17 is a view showing the first link support of FIG. 16.

Referring to FIG. 17, the first link support 670 includes a bottom plate 671, a front support 672, a rear support 667, a front support block 674, a rear support block 675, and a shear sliding tunnel. 676 and a rear end sliding tunnel 677.

Here, the second link support 680 is installed to be spaced apart from the first link support 670 as shown in FIG. 18, but the description is omitted below to avoid overlapping the description of the same configuration. .

The bottom plate 671 is formed to extend in the longitudinal direction before and after, and is installed on the bottom surface of the equipment to which the present invention is installed.

The shear support 672 is installed above the shear of the bottom plate 671 to support the shear lower side 674a of the shear support block 674.

The rear end support 673 is provided on the rear end upper side of the bottom plate 671 to support the rear end lower side 675a of the rear end support block 675.

The front end support block 674 is connected so that the rear end lower side is rotatable on the upper side of the bottom plate 671, and the front end lower side 674a is supported by the front end support 672.

The rear end support block 675 is connected (A) so that the lower end of the front end can be rotated together with the lower end of the front end support block 674 on the upper side of the bottom plate 671, and the lower end of the lower end 675a is the rear end support 673 ), and the front side is in close contact with the rear side of the front end support block 674.

In one embodiment, the rear end support block 675, the first rotational link 650, the first support as shown in Figure 19 so as to prevent the movement of the third support 630 by using an elastic force to the first A first ring (B1) installed at the lower end of the rear end of the rotary link (650) and a second ring (B2) installed at the rear end may be provided with a stopper spring (S) at which each end is installed.

The shear sliding tunnel 676 extends from the front upper side to the rear lower side of the front support block 674 in response to the curvature of the first rotating link 650 so that the first rotating link 650 is seated and slidingly moved. Is formed.

The rear end sliding tunnel 677 is formed to face the rear end of the front end sliding tunnel 676 and extends to correspond to the curvature of the first rotating link 650 so that the first rotating link 650 is seated and slidingly moved. The rear end support block 675 is formed to extend from the lower front to the upper rear.

In one embodiment, the first rotational link 650 has a front end and a rear end as each upper end of the front end support block 674 and the rear end support block 675 rotates away from each other, as shown in FIG. 21. The rotation shaft 651 is formed at the lower portion as shown in FIG. 20 so as to be opened in a direction away from each other, the upper lag gear 652 is formed along the upper side, and the lower leg gear 653 is formed along the lower side. Can be formed.

In one embodiment, the shear sliding tunnel 676 may include a plurality of first link supports 678 and a plurality of second link supports 679.

The first link support portion 678 is formed along the upper surface to support the upper side of the first rotating link 650 seated in the interior space.

The second link support portion 679 is formed along the lower surface to support the lower side of the first rotating link 650 seated in the interior space.

22 is a view showing a first link support and a second link support according to the present invention.

Referring to FIG. 22, the first link support portion 678 includes an upper and lower sliding groove 6678, an upper support spring 6678, a slider 683, and a support gear 6784.

Here, as the second link support 679, as shown in FIG. 22, the components of the first link support 678 and the vertically symmetrical structure can be applied to each component in the same way to avoid duplication of description. The description will be omitted.

The upper and lower sliding grooves 6801 are formed to extend in the upper longitudinal direction from the upper side of the inner space of the front end sliding tunnel 676, an upper support spring 6702 is installed on the upper side, and the slider 6783 slides in the vertical direction. Move.

The upper support spring 6678 is installed on the upper side of the upper and lower sliding grooves 6801 to support the slider 683 using an elastic force.

The slider 683 is seated on the upper and lower sliding grooves 6801, and the upper side is supported by the upper support spring 6678, and slides in the vertical direction along the upper and lower sliding grooves 6801, and the supporting gear 6784 on the lower side. Is installed connected.

The support gear 6848 is engaged with the upper lag gear 652 and is rotatably installed on the lower side of the slider 683, and rotates as the first rotating link 650 moves along the shear sliding tunnel 676 While supporting the upper side of the first rotary link (650).

The above-described embodiments are for illustration only, and those having ordinary knowledge in the technical field to which the above-described embodiments belong can easily be modified into other specific forms without changing the technical idea or essential characteristics of the above-described embodiments. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected through the present specification is indicated by the claims, which will be described later, rather than the detailed description, and should be interpreted to include all modified or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof. .

10, 20: Test object inspection cradle
100: support
200: sliding mount
300: installation unit
400: lower support
500: shelf
600: access guard

Claims (2)

A support portion on which a sliding rail extending in the longitudinal direction along the upper surface is formed; And
It is installed connected to the upper side of the support portion and slidingly moves in the front-rear direction along the sliding rail, a sliding mounting portion for mounting the object to be inspected during the inspection;
The sliding mounting portion, the rear end is formed to bend to the upper side is formed in a "b" shape, is installed on the upper side of the support portion is a slider that slides forward and backward along the sliding rail; A rear end support installed on the front end of the slider to support the rear end of the inspected object; A shear support installed on the front end of the support to support the front end of the inspected object; The rear end of the rear end block of the slider, which is erected upward, is inserted so as to be inclined from the upper side to the lower end, and the front end is exposed to the front end of the rear end block, and the rear end support is in close contact with the rear end support and the rear end of the inspected object mounted on the front end support. ; And a rear end of the rear end support exposed to the rear end of the rear end block, and moving the rear end support as the rear end of the rear end block forming an inclined surface approaches or moves away from the inclined direction of the rear end support. Control plate; includes,
The shear support, the support frame is formed extending in the vertical direction; An “V” groove formed in an “V” shape in the upper portion of the support frame; A first frame installed on one side of the "V" groove to support one side of the inspected object; And a second frame installed on the other side of the "V" groove to support the other side of the inspected object.
An installation portion for installing the support portion on an upper side; A lower supporter installed at each lower corner of the installation unit to support the installation unit; And the lower support is installed on the upper side, each shelf portion for supporting the installation spaced apart from the bottom surface; further comprises,
The lower support is formed in the form of a flat bottom plate is installed on the upper side of the shelf; An upper plate formed in a plate shape corresponding to the shape of the lower plate to support the lower side of the installation portion; A central support installed at the center of the lower plate to support the central portion of the upper plate; And four corner supports installed along edges of the lower plate and the upper plate to support between the lower plate and the upper plate.
The central support, the first support portion is formed with an upper seating groove in the form of a hemisphere on the lower side; A second support portion formed corresponding to the shape of the first support portion and installed at a lower side of the first support portion, wherein a lower seating groove having a hemispherical shape is formed at an upper side; A third support portion formed in a spherical shape and having an upper portion seated in the upper seating groove and a lower portion seated in the lower seating groove to support between the first support portion and the second support portion; And a plurality of fourth supports that are installed along the first and second support portions to support the first and second support portions using elastic force.
The second support portion includes a plurality of fifth support portions spaced apart from each other along the lower seating groove so as to support the lower side of the third support portion seated in the lower seating groove.
The fifth support portion, the lower groove is formed extending in the vertical direction; A lower elastic body installed under the lower groove; A sliding bar seated in the lower groove, supported by the lower elastic body, and slidingly moving along the lower groove; And a support bead that is rotatably connected to the upper portion of the sliding bar to support the lower side of the third support part.
The third support part may include a support disk formed in the form of a disk installed in a horizontal direction and passing through the center of the sphere so as to divide the sphere into upper and lower parts; And between the upper disk installed on each edge of the support disk facing the four corner supports and extending in the vertical direction, and the lower disk installed on the lower side of the second support. It is provided with four disc support frame for supporting;
The lower support further includes a lifting induction unit for elevating the corner support as the disk support frame descends,
The elevating guide portion, the first bar is installed so that one side is rotatable to the lower side of the disk support frame, the other side is installed to be inclined in the downward direction while looking at the edge support; A first elastic support unit installed on one side of the first bar to support one side of the first bar; One side is connected to the bottom surface of the installation tunnel extending along the inside of the lower plate to the lower side of the corner support so as to be rotatable, and the first elastic support is installed on one side and the other side is the corner support The second bar is installed to be inclined in the upward direction while looking at the other bar connected to the other side of the first bar to be rotated; It is formed to extend in the horizontal direction and is seated inside the installation tunnel, and connected to the first bar and the second bar to be rotatable together on one side, and the first elastic support is lowered so that the first bar and the first A third bar moved in the direction of the edge support as the gap between each side of the two bars decreases; A fourth bar connected to the other surface of the other side of the installation tunnel so that the other side is rotatable, and one side is installed to be inclined in an upward direction and connected to the other side of the third bar to be rotatable; A second elastic support installed on the other side of the fourth bar; A fifth bar on which the other side is supported by the second elastic support, and is installed so that one side is inclined downward, and connected to the other side of the third bar to be rotatable together with the fourth bar; And extending vertically and vertically so that the lower portion is rotatably connected to the other side of the fifth bar, and the third bar moves in the direction of the corner support so that the other side of the fourth bar and the fifth bar is different. It includes; a sixth bar that elevates as the gap between the gaps rises and elevates the corner support;
The edge support includes: a fixed support fixed to one corner of the lower plate; A sliding through hole formed through the fixing support in the vertical direction so that the sixth bar is erected and seated and moved vertically; And an elevating and descending support seated on an upper side of the fixed support and supported by the sixth bar, and elevating as the sixth bar elevates.
The sliding mounting portion is installed on the rear surface of the front end support, the rear end support to prevent access to within a predetermined distance in the direction of the front end support; further comprising; a holder for inspection of the inspected object. delete

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