KR101751402B1 - An X-ray Apparatus Having Improved Assembling and Structural Property - Google Patents

Abstract

The present invention relates to an x-ray inspection apparatus having improved assembling and structural characteristics, and more specifically, to an x-ray apparatus in which assembly and structural characteristics are improved with ease of manufacture and maintenance by facilitating assembly while being made simple. The X-ray apparatus having improved assembly and structural characteristics includes an inspection housing 111 forming a sealed space; An operating case (14) arranged in a separate section on the side of the inspection housing (111); A conveyor unit (13) arranged in a structure passing through the inspection housing (111); A shielding unit (17) disposed in the entrance and exit areas of the inspection housing (111); And the inspection housing 111 and the operation case 14 are fixed to a separate profile frame from the fixed frame 12. The test frame 111 is fixed to the test frame 111,

Description

An X-ray Apparatus Having Improved Assembling and Structural Properties [

The present invention relates to an x-ray inspection apparatus having improved assembling and structural characteristics, and more specifically, to an x-ray apparatus in which assembly and structural characteristics are improved with ease of manufacture and maintenance by facilitating assembly while being made simple.

X-ray inspection, which is one of the nondestructive tests, is applied to defect management or quality control of products in the fields of architecture, civil engineering, automobile parts, electronic parts, agricultural products, electronic or medical. For example, nondestructive testing can be applied to detect the presence of foreign matter in packaged food, defects in packaging material, or defects in packaging equipment. In addition, X-ray inspection can be applied to production lines of printed circuit boards during component assembly production and can be used to check the soldering condition of parts in real time.

X-ray inspection can be performed on various parts or products and different inspection devices need to be applied for the application of each inspection method. However, the replacement of the entire inspection apparatus according to the inspection object for a relatively simple inspection has a problem that the efficiency of the apparatus is reduced and the manufacturing cost of the apparatus is increased. In addition, there is a disadvantage that the operation of the entire apparatus must be interrupted for repairing some devices, and repair or inspection is difficult.

Prior art related to x-ray inspection is Patent Registration No. 1133048 'Battery Inspection Device'. An inspection room having a shielding partition for preventing leakage of radiation in the inspection process; A loading portion for transferring the battery; A unloading portion for transferring the battery to the outside; And a transferring part for transferring the battery to each stage, wherein the transferring part comprises a transferring jig that forms a path through a through hole formed in the partition wall and is sequentially arranged in a direction toward each of the inspection stages, .

Another prior art related to x-ray inspection is Patent No. 0978054, " Battery x-ray inspection apparatus ". The prior art includes an X-ray tube and a detector, a sliding door formed on a front surface of the examination room, a sensor installed on a sliding side portion, a moving table movable along a plane between the X-ray tube and the detector, An X-ray inspection apparatus having an inspection tray on which a subject to be inspected is disposed is disclosed.

Since the X-ray inspection apparatus is inspected in an airtight structure, the image processing procedure in the X-ray tube and the detector is complicated and the overall structure can be complicated. However, it is necessary that the X-ray inspection apparatus be made in a simple and easy-to-assemble structure depending on the object to be inspected. Such an arrangement of the inspection apparatus has the advantage that the maintenance cost and the maintenance are simplified while reducing the manufacturing cost. The prior art does not disclose an X-ray apparatus which is made to have such characteristics in accordance with an object to be inspected.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 1133048 (Inonomet Co., Ltd., published 04 Apr 2012) Battery Inspection Device Prior Art 2: Patent Registration No. 0978054 (published by Jarvis Corporation, Aug. 25, 2010) Battery x-ray inspection device

It is an object of the present invention to provide an X-ray apparatus which is structurally simple, easy to assemble, and has improved assembling and structural characteristics to ensure overall structural safety due to a profile frame structure.

According to a preferred embodiment of the present invention, an x-ray apparatus having improved assembly and structural characteristics includes an inspection housing forming a sealed space; An operating case disposed in a separate compartment on a side of the inspection housing; A conveyor unit arranged to penetrate the inspection housing; A shielding unit disposed in the entrance and exit areas of the inspection housing; And a fixing frame to which the inspection housing is fixed, wherein the inspection housing and the operation case are fixed to a profile frame independent of the fixed frame.

According to another preferred embodiment of the present invention, there is further provided a drive unit for driving the conveyor unit, wherein the drive unit is coupled to the outer wall surface of the inspection housing, and the conveyor unit is detachable from the inspection housing.

According to another preferred embodiment of the present invention, the shielding unit comprises a pair of fastening members facing each other; A pair of engaging members slidably coupled to the engaging member; And at least one fixing member coupled to the opposed coupling members and having a shielding curtain at a lower side thereof.

According to another preferred embodiment of the present invention, the profile frame comprises a base profile member arranged in a rectangular shape; And a ceiling profile member arranged in a rectangular shape having a small cross sectional area as compared with the base profile member.

According to another preferred embodiment of the present invention, the profile frame is formed of a profile of aluminum or aluminum alloy material and is manufactured in a modular structure independent of the inspection housing.

According to still another preferred embodiment of the present invention, there is further provided a display detachably installed outside the inspection housing or the operation case.

According to another preferred embodiment of the present invention, the portion of the inspection housing where the conveyor unit or the conveyor unit are joined and separated is watertight.

The X-ray apparatus according to the present invention has an advantage that it is structurally simple and easy to assemble by being made into a profile frame structure. In addition, the X-ray apparatus according to the present invention has an advantage that the conveyor unit or the shielding unit can be separated from each other and thus maintenance and repair are easy.

1A and 1B show an embodiment of an X-ray apparatus according to the present invention.
2A and 2B show an embodiment of a conveyor unit applied to an X-ray apparatus according to the present invention.
FIG. 3 shows an embodiment of a profile frame structure applied to the X-ray apparatus according to the present invention.
4A and 4B illustrate an embodiment of a shielding unit applied to the X-ray apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1A and 1B show an embodiment of an X-ray apparatus according to the present invention.

1A and 1B, an X-ray apparatus 10 includes an inspection housing 111 forming an airtight space; An operating case (14) arranged in a separate section on the side of the inspection housing (111); A conveyor unit (13) arranged in a structure passing through the inspection housing (111); A shielding unit (17) disposed in the entrance and exit areas of the inspection housing (111); And the inspection housing 111 and the operation case 14 are fixed to a separate profile frame from the fixed frame 12. The test frame 111 is fixed to the test frame 111,

The device 10 according to the present invention can be used to remove defects or seals inside the product such as, for example, internal debris of food processed products such as metal, stone, glass, plastic or bone or voids or cracks inside the product It can be applied to automatically detect the omission of some components of the packaged product or the defects of the product. Further, the present invention can be applied to the detection of defects of various types of medical products or electronic products through appropriate design changes, and the present invention is not limited by the kind of object to be inspected. In the inspection apparatus 10 according to the present invention, an object to be inspected can be continuously introduced into the interior of the inspection module 11 along the conveyor unit 13. An x-ray tube and a detector may be disposed inside the inspection module 11, and the object to be inspected can be inspected by the x-ray tube and the detector at the inspection position. The inspected object to be inspected can be discharged to the outside of the inspection module 11 along the conveyor unit 13. [ Such an inspection process may be performed continuously, and may be performed in real time by being connected to a production line to be inspected. The inspection apparatus 10 according to the present invention is suitable for foreign matter inspection of food contained in a can, a bag, or a box, but is not limited thereto and can be applied to foreign matter inspection of various products.

The inspection module 11 may include an inspection housing 111 which forms a closed space as a whole. The inspection housing 111 may be box-shaped, and an x-ray tube and a detector may be disposed therein, and the inspection housing 111 may be fixed to the upper portion of the fixed frame 12. The inspection housing 111 can have a bottom surface smaller than the plane of the fixed frame 12 and the operation case 14 can be coupled to the side surface of the inspection housing 111, (Not shown). As described above, the inspection housing 111 in which the x-ray tube and the detector are arranged and the operation case 14 in which the control unit or the electric power supply unit is disposed are formed in the x-ray apparatus 10 according to the present invention, And can be fixed to the upper side of the fixed frame 12. A separate door is not formed in the inspection housing 111, and a door may be formed in the operation case 14. [ Thus, the inspection housing 111 in which the inspection unit is disposed and the operation case 14 in which the operation unit is disposed can be made independently. Thereafter, the inspection housing 111 and the operation case 14 may be electrically or structurally connected to each other and fixed to the fixed frame 12. The structure for separating the operation case 14 into separate sections as described above makes it possible to simplify the manufacture and assembly of the X-ray apparatus 10 and improve the sealing performance. Specifically, the door is not separately installed in the inspection housing where the x-ray tube and the detector are disposed, so that one side is sealed by the operation case 14 so that the sealing structure according to the door installation is not required. The connection between the operation unit disposed inside the operation case 14 and the inspection unit disposed inside the inspection housing 111 can be made through the bottom surface of the inspection housing 111 and the operation case 14. [ At least one ventilation hole 113 may be provided on the peripheral surface of the inspection housing 111, and the ventilation hole 113 may be made of an electromagnetic wave shielding structure.

The conveyor unit 13 can be disposed so as to pass through the inspection housing 111 so that the inspection subject can be transferred from the outside to the inside and from the inside to the outside. Specifically, an inlet may be formed on the front side of the inspection housing 111 and an outlet may be formed on the rear side of the inspection housing 111. And a plate-shaped conveyor unit 13 may be disposed in a structure penetrating the inside and the outlet of the inlet and inspection housing 111. The conveyor unit 13 includes a conveying bed 131 to which an object to be inspected is placed and conveyed; A conveying guide member 132 disposed at both edges of the conveying bed 131; And a rotation driving unit 133 for rotating the transporting bed 131. The rotation drive unit 133 may be connected to a drive unit 16 having a built-in motor, for example. As shown in Figs. 1A and 1B, both the rotation drive unit 133 and the drive unit 16 are disposed outside the inspection wing 111. Fig. And the conveyor unit 13 can be installed to be detachable from the inspection housing 111. In this structure, the necessity of opening the inside of the inspection housing 111 is reduced. Therefore, the inspection housing 111 can be made in a completely sealed structure without a door, and the upper surface of the inspection housing 111 can be opened in a screw release manner, if necessary. The air flow passage 161 may be formed in the drive unit 16 and the rotation drive unit 133 may be connected by various power connection or transmission means such as a gear or a belt. Further, the rotation drive unit 133 and the drive unit 16 may be detachably coupled.

According to the present invention, the shielding unit 17 can be disposed at the entrance portion and the exit portion of the inspection housing 111. The shielding unit 17 may be formed to penetrate the inside of the inspection housing 111 and may be installed in a structure detachable from the inspection housing 111 like the conveyor unit 13. The shielding unit 17 may include a lead curtain of a strip structure capable of blocking the x-ray. The display unit 15 can be detachably mounted on the operation case 14 in the X-ray apparatus 10 according to the present invention. According to the present invention, the inspection housing 111 and the operation case 14 can be independently manufactured, and a profile frame for fixing the inspection housing 111 and the operation case 14 can be made. The inspection housing 111 and the operation case 14 are fixed to the profile frame and then the display unit 15 can be disposed on the upper surface of the operation case 14 or other appropriate position. And the conveyor unit 13 and the shielding unit 17 can be disposed in the inspection housing 111. [ As described above, the X-ray apparatus 10 according to the present invention can improve the assembling characteristics and improve the structural safety by independently assembling and assembling each unit or module having independent functions.

The following describes the conveyor unit 13 and the shielding unit 17 that are made in a detachable structure.

2A and 2B illustrate an embodiment of a conveyor unit 13 applied to an X-ray apparatus according to the present invention.

2A and 2B, the conveyor unit 13 may include a conveying bed 131 having a rotatable plate shape and a pair of conveying guide members 132 for guiding rotation of the conveying bed 131 . The conveying guide member 132 can be made to have a length from the inlet to the outlet of the inspection housing 111, whereby the inlet and the outlet can lead to one conveyance path. Referring to (B) of FIG. 2B, a member fixing unit 25 may be disposed on the side surface of the inspection housing 111. The member fixing unit 25 may comprise a fixing plate 251 and a locking means 252. A coupling plate 231 coupled to the fixed plate 251 and a fixed piece 232 extending downwardly of the conveying guide member 132 may be formed on the side surface of the conveying guide member 132. The engaging plate 231 may be brought into contact with the fixing plate 251 in order to engage the conveyor unit 13 with the inspection housing 111. [ The fixing piece 232 can be inserted into an insertion groove (not shown) formed in the member fixing unit 25 and fixed to the coupling plate 231 by fastening a fastening means such as a screw to the fastening hole 233. [ The plate 251 can be firmly coupled. And the conveyor unit 13 can be fully engaged with the inspection housing 111 by the locking means 252. [ The locking means 252 can be any of a variety of means known in the art, such as clamps, hooks or tightening units.

The engaging plate 231 may be formed at both ends of the pair of conveying guide members 132 and the member fixing unit 25 may be disposed at both sides of the inlet and at both sides of the outlet. With this arrangement, the conveyor unit 13 can be coupled to and separated from the inspection housing 111 by a method of fastening and separating the inspection unit 111 outside the inspection unit.

The part of the inspection housing 111 where the conveyor unit 13 or the conveyor unit 13 is joined and separated can be waterproofed. Moisture in or outside the subject to be inspected can flow to the conveyor unit 13 in the process of being conveyed along the conveyor unit 13. And such moisture can flow to the inspection housing 111 to which the conveyor unit 13 is coupled. In order to prevent this, the inlet or outlet of the inspection housing 111 to which the conveyor unit 13 or the conveyor unit 13 is coupled may be waterproofed. The waterproof treatment can be made by a waterproof treatment with a silicone material or by a waterproof packing.

The interface between the transporting bed 131 and the transporting guide member 132 can be waterproofed with a material such as silicon while the transporting bed 131 and the transporting guide member 132 are coated with a waterproof coating. The fastening portion between the conveying guide member 132 and the inspection housing 111 may be waterproofed with silicone or similar material. The conveyor unit 13 can be coupled to the inspection housing 111 in a variety of ways, and the present invention is not limited to the embodiments shown.

FIG. 3 shows an embodiment of a profile frame structure applied to the X-ray apparatus according to the present invention.

Referring to FIG. 3, the profile frame 30 according to the present invention includes base profile members 331 and 332 arranged in a rectangular shape; And ceiling profile members 341 and 342 arranged in a rectangular shape having a smaller cross sectional area than the base profile members 331 and 332. And the profile frame 30 is formed of a profile of aluminum or aluminum alloy material and is manufactured in a modular structure independent of the inspection housing.

The profile frame 30 can be formed in a profile member of aluminum or aluminum alloy material and can be made in a lattice structure. The end portions of the profile members can be coupled to each other by the insertion-engaging structure 35. The insert-engagement structure 35 may have the same or similar structure as, for example, a synthetic resin profile or a metal profile.

A quadrangular base may be formed by the base profile members 331 and 332. And the inspection housing compartment area may be formed by the vertical profile member 311 and the ceiling profile members 341, 342. And the inspection housing partition area can form the detector partition area by the separation base member 321. [ At least one fixing portion 36 may be formed on the separating base member 321.

The bottom surface of the inspection housing partition area bisects the base surface so that the inspection housing mounting area and the operation case arrangement area are respectively formed. The four separate base members 321 are arranged such that the detector housing is disposed in the lower region while the inspection housing partitioning region is separated upward and downward, and the x-ray tube is disposed in the upper region. And a fixing portion for fixing the x-ray tube module to the separation base member 321 may be formed. The profile frame 30 thus divided into the plurality of divided areas can be disposed above the fixed frame, and the x-ray tube module, the detector and the operation case can be disposed in each of the divided areas.

According to the present invention, the profile frame 30 can be assembled with a profile member made of aluminum or an aluminum alloy material so as to have a plurality of partition areas in advance. And a predetermined module may be placed in each of the segment areas, and then combined with the fixed frame. And the display unit can be coupled externally to the operating case. Since the profile frame 30 is made to have the predetermined partitioning area as described above, the assembly of the X-ray apparatus is simplified, and at the same time, the structural safety is improved. In addition, the manufacturing cost of the X-ray apparatus is reduced, and at the same time, maintenance and repair of the X-ray apparatus are facilitated.

Described below is a shielding unit detachably coupled to such a profile frame 30 structure.

4A and 4B illustrate an embodiment of a shielding unit applied to the X-ray apparatus according to the present invention.

4A and 4B. The shielding unit 17 includes a pair of fastening members 43a and 43b facing each other; A pair of engagement members 451 and 452 slidably coupled to the fastening members 43a and 43b; And at least one fixing member 461, 462, 463 which is coupled to the mutually facing engaging members 451, 452 and to which the shielding curtains 42a, 42b, 42c are fixed.

Referring to FIG. 4A, the shielding units 17a and 17b are coupled to the inspection housing 111 through the entrance and exit of the inspection housing 111 to shield the X-rays emitted to the entrance and exit. The first shielding unit 17a for shielding the inlet portion and the second shielding unit 17b for blocking the outlet portion may have the same or similar structure and may be respectively coupled to the inspection housing 111 in a sliding manner.

Referring to FIG. 4B, a pair of fastening members 43a and 43b having a length from the entrance to the exit of the inspection housing 111 can be fixed to the inspection housing 111. [0053] FIG. The fastening guides 431 and 432 are coupled to both sides of the fastening members 43a and 43b and the ceiling guide 433 connecting the inner ends of the fastening guides 431 and 432 can be formed. Each of the at least one shielding curtains 42a, 42b and 42c disposed in parallel with each other can be made of a shielding strip arranged in parallel adjacent to each other and the upper portion of each shielding curtain 42a, 42b, 461, 462, 463, respectively. Both ends of each of the fixing members 461, 462 and 463 can be fixed to a pair of engaging members 451 and 452 facing each other. The engaging members 451 and 452 may have a shape extending in one direction and a portion of the engaging members 451 and 452 may be formed of a vertically bent portion and a horizontal portion along the direction in which the engaging members 451 and 452 extend. The horizontal portions can be guided by the fastening guides 431 and 432 in a sliding manner and the vertically bent portions can be inserted into the tunnel portions formed by the ceiling guide 433 and the fastening guides 431 and 432.

The shielding loops 47a and 47b may be formed on the outer portions of the first shielding unit 17a and the second shielding unit 17b and the shielding loops 47a and 47b may be plate- Stopper plates 471 and 472 may be formed on inner portions of the loops 47a and 47b. The distance by which the engaging members 451 and 452 are engaged with the engaging guides 431 and 432 in the respective shielding units 17a and 17b by the stopper plates 471 and 472 can be determined.

The shielding unit 17 may have various structures that can be coupled to the inspection housing 111 and the present invention is not limited to the embodiments shown.

The X-ray apparatus according to the present invention has the advantage that it is structurally simple and easy to assemble by being made into a profile frame structure. In addition, the X-ray apparatus according to the present invention has an advantage that the conveyor unit or the shielding unit can be separated from each other and thus maintenance and repair are easy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: X-ray device 11: Inspection module
12: stationary frame 13: conveyor unit
14: Operation case 15: Display
16: drive unit 17: shielding unit
17a: 1 shielding unit 17b: 2 shielding unit
25: member fixing unit 30: profile frame
35: insertion-engaging structure 36: fixed part
42a, 42b, 42c: shielding curtains 43a, 43b:
47a, 47b: shielding loop 111: inspection housing
113: ventilation hole 131: conveying bed
132: conveying guide member 133: rotation driving unit
161: air flow passage 231: engaging plate
232: Fixing piece 233: Fastening hole
251: Fixing plate 252: Locking means
311: vertical profile member 321: separation base member
331, 332: base profile member 341, 342: ceiling profile member
431, 432: fastening guide 433: ceiling guide
451, 452: engaging member 461, 462, 463:
471, 472: Stopper plate

Claims (7)

An inspection housing (111) forming a sealed space;
An operating case (14) arranged in a separate section on the side of the inspection housing (111);
A conveyor unit (13) arranged in a structure passing through the inspection housing (111);
A shielding unit (17) disposed in the entrance and exit areas of the inspection housing (111); And
And a fixing frame (12) to which the inspection housing (111) is fixed on the upper side,
The inspection housing 111 and the operation case 14 are fixed to a separate profile frame from the fixed frame 12,
The shielding unit 17 includes a pair of fastening members 43a and 43b facing each other; A pair of engagement members 451 and 452 slidably coupled to the fastening members 43a and 43b; And at least one fixing member (461, 462, 463) coupled to the mutually facing engaging members (451, 452) with the shielding curtains (42a, 42b, 42c)
The pair of fastening members 43a and 43b are coupled to the inspection housing 111 and fastening guides 431 and 432 are coupled to both sides of the fastening members 43a and 43b, A ceiling guide 433 connecting the inner ends of the first and second guide members 432 and 432,
A part of the engaging members 451 and 452 is formed by the horizontal part guided by the fastening guides 431 and 432 along the extending direction and the horizontal part guided by the ceiling guide 433 and the fastening guides 431 and 432 Wherein the outer portion is vertically bent so as to be inserted into the tunnel portion where the tunnel is formed. The inspection apparatus according to claim 1, further comprising a drive unit (16) for driving the conveyor unit (13), wherein the drive unit (16) is coupled to the outer wall surface of the inspection housing (111) (111), wherein the assembly and structure characteristics are improved. delete [2] The apparatus of claim 1, wherein the profile frame comprises: a base profile member (331, 332) arranged in a rectangular shape; And ceiling profile members (341, 342) arranged in a rectangular shape having a smaller cross sectional area than the base profile members (331, 332). The X-ray apparatus according to claim 1, wherein the profile frame is formed of a profile of aluminum or an aluminum alloy material and is manufactured in a module structure independent of the inspection housing (111). The X-ray apparatus according to claim 1, further comprising a display (15) detachably installed outside the inspection housing (111) or the operation case (14). The X-ray apparatus according to claim 1, wherein a portion of the inspection housing (111) to which the conveyor unit (13) or the conveyor unit (13) is joined and separated is waterproofed.

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