KR20180108547A - An X-ray Apparatus for Detecting a Plural of Electric Elements and a Method for Detecting the Same - Google Patents

Abstract

The present invention relates to an X-ray apparatus for detecting a plurality of electronic parts and a method of detecting electronic parts by using the same, and more particularly, to an X-ray apparatus for detecting a plurality of electronic parts and a method of detecting electronic parts by using the same, capable of acquiring an image of the electronic parts to calculate an amount of the electronic parts or perform a batch inspection on the electronic parts. The X-ray apparatus for detecting the electronic parts includes: a part inspection tray (11) provided to be movable in and out of a sealed space and having a flat tray on which at least one part storage unit is disposed; an X-ray tube (13) disposed above the sealed space; and a planar detector (14) disposed in the sealed space to obtain an X-ray image of the part storage unit from X-rays irradiated from the X-ray tube (13) to the part inspection tray (11), wherein each part storage unit includes the parts and is arranged such that an image of each of the parts is obtained.

Description

[0001] The present invention relates to an X-ray apparatus for detecting a plurality of electronic components, and a method of detecting an electronic component by the X-

The present invention relates to an X-ray apparatus for detecting a plurality of electronic components and a method of detecting an electronic component by the X-ray apparatus. More specifically, the present invention relates to a method for detecting an electronic component, Ray devices for detecting electronic components and a method for detecting electronic components therefrom.

An electronic component disposed in an electronic device such as an electronic circuit board of a portable electronic device can be disposed on a component tape and transported to a pickup position by a tape feeder. The component tape can be put in a supply standby state while being wound around a device such as a reel before being fed to the tapered feeder. It is advantageous that the arrangement of the components is inspected in a state of being wound on the reel before being fed to the tapered feeder. The inspection of the supply unit for supplying a plurality of parts in this manner can be required in various electronic product manufacturing processes and it is possible to check whether or not the parts are arranged at predetermined positions of the supply unit before the parts are transferred to the pick- Need to be.

Patent Publication No. 10-2010-0078642 discloses an apparatus for supplying a product, Conveying means for conveying the product to the discharge conveyor by sucking the product from the product supply portion using vacuum pressure; A product detection sensor installed on the product supply unit and detecting a product to be adsorbed by the transportation means; And a control unit for receiving a signal from the product detection sensor and counting the product and displaying the product on the display unit.

Japanese Patent Application Laid-Open No. 10-2011-0061359 discloses a camera that includes an illuminating means for illuminating an object to be measured, a camera for acquiring an image of the object to be measured generated by passing the illuminating object through the object to be measured or reflected by the object to be measured, A light emitting diode chip counter comprising a computer for receiving and analyzing the obtained image is disclosed.

Prior art or a known technique for calculating the quantity of parts does not disclose a method for enabling simultaneous calculation before a plurality of chips are supplied. And does not disclose a technique capable of calculating the number of chips arranged on one reel while being wound on a supply means such as a reel, for example.

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

Prior Art 1: Patent Publication No. 10-2010-0078642 (published by Wonkwang Health & Science University, Industry & University Collaboration, July 08, 2010) Prior Art 2: Patent Publication No. 10-2011-0061359 (Intec Plus Co., Ltd., released on June 09, 2011) Light emitting diode (LED) chip counter

An object of the present invention is to provide an x-ray apparatus for detecting a plurality of electronic components and an electronic component detecting method by which an image of a plurality of electronic components obtained from an x-ray is acquired to enable inspection of the quantity or arrangement of electronic components .

According to a preferred embodiment of the present invention, an X-ray apparatus for detecting a plurality of electronic components and a method for detecting an electronic component by the X-ray apparatus are formed to be movable into and out of a closed space, and at least one component storage unit is disposed A component inspection tray on which a flat tray is formed; An x-ray tube disposed above the confined space; And a planar detector disposed in the enclosed space and obtaining an x-ray image of the component storage unit from an x-ray irradiated from the x-ray tube to a component inspection tray, wherein each of the component storage units includes a plurality of components, So that an image for each of the parts is acquired.

According to another preferred embodiment of the present invention, the component inspection tray is moved in a sliding manner, and the blocking plate is coupled to the component inspection tray.

According to another preferred embodiment of the present invention, the component storage unit is a reel in which a plurality of electronic components are separated from each other and are continuously arranged, and the reel is wound on a component inspection tray And is disposed at an arbitrary position.

According to another preferred embodiment of the present invention, the quantity of electronic parts arranged on the reel from the image obtained by the planar detector is calculated.

According to yet another preferred embodiment of the present invention, there is provided a method of inspecting a component, comprising: discharging a component inspection tray out of a closed space in a sliding manner; Disposing a reel in which a plurality of electronic components are wound on the component inspection tray; Inserting the component inspection tray into the closed space; And a step of irradiating the reel with an x-ray image to obtain an x-ray image of the electronic component disposed on the reel by the planar detector, wherein the plurality of electronic components are formed of a group of parts arranged along a circumference having different radii.

According to another preferred embodiment of the present invention, each image of the plurality of electronic components is detected as an electronic component which overlaps with the separated electronic component.

According to another preferred embodiment of the present invention, the step of attaching the barcode according to the inspection result to the reel after the x-ray image is acquired and the inspection of the electronic component is completed.

The X-ray apparatus according to the present invention enables the quantity calculation or placement inspection of a plurality of electronic components such as the number of the plurality of electronic components from the X-ray image. For example, the X-ray apparatus according to the present invention makes it possible to inspect the quantity or placement state of electronic parts arranged on a component tape in a state where the component tape is wound on the reel. The method of detecting a plurality of electronic components by the X-ray according to the present invention can detect the quantity or arrangement state of each electronic component in a state where each electronic component is disposed in the component storage unit. Further, the method according to the present invention makes it possible to check for missing or damaged parts placement in a parts storage unit in which a plurality of electronic parts are continuously arranged. Further, the inspection apparatus or the inspection method according to the present invention enables inspection or detection without being limited to the arrangement position of each electronic component in the inspection tray.

1A and 1B show an embodiment of an X-ray apparatus according to the present invention.
FIGS. 2A, 2B, and 2C illustrate an embodiment of a movement structure of an inspection tray applied to the X-ray apparatus according to the present invention.
Fig. 3 shows an embodiment of an electronic component image of a reel on which a component tape obtained by the X-ray apparatus according to the present invention is wound.
4A and 4B illustrate an embodiment of a method of detecting a plurality of electronic components 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 for detecting a plurality of electronic components is configured to be movable in and out of a closed space, and a component inspection tray (not shown) having a flat tray on which at least one component storage unit is disposed 11);

An x-ray tube (13) disposed above the sealed space; And a planar detector (14) disposed in the closed space and obtaining an x-ray image of the part storage unit from x-rays irradiated from the x-ray tube (13) to the component inspection tray (11) And is arranged to acquire an image for each of the plurality of parts including a plurality of parts.

The X-ray apparatus according to the present invention can be used to detect electronic components that are difficult to be visually or optically identified, to calculate the quantity of detected electronic components, or to detect the placement state. The electronic component can be placed in a closed state, for example, in the component pocket of the component tape, and the component tape can be wound round the reel. In addition, the number of electronic components disposed on one reel is difficult to calculate directly, and the arrangement state of each electronic component is difficult to be confirmed. As described above, the electronic parts disposed on the reel are difficult to be detected or confirmed by the naked eye or the optical inspection machine, and a large amount of time may be required for calculating the number of electronic parts. The X-ray apparatus according to the present invention can be applied to a component storage unit which is difficult to calculate the number of parts or the placement of parts, omission of parts, or the total number of parts due to the arrangement structure, size or total quantity. The object to be inspected is not limited to electronic parts.

For example, a plurality of parts may be separated and an arbitrary number may be an object to be inspected, and an inspection apparatus according to the present invention may simultaneously acquire images of a plurality of parts arbitrarily scattered and arranged in an inspection tray, It is possible to calculate the quantity of water.

A reel in which a plurality of electronic components are successively arranged below is shown in the embodiment, but this is for illustrative purposes only and the present invention is not limited to the embodiments shown.

The hermetically closed space may be a box shape or a cylinder shape as a whole, and may be formed by a plurality of vertical members (VF) or a horizontal member (HF) and a wall surface fixed thereby. The enclosed space can be divided into a plurality of compartments, for example, a plurality of compartments in a vertical or horizontal direction. And a control unit or a drive unit for the operation of the X-ray apparatus may be disposed in the lower section. The X-ray tube 13 may be disposed in the upper section and the component inspection tray 11 may be disposed in the intermediate section.

The component inspection tray 11 can be made in a structure that can be moved in or out of the closed space in a sliding manner or the like. For example, the component inspection tray 11 can be formed in the shape of a rectangular plate, and can be moved in a sliding manner from the inside to the outside or vice versa through the insertion slit formed in the closed space. For example, a pair of movement guides 12 can be installed so as to face each other for movement of the component inspection tray 11, and the component inspection tray 11 can be moved along the movement guide 12. [ A test plane may be formed on the upper plane of the component inspection tray 11 and a component storage unit ER such as a reel on which the component tape is wound may be disposed on the inspection plane.

When the component inspection tray 11 is moved to the outside of the closed space along the movement guide 12, the component storage unit ER can be positioned in the inspection plane. And the component inspection tray 11 can be moved along the movement guide 12 to the inside of the closed space again. The insertion slit can be sealed by the blocking plate 15 while the component inspection tray 11 is located inside the closed space.

The component inspection tray 11 can be moved by a drive unit 17 such as a motor and whether or not the closing slit is sealed by the blocking plate 15 can be confirmed by the lock detection unit. When the component inspection tray 11 is disposed at a predetermined position inside the closed space, the x-ray tube 13 can be operated. The x-ray tube 13 can be fixed to the ceiling portion by means such as, for example, a placement bracket 16 fixed to a horizontal member HF forming a ceiling surface of the enclosure. And can be focused near the center portion or the center of the component inspection tray 11. The x-ray tube 13 can be arranged in a fixed structure at a predetermined position or in a structure movable by a placement bracket 16.

The X-rays can be irradiated from the X-ray tube 13 and the X-rays can be detected by the plane detector 14 through the component inspection tray 11 and the component storage unit ER. The planar detector 14 may be disposed inside the closed space. The planar detector 14 may be disposed below the component inspection tray 11 and have a detection area corresponding to the plane area of the component inspection tray 11. [ And may be disposed adjacent to the planar detector 14 in the vertical direction. With this arrangement, all of the electronic components disposed in the component storage unit ER disposed in the component inspection tray 11 can be detected by the planar detector 14. [ The planar detector 14 refers to a detector which is formed so that the detection plane of the x-ray becomes flat and has the same or similar cross-sectional area as the inspection plane to be detected. Detectors made of various structures can be applied to the X-ray apparatus according to the present invention.

The X-ray tube 13 and the planar detector 14 can be arranged at various positions facing each other and the image of the entire inspection region of the component inspection tray 11 is obtained by the planar detector 14, (ER) need not be precisely adjusted. The component storage unit ER can be disposed at any position of the component inspection tray 11 or the inspection area. Specifically, the component storage unit ER to be detected by one component storage unit ER can be disposed on the basis of the central portion of the inspection region. When a plurality of component storage units (ER) are to be detected, they can be separated from each other and arranged at arbitrary positions in the inspection region. As described above, in the X-ray apparatus according to the present invention, the process of aligning the component storage unit (ER) or the parts to be detected is not required for detecting the parts, and thus the detection process can be simplified.

The component inspection tray 11 may be made of the same or similar material as the product, part or electronic component to be inspected, or may be made of a different material. For example, the parts inspection tray 11 can be made of metal or synthetic resin material, but is not limited thereto. In addition, the planar detector 14 can be disposed inside the closed space with a vertically movable structure or a fixed structure.

1B, the shielding plate 15 can be coupled to the front side of the component inspection tray 11 and can be moved together with the component inspection tray 11, and is configured to have a structure suitable for sealing the insertion slit formed in front of the closed space . ≪ / RTI > When the component inspection tray 11 is disposed at the inspection position inside the closed space, the insertion slit is shielded by the shielding plate 15 so that the component inspection tray 11 can be locked. When the locked state is detected by the sensor, the locked state is transmitted to the control unit, whereby the x-ray is irradiated from the x-ray tube 13 and the electronic part is detected by the planar detector 14, . Then, the quantity or arrangement state of the electronic components can be checked from the generated image, and the image can be displayed on the display unit disposed outside the closed space as needed.

The closed space can be made in various structures, and the component inspection tray 11 can be made in various structures movable between the inside and the outside of the closed space.

FIGS. 2A, 2B, and 2C illustrate an embodiment of a moving structure of the component inspection tray 11 applied to the X-ray apparatus according to the present invention.

2A and 2B, the component inspection tray 11 includes a rectangular frame member 111 having an intermediate portion in an empty shape and a planar inspection plane 112 disposed in an empty space of the frame member 111, ≪ / RTI > A reference point BP indicating the center of the inspection plane 112 may be formed in the inspection plane 112 and one inspection zone RA1 and two inspection zones RA21, R22, R23 , R24) may be formed. 1 inspection zone RA1 is for inspection of electronic parts arranged in a single part storage unit made in a circle and the two inspection zones RA21, R22, R23 and R24 are for simultaneously checking a plurality of part storage units . It is advantageous that the parts storing unit is arranged to coincide with one inspection zone RA1 or two inspection zones RA21, R22, R23 and R24, but this is not necessarily the case. The one inspection zone RA1 or the two inspection zones RA21, R22, R23 and R24 may be a rough reference for the placement of the component storage unit and the reference point BP may be the focus reference for the x- .

The component inspection tray 11 can be moved along the guide frame and the guide frames can be linearly arranged on both sides of the component inspection tray 11 so as to face each other along the moving direction. The guide frame includes a pair of fixed guide frames (23a, 23b) fixed to the inside of the closed space; And a pair of movement guide members 24a and 24b disposed on the pair of fixed guide frames 23a and 23b. The component inspection tray 11 can be moved to the inside or outside of the closed space by sliding both edges along the pair of guide members 24a and 24b in a sliding manner. An intermediate guide member coupled to the pair of movement guide members 24a and 24b can be coupled to both edges of the inspection tray 11 as necessary. The pair of fixed guide frames 23a and 23b can be fixed at a position determined by the fixing bracket B provided at the inner corner of the closed space and the driving unit 17 is fixed to one fixing bracket B . Then, the component inspection tray 11 can be moved along the fixed guide frames 23a and 23b by the drive unit 17.

When the component inspection tray 11 is moved out of the closed space, the component inspection tray 11 needs to be supported outside the closed space. For this purpose, movable supporting members 25a and 25b, which operate separately from the component inspection tray 11, may be disposed. The movable supporting members 25a and 25b may be disposed below the component inspection tray 11 and may be arranged to be movable by a driving unit to the inside or outside of the closed space. The receiving members 251a and 251b for accommodating the movable supporting members 25a and 25b may be disposed in the pair of fixed guide frames 23a and 23b.

The component inspection tray 11 can be moved from the inside to the outside of the closed space for the placement of the component storage unit and for this purpose the movable support members 25a and 25b from the housing members 251a and 251b are moved out of the closed space Can be moved. A sliding groove may be formed at a lower portion of the component inspection tray 11 to be engaged with the movable supporting members 25a and 25b. Alternatively, a tray guiding member having a linear groove that can be moved along the movable supporting members 25a, 25b can be incorporated below the component inspection tray 11. When the component inspection tray 11 is moved to the outside of the hermetically closed space and the component storage unit is disposed in one inspection zone RA1 or two inspection zones RA21, R22, R23 and R24, Lt; / RTI > The component inspection tray 11 can be moved into the closed space along the movable support members 25a and 25b and fixed at a predetermined position. Then, the movable support members 25a and 25b can be moved, for example, along the housing members 251a and 251b into the closed space. The locking state of the blocking plate 15 can be confirmed by the lock confirmation means. An induction hole for movement of the movable support members 25a and 25b may be formed on the lock plate 15 and means for shielding the induction hole may be formed if necessary.

A rotary operation unit 271 such as a pinion is disposed on the rotary shaft of a drive unit 17 such as a motor disposed inside the protective case 171 and a linear operation unit 272 such as a rack is provided on the movement inducing member 24b, Can be combined. Depending on the operating structure, a linear moving unit having a structure similar to that of the linear operation unit 272 may be disposed on the movable support member 25b. The rotary operation unit 271 can be engaged with the linear operation unit 272 and the rotary operation unit 271 is rotated by the operation of the drive unit 17 and the linear operation unit 272 is linearly moved, Can be moved with the member 24b. The component inspection tray 11 can be linearly moved by the movement of the movement guide member 24b. In this process, the movable support member 25b can be operated independently or in engagement with the rotary operation unit 271. [ Alternatively, the movable supporting member 25b may be connected to the linear operation unit 272 through the intermediate connecting gear.

The component inspection tray 11 can be moved by various linear moving structures, and the present invention is not limited to the illustrated embodiments.

By the X-ray apparatus according to the present invention, the arrangement state of the parts or electronic parts arranged in the parts storage unit having various structures, the missing state, or the number of the whole parts can be inspected.

Fig. 3 shows an embodiment of an electronic component image of a reel on which a component tape obtained by the X-ray apparatus according to the present invention is wound.

Referring to FIG. 3, the X-ray apparatus according to the present invention can be applied to inspection of components stored in the component storage unit and the reel (W1, W2) on which the component tape is wound. The parts inspection includes the placement of the parts on the part tape, whether the parts are missing or the total number of parts stored in the reels (W1, W2). The reels W1 and W2 may have a diameter of, for example, 380 or 90 mm, a 380 mm diameter reel W1 in one test section and a 90 mm diameter reel W2 in two test sections .

The electronic components CH can be continuously arranged along concentric circles having different diameters at the reel center CP and the electronic components CH in the same concentric circle can be arranged at regular intervals along the component tapes. The X-rays can penetrate the component tape in the width direction, and at the same time, the X-rays can penetrate along the width direction of the electronic component (CH) disposed in the receiving pocket of the component tape. And an image of the electronic component CH stored in each of the reels W1 and W2 can be made by a planar detector. Then, the electronic component CH can be inspected by the obtained image.

When an image for the electronic component CH is obtained, the image of each of the plurality of electronic components can be detected by being divided into the separated electronic component and the overlapped electronic component. The electronic parts overlapping each other can be separated by an appropriate method for calculating the quantity of the electronic parts. When the electronic parts are separated, the quantity of all the electronic parts can be calculated.

The inspection of the electronic component CH can be performed by a method of searching for the electronic component CH along the radial direction with the center as a reference based on the electronic component CH in the different directions. When the electronic component CH is searched along the radial direction, the electronic component CH can be searched based on the reference image along the same diameter. When the inspection of the electronic component CH according to one diameter is completed, the electronic component CH is searched along the direction of the following diameter, and then the electronic component CH along the different diameter is searched based on the searched electronic component CH. Can be searched. In this way, all the electronic components CH disposed on the reels W1 and W2 can be searched.

Electronic components CH disposed on reels W1 and W2 can be inspected in various ways.

4A and 4B illustrate an embodiment of a method of detecting a plurality of electronic components according to the present invention.

FIG. 4A illustrates an embodiment of a method of detecting an electronic component according to the present invention, and FIG. 4B illustrates an embodiment of an X-ray apparatus applied to a detection process of an electronic component according to the present invention.

Referring to FIG. 4A, a method for detecting a plurality of electronic components using an X-ray according to the present invention includes a step P41 of sliding a component inspection tray out of a closed space in a sliding manner; A step (P42) in which a reel wound with a plurality of electronic components is disposed in the component inspection tray; A step (P43) of inserting the component inspection tray into the closed space; And a step (P47) of irradiating the reel with an x-ray image to obtain an x-ray image of the electronic component disposed on the reel by the planar detector, wherein the plurality of electronic components are arranged in a circumferential direction, Lt; / RTI > Further, the method of detecting an electronic component according to the present invention further includes a step (P48) of attaching a bar code according to the inspection result to the reel after the inspection of the electronic component is completed after the x-ray image is acquired.

As shown in FIG. 4B, the X-ray inspection apparatus has a box shape formed by the frame 41. FIG. And an x-ray and a planar detector may be disposed therein. The X-ray examination apparatus can form a closed space, and an observation window 44 can be formed as needed to observe the inside of the X-ray examination apparatus. In addition, a display unit by a touch screen method is arranged and operated by a touch method so that it is not required to be operated by a mouse or a keyboard. Also, the double locking means 43a, 43b are provided so that the two locking means are released so that the operation can be initiated.

The inspection tray can be moved together with the shielding plate 15 and the shielding plate 15 can be moved forward in the process P41 in which the inspection tray is discharged. When the inspection tray is moved to the inside of the closed space (P43), the insertion slit formed in the closed space can be shielded by the blocking plate 15. [ When the shielding plate 15 is locked by the locking means 43a and 43b (P44), the locking state of the shielding plate 15 can be confirmed by the locking sensor 45 (P45). If it is not locked (NO), the movement status of the inspection tray can be confirmed again. On the other hand, if the lock has been confirmed (YES), the X-ray can be irradiated from the X-ray tube to transmit the inspection tray and the reel (P46). The transmitted X-rays can be detected by the planar detector, and the inspection image as shown in Fig. 3 can be obtained by the planar detector (P47). From the inspection image, the arrangement state of the electronic component, the missing state, or the total quantity of the electronic component or the arrangement state of the electronic component can be detected.

The bar code can be attached to the reel corresponding to the part storing means, the reel is positioned in the part inspection tray (P42), and the bar code is inserted into the closed space for the inspection (P43) . Or the bar code can be read before it is introduced into the closed space. The bar code may contain information on the number of parts placed on the reel. When an image of the reel is obtained and the quantity or arrangement state of the electronic component is detected, the calculated quantity of the coincidence can be confirmed. It can also be detected, for example, whether there are overlapping electronic components or whether there is a missing part in a predetermined position of the component tape. And a barcode with this information can be newly created and attached to the reel (P48).

Detection of electronic components can be accomplished in a variety of ways, and the present invention is not limited to the embodiments shown.

The X-ray apparatus according to the present invention enables the quantity calculation or placement inspection of a plurality of electronic components such as the number of the plurality of electronic components from the X-ray image. For example, the X-ray apparatus according to the present invention makes it possible to inspect the quantity or placement state of electronic parts arranged on a component tape in a state where the component tape is wound on the reel. The method of detecting a plurality of electronic components by the X-ray according to the present invention can detect the quantity or arrangement state of each electronic component in a state where each electronic component is disposed in the component storage unit. Further, the method according to the present invention makes it possible to check for missing or damaged parts placement in a parts storage unit in which a plurality of electronic parts are continuously arranged. Further, the inspection apparatus or the inspection method according to the present invention enables inspection or detection without being limited to the arrangement position of each electronic component in the inspection tray.

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.

11: Component Inspection Tray 12: Moving Guide
13: X-ray tube 14: Planar detector
15: blocking plate 16: positioning bracket
17: drive unit 23a, 23b: fixed guide frame
24a, 24b: movement guide member 25a, 25b:
41: frame 43a, 43b: double locking means
44: Observation window 45: Locking sensor
111: rim member 112: inspection plane
171: Protective case 251a, 251b:
271: rotation operation unit 272: linear operation unit
B: Fixed bracket BP: Reference point
CP: Reel center CH: Electronic parts
ER: Parts storage unit HF: Horizontal member
RA1: 1 inspection compartment RA21, R22, R23, R24: 2 inspection compartment
VF: vertical member W1: 380 mm diameter reel
W2: 90 mm diameter reel

Claims (3)

A component inspection tray (hereinafter referred to as " component inspection tray ") having a planar tray on which at least one component storage unit is disposed and movable in and out of the closed space, 11);
An x-ray tube (13) disposed above the sealed space; And
And a planar detector (14) disposed in the closed space for acquiring an x-ray image of the component storage unit from x-rays irradiated from the x-ray tube (13) to the component inspection tray (11)
Wherein at least one inspection zone formed around a reference point (BP) and a reference point (BP) centering on the inspection plane is formed. The x-ray apparatus according to claim 1, wherein at least one component storage unit is a reel, and the quantity of electronic components disposed on the reel is calculated. The component inspection tray being slidably discharged out of the closed space;
Disposing a reel in which a plurality of electronic components are wound on the component inspection tray;
Inserting the component inspection tray into the closed space; And
And a step of irradiating the reel with an x-ray to obtain an x-ray image of the electronic component disposed on the reel by the planar detector,
Wherein the plurality of electronic components comprise a group of components arranged along a circumference having different radii,
Wherein the planar detector has a detection area corresponding to a plane area of the component inspection tray, the plurality of electronic components are disposed at an arbitrary position of the component inspection tray,
Wherein the step of inserting the component inspection tray into the closed space comprises: moving the component inspection tray in a sliding manner, moving the component inspection tray together with the component inspection tray, And sealing the millefeeting space by a shielding plate having a structure suitable for sealing the slit. ≪ RTI ID = 0.0 > 15. < / RTI >

Images