TWM451540U - Testing apparatus - Google Patents

Description

Testing device

The creation is a detection device, in particular a detection device for detecting the empty or missing welding of the material.

With the advancement of technology and the advancement of knowledge, the technology industry has also developed rapidly. How to improve the yield of various products is also a topic of concern to every manufacturer, whether it is materials or processes, or even inspections. In the process, they are interlocking, and in order to detect defects that are difficult for human eyes to see, it is usually necessary to use sophisticated testing instruments to assist in testing. Instrument testing is generally used in the semiconductor industry, such as various types of wafers, integrated circuits and other electronic components, printed circuit boards, or LCD screens, such as surface scratches, flaws, foreign objects and other defects.

At present, most of the technology manufacturers need to detect through optical components when testing with instruments. However, in the conventional inspection machine, when the material is detected, the material is mostly detected by one image sensor, and it can only detect one side of the material. If other surfaces are to be detected, for example, the four sides of the material. At that time, it is necessary to add another imaging element and arrange it in different orientations to perform defect detection on the side of the side. Therefore, at present, the problem of whether there is air welding (no solder joints) or lack of soldering (incomplete solder joints) is to use the method of adding an image sensor to the side of the material. Tested at the place. However, the detection of this method not only causes an increase in cost, but also because the increased image pickup element is additionally placed at the side of the web to detect the side, thereby causing the overall volume of the machine to be excessively large. problem.

Therefore, how to improve the detecting device so that the detecting device can perform a face-to-face inspection on the web, and also can simultaneously weld or weld the solder joint at the side, and reduce the manufacturing cost of the machine and the machine table volume. The reduction is the subject of the creators of the case and those who are engaged in the technical field of this related industry.

In view of this, the present invention proposes a detecting device, which is applied to a machine table, comprising: a loading platform for placing a material piece; an optical detecting module disposed above the loading table for detecting a material piece; and a mirror group, Between the stage and the optical detection module, comprising: a light source module for emitting light to the material; and a reflector coupled to the light source module adjacent to the side of the material; wherein, the projection The light to the side is reflected to the reflector, and the optical detection module takes a side image of the reflector.

Furthermore, the creation further includes a connecting shaft for connecting the optical detecting module and the mirror group. Therefore, the optical detecting module and the mirror group are disposed in the positioning, and the material piece is rotated so that each side of the material piece corresponds to the reflecting plate and is located below the optical detecting module. The optical detection module is displaceable to each side of the web and rotates the optical detection module to interlock the side of each of the reflectors.

The present invention further proposes a detecting device, which is applied to a machine platform comprising: a loading platform for placing a material piece; an optical detecting module disposed above the loading table for detecting a material piece; and a mirror group disposed at the loading Between the stage and the optical detecting module, comprising: a light source module for emitting light to the material; and a second reflecting plate rotatably connected to the light source module adjacent to the two adjacent sides of the material; wherein The light projected to the two sides is reflected to the corresponding reflector, and the optical detection module takes the side images of the two reflectors respectively.

Furthermore, the creation further includes a connecting shaft for connecting the optical detecting module and the mirror group. Accordingly, the optical detecting module and the mirror group are disposed in the positioning, and the material piece is rotated so that each adjacent side of the material piece corresponds to the reflecting plate, and the boundary between the adjacent two sides is located in the optical detecting module. Below. The optical detection module can be displaced above the junction of the two adjacent sides of the web, and rotated optical inspection The module is connected to the reflective plate corresponding to each adjacent side of the web.

The present invention further proposes a detecting device, which is applied to a machine platform comprising: a loading platform for placing a material piece; an optical detecting module disposed above the loading table for detecting a material piece; and a mirror group disposed at the loading Between the stage and the optical detection module, comprising: a light source module for emitting light to the material; and a plurality of reflective plates, adjustably connected to the light source module and adjacent to the sides of the material; wherein, the projection The light on the side is reflected to the corresponding reflector, and the optical detection module takes a side image for each reflector, and takes a top image on the top surface of the chip.

Furthermore, the creation further includes a connecting shaft for connecting the optical detecting module and the mirror group. Therefore, the optical detecting module can be displaced to the upper side of each side of the web, and the reflecting plates respectively correspond to the sides of the web.

The present invention reflects the light projected to the side of the web by a reflecting plate having a reflective material, so that the image capturing element can directly image the four pieces of the material by only one imaging element by taking the image of the reflecting plate. The side is tested, and it is necessary to add additional imaging components to solve the problem of empty or weak soldering of the conventional material, which causes the problem of excessive cost and excessive volume.

The detailed features and advantages of the present invention are described in detail below in the embodiments, which are sufficient to enable anyone skilled in the art to understand the technical contents of the present invention and to implement the present invention, and to disclose the contents, patent claims, and drawings according to the present specification. Anyone familiar with the relevant art can easily understand the purpose and advantages of this creation.

Please refer to FIG. 1 , which is a schematic view of a first embodiment of the creation detecting device. The detection device of the present invention is applied to a machine (not shown), and includes a stage 10, an optical detection module 20, and a mirror group 30.

The stage 10 is a generally rectangular solid structure having a flat surface for placing the web 40. Accordingly, the detection device of the present invention performs the detection of the web 40 in the area of the stage 10. In the present invention, the web 40 has four side rectangular structures, and the inventive detecting device can be used to detect the gap weld or weld defects at the four sides of the web 40. However, the created material 40 is not limited to four sides. The foregoing is merely an example, and the detecting device of the present invention can be used to detect the web 40 containing any number of sides.

The optical detection module 20 is disposed above the stage 10 for detecting the web 40. Therefore, the optical detecting module may preferably be a Charge Coupled Device (CCD) or a Complementary Metal-Oxide-Semiconductor (CMOS), but this creation is not limit.

The mirror group 30 is disposed between the stage 10 and the optical detection module 20, and the mirror group 30 has a light source module 31 and a reflection plate 32. The light source module 31 has a connecting plate 33 and a light source 34. The light source 34 is preferably an annular light source, but the present invention is not limited thereto. Furthermore, the reflecting plate 32 is adjustably connected to one side of the light source module 31, and is preferably connected to the outer side edge of the connecting plate 33 adjacent to the side of the web 40, and the reflecting plate 32 is Adjust the angle of rotation. In addition, the reflecting plate 32 is further provided with a reflective material for reflecting light, and the reflective material (also referred to as an opaque material) may preferably be gold, tin, copper, silver, iron, lead, cadmium, molybdenum or tantalum. , niobium, titanium, tantalum, or other materials, or nitrides thereof, or oxides thereof, or alloys thereof, or combinations thereof, but the present invention is not limited thereto.

Therefore, after the light source module 31 emits light, the light will be projected onto the web 40, and then optically reflected, so that the optical detecting module 20 can perform image detection on the web 40. In addition, the light projected to the side of the web 40 is also optically reflected to the reflector 32, and then adjusted. The angle of the reflector 32 allows light to be reflected back to the optical detection module 20. Therefore, the optical detecting module 20 can obtain the side image of the web 40 on the reflecting plate 32, so that only one optical detecting module 20 is required for the creation of the solder joints on the side of the web 40 or Defect detection for lack of soldering.

Furthermore, the present invention further includes a connecting shaft 50 for connecting the optical detecting module 20 and the mirror group 30, and the connecting shaft 50 is preferably connected to the connecting plate 33, so that the optical detecting module 20 and the mirror group 30 is one.

Please refer to FIG. 2, which is a plan view of the first embodiment of the creation detecting device. When the present invention is to detect the web 40, the optical detecting module 20 and the mirror group 30 may be first positioned, and the web 40 placed thereon may be rotated by rotating the stage 10, or other The web 40 is rotated in such a manner that each of the sides of the web 40 can be corresponding to the reflecting plate 32 after being rotated, and the side edges are located below the optical detecting module 20. Therefore, after the web 40 is rotated, the optical detecting module 20 can take a side image of each side of the web 40 through the reflecting plate 32 and detect it.

Furthermore, the present invention can also move the optical detecting module 20 and the mirror group 30 to the upper side of each side of the web 40 by moving the optical detecting module 20 and the mirror group 30, and simultaneously rotating the optical detecting module. 20, and the mirror group 30 is linked by the connecting shaft 50 so that the reflecting plate can simultaneously move to each side of the web 40. Accordingly, in this way, the side images of each side of the web 40 can also be taken and detected.

Please refer to FIG. 3, which is a schematic view of a second embodiment of the creation detecting device. The second embodiment differs in that the second embodiment has two reflecting plates 32, and the two reflecting plates 32 are adjacent to each other and are adjustably connected to the light source module 31 adjacent to the web 40. Two adjacent sides.

Please refer to FIG. 4, which is a plan view of the second embodiment of the creation detecting device. In the second embodiment, when the test is to be performed, the web 40 placed thereon may be rotated by rotating the stage 10, or the web 40 may be rotated in other manners, so that the web 40 is rotated by each adjacent two. The sides can correspond to the two reflecting plates 32. Therefore, after the web 40 of the second embodiment is rotated, the boundary between two adjacent sides of the web 40 is located below the optical detecting module 20, so that the optical detecting module 20 can simultaneously have two The side is tested, but this creation is not limited to this.

In the second embodiment, after the first two adjacent side edges are detected, the rectangular web only needs to rotate the stage 10 or the web 40 once, so that the remaining two adjacent sides correspond to each other. To the two reflecting plates 32, the detection can be completed. Unlike the first embodiment, after the rectangular material is detected by one side, the stage 10 or the web 40 is rotated three times to complete all the inspections.

In addition, the second embodiment can also move the optical detection module 20 and the mirror group 30 to the upper side of the boundary between two adjacent sides of the web 40 by moving the optical detection module 20 and the mirror group 30. After the detection, the optical detection module 20 is moved and rotated to detect the remaining two adjacent sides.

Please refer to FIG. 5, which is a schematic view of a third embodiment of the creation detecting device. The third embodiment is different in that the third embodiment has a plurality of reflecting plates 32 and is adjustably connected to the light source module 31. In this embodiment, the reflecting plate 32 is preferably four. However, this creation is not limited to this.

Please refer to FIG. 6. FIG. 6 is a plan view (1) of the third embodiment of the creation detecting device. When the size of the web 40 is small, when the optical detecting module 20 and the mirror group 30 are located above the middle of the web 40, the reflecting plates 32 may all be located outside the web 40, so that the optical detecting module 20 can simultaneously A side image is obtained from the side of the web 40, and a top image is obtained from the top surface 41.

Please refer to FIG. 7. FIG. 7 is a plan view (2) of the third embodiment of the creation detecting device. When the web 40 is to be inspected, for example, a rectangular web, such as a rectangular web having a larger size than the outer side of the reflecting plate 32, each of the rectangular webs can be moved by moving the stage 10 or the web 40. One side can be moved under the optical detecting module 20. Since the number of the reflecting plates 32 of the third embodiment corresponds to the number of sides of the rectangular web, the stage 10 or the web 40 of the third embodiment only needs to be made. The displacement can be detected without the need to rotate.

In addition, the third embodiment can also move the optical detection module 20 and the mirror group 30 to the side of the side of the chip 40 by moving the optical detection module 20 and the mirror group 30, and then moving the optical after detecting. The module 20 is tested to detect the remaining sides. Therefore, since the number of the reflection plates 32 of the third embodiment corresponds to the number of sides of the rectangular web, the optical detection module 20 of the third embodiment only needs to be displaced without rotating, and the material can be 40 for testing.

The present invention reflects the light projected to the side of the chip by a reflecting plate having a reflective material, so that the image capturing device can directly image the side of the chip by using only one image capturing element by taking the image of the reflecting plate. It is used for testing and detecting the defects of the side solder joints or the lack of soldering. It is necessary to add additional imaging components to solve the problem of empty soldering or lack of soldering, which causes excessive cost and excessive volume.

Although the technical content of the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention. Anyone who is familiar with the art, and some modifications and refinements that do not depart from the spirit of the present invention should be included in the creation. Therefore, the scope of protection of this creation is subject to the definition of the scope of the patent application.

10‧‧‧ stage

20‧‧‧Optical Inspection Module

30‧‧‧Mirror group

31‧‧‧Light source module

32‧‧‧reflector

33‧‧‧Connecting plate

34‧‧‧Light source

40‧‧‧materials

41‧‧‧ top surface

50‧‧‧Connected shaft

Fig. 1 is a schematic view showing a first embodiment of the creation detecting device.

Fig. 2 is a plan view showing the first embodiment of the creation detecting device.

Fig. 3 is a schematic view showing a second embodiment of the creation detecting device.

Fig. 4 is a plan view showing a second embodiment of the creation detecting device.

Fig. 5 is a schematic view showing a third embodiment of the creation detecting device.

Fig. 6 is a plan view (1) of the third embodiment of the creation detecting device.

Fig. 7 is a plan view (2) of the third embodiment of the creation detecting device.

10‧‧‧ stage

20‧‧‧Optical Inspection Module

30‧‧‧Mirror group

31‧‧‧Light source module

32‧‧‧reflector

33‧‧‧Connecting plate

34‧‧‧Light source

40‧‧‧materials

41‧‧‧ top surface

50‧‧‧Connected shaft

Claims (14)

A detecting device is applied to a machine, comprising: a loading platform for placing a material; an optical detecting module disposed above the loading platform for detecting the material; and a mirror group Between the stage and the optical detection module, comprising: a light source module for emitting a light to the material; and a reflector coupled to the light source module adjacent to the light source module One side of the web; wherein the light projected to the side is reflected to the reflecting plate, and the optical detecting module takes a side image of the reflecting plate. The detecting device of claim 1, wherein the reflecting plate further comprises a reflective material for reflecting the light. The detecting device of claim 1, further comprising a connecting shaft for connecting the optical detecting module and the mirror group. The detecting device of claim 3, wherein the optical detecting module and the mirror assembly are disposed at a position, and the web is rotated such that each side of the web corresponds to a reflecting plate and is located at the same Below the optical inspection module. The detecting device of claim 3, wherein the optical detecting module is displaceable to each side of the web, and rotating the optical detecting module to interlock the reflecting plate with each of the blanks The side. A detecting device is applied to a machine, comprising: a loading platform for placing a piece of material; An optical detection module is disposed above the stage for detecting the material; and a mirror group is disposed between the stage and the optical detection module, and includes: a light source module for transmitting a light is incident on the web; and two reflective plates are adjustably coupled to the light source module adjacent to the adjacent two sides of the web; wherein the light projected to the two sides is reflected to the corresponding one In the reflector, the optical detection module takes a side image of the two reflectors. The detecting device of claim 6, wherein the reflecting plate further comprises a reflective material for reflecting the light. The detecting device of claim 6, further comprising a connecting shaft for connecting the optical detecting module and the mirror group. The detecting device of claim 8, wherein the optical detecting module and the mirror assembly are disposed at a position, and the web is rotated such that each adjacent side of the web corresponds to the reflecting plate. And one of the adjacent ones of the two sides is located below the optical detection module. The detecting device of claim 8, wherein the optical detecting module is displaceable to a position above one of the two sides adjacent to the web, and rotating the optical detecting module to interlock the reflecting plate Each of the two adjacent sides of the web. A detecting device is applied to a machine, comprising: a loading platform for placing a material; an optical detecting module disposed above the loading platform for detecting the material; and a mirror group Between the stage and the optical detection module, comprising: a light source module for emitting a light to the material; and a plurality of reflective plates are detachably connected to the light source module and respectively adjacent to one side of the material; wherein the light projected to the side is reflected to the corresponding reflective plate, and the optical detecting module is A reflector takes a side image and takes a top image of the top surface of the web. The detecting device of claim 11, wherein each of the reflecting plates further comprises a reflective material for reflecting the light. The detecting device of claim 11, further comprising a connecting shaft for connecting the optical detecting module and the mirror group. The detecting device of claim 13, wherein the optical detecting module is displaceable to each side of the side of the web, and the reflecting plates are respectively associated with the side of the web.