JP2018013398A - Inspection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inspection device capable of precisely detecting, even if a packaging material of a small bag not photographed on a transmission image is caught by a seal portion of a large bag, its situation.SOLUTION: An inspection device radiates an X ray to a large bag accommodating a plurality of small bags, and generates a transmission image on the basis of an X ray that has transmitted through the large bag and small bags. An inspection unit examines whether any of the small bags is caught by a seal region of the large bag on the basis of the generated transmission image. The inspection unit determines whether packaging material of any of the small bags is caught by the seal region of the large bag on the basis of a direction of contents in the small bags reflected on the transmission image and distance of the contents from the seal region of the large bag.SELECTED DRAWING: Figure 8

Description

  The present invention relates to an inspection apparatus for inspecting whether or not a small bag containing an article is stored in a large bag, whether or not the small bag is bitten by a seal portion of the large bag.

  For example, when rice crackers such as rice crackers are stored in large bags as they are, they rub against each other and crack or chip. For this reason, high-grade oysters and the like are individually packaged (referred to as a small bag), and further packed into a large bag for sale.

  Such bag-packed products are inspected by an X-ray inspection apparatus on the inspection line for cracks or chipping of the contents contained in the small bag, the presence or absence of foreign matter mixed in the large bag or small bag, and the like. In the inspection of the seal portion of the large bag, for example, a near-infrared inspection apparatus described in the following patent document is used.

Japanese Patent Laying-Open No. 2015-232460

  By the way, in such a bag-packed product, the end of the small bag may be bitten by the seal portion of the large bag. However, in the conventional X-ray inspection apparatuses, since it is difficult to detect the packaging material of the small bag, even if it is bitten in the seal portion of the large bag, it cannot be detected. Moreover, since the apparatus described in Patent Document 1 detects bending of the seal portion of the large bag, biting of the small bag is not detected.

  The present invention solves this problem, and it is an object of the present invention to provide a new inspection device that can accurately detect when a packaging material of a small bag is caught in a seal portion of a large bag. To do.

An inspection apparatus according to the present invention irradiates a large bag containing a plurality of small bags with electromagnetic waves, generates a transmission image based on the electromagnetic waves transmitted through the small bags, and based on the generated transmission images An inspection section for inspecting the presence or absence of biting of the small bag into the seal region of the large bag,
The inspection unit is configured to determine whether the sachet bites into the seal region based on the direction of the content in the sachet projected on the transmission image and the distance of the content from the seal region of the sachet. It is characterized by determining the presence or absence.

  The electromagnetic wave used here is, for example, an X-ray having a wavelength of about 1 pm to 10 nm. When irradiating the large bag that is moving with this X-ray, the transmitted X-ray is detected by a line sensor. The line sensor has a plurality of X-ray detection elements arranged in a direction orthogonal to the carrying direction of the large bag, and outputs a scanning image for each line by scanning the output of each detecting element in accordance with the carrying of the large bag. . The image generation unit expands the scan image for each line output in this manner in a two-dimensional manner on the memory to generate a transmission image of the entire large bag. However, instead of the line sensor, a two-dimensional transmission image may be generated by imaging the entire large bag with a two-dimensional imaging sensor in which X-ray detection elements are arranged in a matrix.

  Although the packaging material of the sachet is not copied in the transmission image generated in this way, the contents are copied, so the inspection unit determines the distance from the contents to the sealing area of the large bag and the direction of the contents. Based on this, it is inspected whether or not the small bag is bitten into the seal region of the large bag.

  Here, not only the distance but also the direction of the contents is examined because even if the sachet is close to the seal region of the large sachet, the contents may not be bitten depending on the direction of the contents. For example, if the contents are rectangular or elliptical, there are flat seal portions at both ends in the longitudinal direction of the small bag that accommodates the contents, and these portions are easily bitten by the seal portion of the large bag. However, since there is not enough packaging material to be bitten in the abdomen of the contents in the direction perpendicular to it, if the direction of the contents is almost parallel to the seal part of the large bag, for example, the small bag will seal the large bag Even if it is close to the part, the pouch is not bitten by the large pouch.

  Therefore, the inspection unit estimates the area on the image of the sachet containing the contents from the area on the image occupied by the contents of the sachet and the direction thereof, and the estimated area is applied to the seal area of the large bag. It is judged that there is a bite. In this case, it is not necessary to examine all the contents, examine what the contents are close to the seal area of the large bag, if there is a bite if the estimated area of the small bag is hanging on the seal area of the large bag, If not, it is determined that there is no biting.

  To check the orientation of the contents, find the part that can be regarded as a straight line in the contour area (area with a predetermined width along the contour line) on the image of the target content, and check the content from the slope of the straight line part. Determine the direction of the object. Specifically, the Hough transform is performed on a region having a predetermined width along the contour line on the image where the contents are projected. The Hough transform is widely used as a feature extraction method for graphics, and by using this, the straight portion of the content can be obtained, and the direction of the content can be known from the direction of the straight portion.

  By the way, when a plurality of sachets are filled in a large bag, the sachets accumulate at the bottom of the large sachet, so if some sachets remain near the upper seal area that is the opening of the large sachet, There is a high possibility of being caught in the upper seal region. On the other hand, if all the small bags are sinking to the bottom of the large bags, it can be determined that no biting has occurred.

  Therefore, when the majority of the contents are reflected near one seal area of the large bag having the seal areas at both ends, the inspection section has a seal on the opposite side to the seal area in the contents. Before examining the direction of the contents of the contents close to the area, obtain the distance between the contents and the seal area on the opposite side, and if the obtained distance is a distance that does not cause biting, the contents It is characterized in that it is determined that the sachet in which the object is stored is not bitten in the opposite seal area.

  However, when the obtained distance is a distance at which biting may occur, for the contents close to the seal area on the opposite side, further determine the direction of the contents, and based on the obtained direction and distance Then, it is determined whether or not the contents are bitten.

  However, if the contents are like a disk-shaped “Senbei”, the orientation of the contents cannot be specified. In this case, the sachet is unevenly distributed in the large bag and the large bag is sealed. The presence or absence of biting is determined based on the distance from the.

  That is, when the inspection unit is a sachet in which the direction of the contents cannot be specified, a part of the contents appears in the vicinity of one seal region of the large bag having a seal region at both ends, and near the other seal region. If most of the remaining contents are shown in FIG. 1, the small bag is one seal area of the large bag based on the distance between the one and the one seal area. It is characterized in that it is determined whether or not it is bitten.

  Thereby, even when the direction of the contents cannot be specified, it is possible to inspect whether or not the small bag is bitten into the seal region of the large bag.

  According to the present invention, it is possible to accurately detect the biting of the small bag into the seal portion of the large bag even if the packaging material of the small bag is not projected on the transmission image.

1 is an external perspective view of an embodiment of an inspection apparatus according to the present invention. The perspective view which shows schematic structure inside the inspection apparatus which concerns on the said embodiment. The functional block diagram of the said inspection apparatus. The external appearance perspective view which shows an example of a small bag. The figure which shows an example of the permeation | transmission image produced | generated by the image generation part. The figure which binarized the transmission image of FIG. Explanatory drawing which calculates | requires the area | region which a small bag occupies from the direction of the content of a small bag. Explanatory drawing which detects the biting of a small bag from the area | region of the small bag in a large bag. Explanatory drawing which judges the presence or absence of the biting in case a small bag is unevenly distributed in the bottom of a large bag. Explanatory drawing which detects biting from the area | region of the small bag which accommodated the disk-shaped content.

  Hereinafter, an embodiment of an inspection apparatus according to the present invention will be described with reference to the drawings. In addition, embodiment shown below does not limit the technical scope of this invention.

  FIG. 1 shows an external perspective view of an inspection apparatus 1 introduced into a final inspection line such as rice crackers, and FIG. 2 shows a schematic configuration inside the inspection apparatus. In these drawings, a carry-in conveyor 10 is connected to the entrance side of the inspection apparatus 1, and a carry-out conveyor 20 is connected to the exit side. And the large bag B (refer FIG. 2) conveyed from the upstream is carried in into the inspection apparatus 1 from the carrying-in conveyor 10, and while passing there, a foreign material mixing inspection, a cracking chip inspection, and a small bag biting inspection are performed. It is carried out and delivered to the carry-out conveyor 20. The sent large bag B that has been sent out is conveyed to the packing line via the downstream sorting device 30 (see FIG. 3). Moreover, the inspection result in the inspection device 1 is transmitted to the downstream sorting device 30, and defective products that reach the distribution device 30 are transported out of the line and non-defective products are transported to the packing line as they are.

  The inspection apparatus 1 includes a shield box 2 that shields X-rays, a transport conveyor 3 that is bridged between the entrances and exits of the seal box 2, and an irradiation unit 4 in FIG. The line sensor 5 that detects the irradiated X-rays, the operation screen and the touch panel 6 shown in FIG. 1 for inputting various setting items necessary for the inspection by operating the operation screen, and these, Control means 7 to be described later for controlling, and support legs 8 for supporting the entire apparatus including the shield box 2 are provided.

  The conveyance conveyor 3 of FIG. 2 is configured by a belt conveyor that is stretched between the entrance and the exit of the shield box 2, and conveys the large bag B at a set speed. In addition, shield shields 9 for preventing X-ray leakage are provided at the entrance and the exit of the shield box 2.

  The irradiation unit 4 includes an X-ray tube that irradiates X-rays, and a collimator (not shown) that irradiates the X-rays irradiated from the X-rays in a fan shape in a direction orthogonal to the conveyance direction F of the large bag B. The X-rays irradiated toward the line sensor 5 pass through the large bag B and the belt of the conveyor 3 and are input to the line sensor 5.

  The line sensor 5 is composed of a plurality of photodiodes linearly arranged in a direction orthogonal to the conveyance direction F of the large bag B, and a plurality of scintillators stacked thereon, and the X-ray transmitted through the large bag B is The light is converted into light by each scintillator, and the light is converted into an electric signal by each photodiode and output as a transmission signal. The transmitted signal output in this way is converted into a digital quantity by an A / D converter (not shown) and then input to the control means 7 described later.

  The touch panel 6 in FIG. 1 is configured by a full-dot display liquid crystal display, and by operating an operation screen displayed on the touch panel 6, operation conditions and inspection conditions necessary for the inspection apparatus 1 can be set. . In addition, on the initial screen before the start of operation, the speed of the conveyor 3 and the X-ray intensity of the irradiation unit 4 can be set. On the screen after the start of operation, for example, detection sensitivity when processing an X-ray transmission image In addition, settings for X-ray output and dark area emphasis, operation for optimizing the density level of the transmitted image, planar size of the pouch, width of the seal portion of the large pouch, and the like can be input.

  FIG. 3 shows a configuration block diagram of the inspection apparatus 1. In this figure, the control means 7 is composed of a computer and is connected to the transport conveyor 3, the irradiation unit 4, the line sensor 5, and the touch panel 6 to control them, and is also connected to a downstream sorting device 30. The inspection result is transmitted to the sorting device 30.

  The control unit 7 includes a CPU 11, a ROM 12, and a RAM 13, and includes a large-capacity CF card (flash memory type memory card) 14 and a storage medium insertion drive 15 via an address bus or a data bus. Are connected to each other.

  The ROM 12 and the CF card 14 store programs such as foreign matter contamination inspection, crack chipping inspection, and bite inspection, and the CF 14 card further includes the planar size of the small bag b (see FIG. 4) and the width of the seal portion of the large bag B. Etc. are stored.

  The CPU 11 in FIG. 3 shows functions realized by executing various programs. The image generation unit 11a expands the image signal input from the line sensor 5 on the RAM 13 and generates a two-dimensional transmission image. The inspection unit 11b inspects whether or not the small bag b is caught in the seal region of the large bag B. The crack detection unit 11c detects a crack or chip in the contents stored in the small bag b. The foreign matter detector 11d detects foreign matter in the large bag B or the small bag b based on the transmission image. Among these functions, each function excluding the inspection unit 11b is also provided in the conventional apparatus, so that the function of the inspection unit 11b will be described in detail below.

  FIG. 4 shows an example of a small bag b stored in the large bag B of FIG. The pouch b is a thin film sealed at both ends, and rice crackers such as rice cake are stored one by one. On the other hand, the upper and lower openings of the large bag B are sealed with a thick aluminum vapor deposition film. Accordingly, as shown in FIG. 5, the transmission image of the large bag B containing a plurality of small bags b does not show the packaging material of the small bag b, but only the outer shape of the large bag B and the contents m of the small bag b. It becomes.

  The image generation unit 11a binarizes the transmission image of FIG. 5 with a predetermined threshold, and generates a binarized image as shown in FIG. After removing noise from the binarized image, the inspection unit 11b specifies areas of the contents m1, m2, and m3 near the upper seal area R1 of the large bag B by labeling processing or the like. Subsequently, the Hough transform is performed on a boundary portion of the specified region, that is, a region having a predetermined width along the contour lines of the contents m1, m2, and m3.

  When the Hough transform is executed, a straight line LL indicated by a white line can be drawn in a portion that can be regarded as a straight line in a region along the outline of the content m, as shown in FIG. In this embodiment, two parallel straight lines LL are shown, but the straight lines LL differ depending on the shape of the content m. When the straight line LL is obtained in this way, the direction of the content m is known, so the midpoint A in the width direction of the content m is obtained, and a point B at a preset distance L1 from the midpoint A is obtained. This point B is the end in the width direction of the pouch b. Next, starting from the tip C of the content m in the direction along the straight line LL, a point D at a preset distance L2 is obtained therefrom. This point D is the longitudinal end of the pouch b. When a rectangular virtual line (dotted line) passing through the points B and D thus obtained is drawn, the drawn area becomes the area of the pouch b. Note that the distances L1 and L2 used here are converted from the pre-registered dimensions of the pouch b to the distances on the image.

  Next, as shown in FIG. 8, the inspection unit 11b checks whether or not the regions of the small bags b1, b2, and b3 obtained for the contents m1, m2, and m3 are on the seal region R1 of the large bag B. Specifically, the distance from the tip of each of the pouches b1, b2, and b3 to the seal region R1 is obtained. If the obtained distance is positive, it is determined that there is no biting, and if it is negative, it is determined that biting is present. Therefore, in FIG. 8, the inspection unit 11b determines that the sachet b2 is bitten.

  In this way, when the inspection unit 11b determines that the bite is present, the control unit 7 notifies the downstream sorting device 30 as a defective product. When the sorting device 30 receives the defective product signal, the sorting device 30 discharges the defective product to the outside of the line when the defective product arrives there. The discharged defective product is reexamined in detail by an operator. If there is a bite, the large bag B is opened and the normal small bag b is returned to the packaging line. This prevents shipment of defective products.

  In addition, as shown in FIG. 9, the inspection unit 11b has a content m when the majority of the content m is reflected near one seal region R2 of the large bag B having the seal regions R1 and R2 at both ends. For the content m1 close to the seal region R1 on the side opposite to the seal region R2 in the content m, the distance L3 between the content m1 and the seal region R1 that is the upper portion of the bag Ask for. Subsequently, if the obtained distance L3 is a sufficient distance that does not cause biting, it is determined that the sachet in which the content m1 is stored is not bitten in the opposite seal region R1.

  However, when the obtained distance L3 is a distance at which biting may occur, the inspection unit 11b subsequently obtains the direction of the content m1, and based on the obtained direction and the area of the content m1. The area of the sachet b1 in which the content m1 is stored is obtained. And if the calculated | required area | region has applied to seal | sticker area | region R1, it will be judged that there exists biting.

  However, when the shape of the contents is a disk-shaped “Senbei” as shown in FIG. 10, the direction of the contents cannot be specified. In that case, the inspection part 11b shows the contents m of some of the small bags b in the vicinity of one seal region R1 of the large bag B having the seal regions R1 and R2 at both ends, and the contents in the opposite seal region R2. When most of the object m is shown, there is a high possibility that some of the small bags b are bitten in the seal region R1 of the large bag B.

  Therefore, the inspection unit 11b examines how far the content m shown near one seal region R1 is from the seal region R1, and the distance between the two is within the assumed maximum region of the pouch b. If so, it is determined that there is a bite. As shown in FIG. 10, the maximum region at this time is the maximum when the corner of the pouch b is closest to the seal region R1, and if the distance between the two in that state is negative, Judge that there is bite.

  In order to realize such inspection, if the size of the sachet b is registered for each product in the inspection device 1 and the content of the product designated on the touch panel 6 is elliptical or rectangular as shown in FIG. A program for inspecting the bite of the pouch based on the direction and distance of the contents is read out. Further, if the disk shape is as shown in FIG. 10, a program for inspecting biting is read based on the uneven distribution state of the small bag b in the large bag B and the separation distance between the small bag b adjacent to one seal region R1. It is supposed to be.

  As mentioned above, although one Embodiment of this invention was described, this invention is not limited to this, Other embodiment is also employable. For example, depending on the shape of the sachet, the presence or absence of biting may be determined by the uneven distribution of the sachet in the large bag B. For example, when the small bag is not shown in the upper 1/3 to 1/4 region of the large bag B, it may be immediately determined that the upper seal region is not biting the small bag. In such a case, the inspection unit can determine the presence or absence of biting only by examining the uneven distribution state of the small bag in the large bag. Then, the bite inspection can be completed quickly.

b small bag B large bag m contents 11a image generation unit 11b detection unit R1 seal region

Claims (3)

An image generating unit that irradiates a large bag containing a plurality of small bags with electromagnetic waves, and generates a transmission image based on the electromagnetic waves transmitted through the small bag, and the small bag to the sealing region of the large bag based on the generated transmission image An inspection unit for inspecting the presence or absence of biting,
The inspection unit is configured to determine whether the sachet bites into the seal region based on the direction of the content in the sachet projected on the transmission image and the distance of the content from the seal region of the sachet. An inspection apparatus characterized by determining the presence or absence.   When most of the contents are in the vicinity of one seal area of a large bag having a seal area at both ends, the inspection section has a seal area opposite to the seal area in the contents. For the near contents, the distance between the contents and the opposite seal area is obtained, and if the obtained distance is a distance that does not cause biting, the sachet in which the contents are stored is sealed with the opposite seal. The inspection apparatus according to claim 1, wherein it is determined that the area is not bitten.   When the inspection unit is a sachet in which the direction of the contents cannot be specified, a part of the contents appears in the vicinity of one sealing region of the large bag having a sealing region at both ends, and in the vicinity of the other sealing region. When most of the remaining contents are shown, the sachet is placed in one seal area of the large bag based on the distance between the contents shown near the one seal area and the one seal area. The inspection apparatus according to claim 1, wherein it is determined whether or not it is bitten.