JP2019049431A - Article inspection device and article inspection system - Google Patents

Abstract

To provide an article inspection device capable of easily specifying a specimen to be an object by storing not only determination result and data as an inspection object, but also information related to inspection.SOLUTION: An article inspection device includes: an inspection section 3 for outputting a detection signal according to the kind and size of a foreign body contained in a specimen W or a detection signal according to the weight of the specimen W; a determination section 5 for determining the quality of the specimen W on the basis of the detection signal from the inspection section 3; and an inspection data storage section 9 for storing information including a margin of the detection signal as inspection data of the specimen W which has been determined to be non-defective by the determination section 5.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an article inspection apparatus for inspecting the quality of an object to be inspected such as, for example, meat, fish, processed food, and pharmaceuticals.

  Conventionally, a weight measurement device, an X-ray inspection device, a metal detection device and the like are known as an article inspection device for inspecting the quality of an inspection object. Such a conventional weight measuring device measures the mass of the transported inspection object, determines whether the obtained measurement value is within the reference range, and determines whether the non-defective item within the reference range is other than that. We sort out good products. Moreover, the conventional X-ray inspection apparatus irradiates X-rays to the to-be-inspected object to be transported, and detects whether foreign matter is mixed in the to-be-inspected object from the transmission amount of the irradiated X-rays . Also, in the conventional metal detection device, whether or not metal is mixed in from the detection output when passing the inspection object in the alternating magnetic field, generating the alternating magnetic field in the transport line and passing the inspection object in the alternating magnetic field Is detected.

  In Patent Document 1, in an X-ray inspection apparatus, an X-ray inspection image, a foreign substance determination result, and an X-ray irradiation time are recorded so that the fact of foreign substance mixing due to a complaint from a final consumer can be easily confirmed. Is described.

JP 2004-28821 A

  However, in the X-ray inspection apparatus described in Patent Document 1, although it is possible to confirm the X-ray inspection image of the inspected object that has made a complaint, when it is necessary to recover a specific inspected object , X-ray examination image must be completely reviewed or X-ray examination image must be re-examined.

  Therefore, the present invention is to provide an article inspection apparatus capable of easily identifying the object to be inspected by storing not only the determination result and the data to be inspected but also the related information of the inspection. The purpose is.

  In the article inspection apparatus according to the present invention, an inspection unit that outputs a detection signal indicating a quality state of the inspection object, a determination unit that determines the quality of the inspection object based on the detection signal, and the non-defective item And a test data storage unit that stores information including the degree of margin of the detection signal as test data of the test object determined.

  With this configuration, the margin of the detection signal is stored as inspection data of the inspection object determined by the determination unit as a non-defective product. For this reason, the to-be-tested object used as object can be easily specified based on the margin of a detection signal.

  In the article inspection apparatus according to the present invention, the defect rate immediately before the inspection object is stored as the inspection data.

  With this configuration, the defect rate immediately before the inspection object is stored as inspection data of the inspection object determined by the determination unit as a non-defective product. For this reason, the to-be-tested object used as object can be easily specified based on the defect rate in front of a to-be-tested object.

  Further, in the article inspection apparatus of the present invention, the inspection data is deleted based on the contents of the inspection data.

  According to this configuration, the inspection data is deleted based on the content of the inspection data. Therefore, the amount of use of the inspection data storage unit can be reduced.

  Further, an article inspection system according to the present invention includes at least one article inspection apparatus of any of the above-described article inspection apparatuses, and a server apparatus that performs predetermined data processing based on the inspection data.

  According to this configuration, inspection data of the article inspection device is processed by the server device. For this reason, data processing can be performed by a server apparatus with high processing capacity, and an object to be inspected can be easily identified.

  The present invention can provide an article inspection apparatus capable of easily identifying an object to be inspected.

FIG. 1 is a schematic configuration view of an article inspection apparatus according to an embodiment of the present invention. FIG. 2 is a flow chart for explaining the procedure of the inspection data storage process of the article inspection apparatus according to the embodiment of the present invention. FIG. 3 is a flowchart illustrating the procedure of data processing of inspection data of the article inspection apparatus according to the embodiment of the present invention.

  Hereinafter, an article inspection apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

  The article inspection apparatus 1 according to an embodiment of the present invention is incorporated in a production line (not shown) on which the inspection object W such as raw meat, fish, processed food, medicines and the like is conveyed, and is mixed in the inspection object W The inspection is performed on the inspection of the foreign matter, the defect, or the like, or the inspection whether the weight of the inspection object W is within the specified range.

  In FIG. 1, the article inspection apparatus 1 includes a transport unit 2, an inspection unit 3, a display operation unit 4, a determination unit 5, a general control unit 6, and an inspection data storage unit 9.

  The conveyance unit 2 sequentially conveys the inspection object W of the kind set in advance by the display operation unit 4 and is configured of, for example, a belt conveyor disposed horizontally to the apparatus main body.

  Further, the transport unit 2 is driven by a drive motor (not shown) so as to transport the carried-in test object W in the direction of the arrow in FIG. 1 (right direction in FIG. 1) at a predetermined transport speed set in advance. It has become.

  The inspection unit 3 outputs a detection signal according to the type and size of the foreign substance contained in the inspection object W or a detection signal according to the weight of the inspection object W as a signal indicating the quality state of the inspection object W It is supposed to be. When the article inspection apparatus 1 is configured as a metal detection apparatus, the inspection unit 3 generates an alternating magnetic field of a predetermined frequency, and outputs a signal corresponding to the change of the magnetic field by the inspection object W passing through the alternating magnetic field. The configuration is as follows. The metal contained in the inspection object W may be magnetized by a magnetizer such as a magnet, and the residual magnetism of the magnetized metal may be detected by a magnetic sensor.

  Further, the inspection unit 3 in the case where the article inspection apparatus 1 is configured as an X-ray inspection apparatus includes an X-ray generation source and an X-ray detector, and is irradiated with X-rays from the X-ray generation source. The X-ray detector detects X-rays transmitted through the inspection object W, and outputs a detection signal according to the transmission amount. The X-ray detector includes, for example, a plurality of photodiodes arranged in a line in a direction perpendicular to the transport direction of the inspection object W transported by the transport unit 2 and a scintillator provided on the photodiodes. An array of line sensors is used. Such an X-ray detector receives X-rays transmitted through the inspection object W by the scintillator and converts them into light, and converts the light into an electric signal by the photodiode arranged therebelow and outputs it. It has become. That is, an electrical signal corresponding to the amount of X-ray transmission is output.

  In the case where the article inspection apparatus 1 is configured as a weight measuring apparatus, the inspection unit 3 uses a weighing mechanism such as an electromagnetic balance mechanism or the like, with a part of the transport unit 2 as a weighing platform and disposed below the weighing platform. The load sensor configured as described above is configured to measure the load of the inspection object W placed on the weighing platform, and to output a signal according to the load. The load sensor may be any scale mechanism capable of measuring the weight, and may be configured by, for example, a scale mechanism such as a differential transformer mechanism or a strain gauge mechanism.

  The display operation unit 4 is configured of a touch panel having both an input operation function and a display function. As the input operation function, the setting operation of the type of the inspection object W to be transported by the transport unit 2 It is configured to perform various setting operations and instruction operations regarding foreign matter detection and measurement. In addition, the display operation unit 4 is provided with various operation buttons such as an operation button for instructing the start of the operation of the article inspection device 1, a stop button for instructing the operation stop of the object inspection device 1, and a menu button.

  In addition, as the display function, the display operation unit 4 performs various displays such as setting values when setting the type of the inspection object W is performed, instruction values when performing the instruction operation, various determination results, and the like. It is supposed to be.

  Note that the display operation unit 4 may have a configuration in which the input operation function and the display function are independent. In this case, for the input operation function, a plurality of keys, switches, etc. on which the input operation such as setting or instruction is performed. While being provided, a liquid crystal display or the like can be provided for the display function.

  The determination unit 5 compares the determination target value with the threshold value to be determined based on the detection signal from the inspection unit 3 to determine whether the foreign matter is included in the inspection object W, the inspection object W While making a quality decision such as whether or not the weight of the item is within a predetermined range, or the presence or absence of an out-of-stock item, a screen including the inspection result (the result of the quality decision) is displayed on the display operation unit 4.

  As the determination target value, the detection signal may be used as it is, or a processing value such as a filter for reducing an erroneous determination due to noise or an influence of an article or the like is used to determine the detection signal. May be

  When the magnitude of the detection signal from the inspection unit 3 is within the preset threshold value, the determination unit 5 determines that the inspection object W is a non-defective item.

  When the item inspection device 1 is configured as a metal detection device, the determination unit 5 determines that the determination target value based on the change amount of the magnetic field indicated by the magnitude of the detection signal from the inspection unit 3 is equal to or less than a preset threshold. The test object W is determined to be non-defective.

  When the item inspection apparatus 1 is configured as an X-ray inspection apparatus, the determination unit 5 determines that the determination target value based on the X-ray transmission amount indicated by the magnitude of the detection signal from the inspection unit 3 is a preset threshold or more. If there is, it is determined that the inspection object W is a good product.

  When the article inspection device 1 is configured as a weight measurement device, the determination unit 5 applies the object when the weight based on the magnitude of the detection signal from the inspection unit 3 is less than or equal to a preset upper limit value and not less than a lower limit value. It is determined that the inspection object W is a non-defective product.

  The general control unit 6 controls the whole of the article inspection apparatus 1 and includes a storage unit 7 and a control unit 8.

  The storage unit 7 is configured to store various programs for the control unit 8 to control the article inspection apparatus 1 and various parameters for the determination unit 5 to perform quality determination on the inspection object W.

  The control unit 8 executes a program stored in the storage unit 7 to change parameters of the determination unit 5 and various controls of the article inspection apparatus 1 and the like.

  The control unit 8 causes the inspection data storage unit 9 to use detection data (weight measurement value, detection signal) based on the detection signal of the inspection unit 3 used for the determination of each inspection object W for which the determination result by the determination unit 5 is good. Maximum value in the inspection object W of the judgment target value based on the maximum value of the intermediate value in the inspection object W in the middle stage before signal processing the detection signal to obtain the judgment object value, etc.) detection signal The waveform data etc. based on are stored as test data.

  The control unit 8 stores weight information on non-defective inspection results as inspection data in association with the inspection date and time, and the margin of the detection signal of the inspection unit 3, the defect rate up to the inspection time, inspection Date, inspection time, elapsed time from activation of the article inspection apparatus 1, information on the manufacturing line on which the article inspection apparatus 1 is installed, information on the person in charge of operating the article inspection apparatus 1, and the like are stored as inspection data.

  The margin of the detection signal indicates, for example, the margin until the inspection object W is determined to be defective, based on the difference between the determination target value when the determination unit 5 determines the detection signal and the threshold value. The margin of the detection signal decreases as the difference with the threshold decreases. The degree of margin of the detection signal may be the value of the difference itself, or may be a value obtained by converting the value of the difference into a multistage margin.

  When there is an upper limit value and a lower limit value as the threshold as in the case where the article inspection apparatus 1 is configured as a weight measurement apparatus, the margin of the detection signal stores the difference between the upper limit value and the lower limit value, The vicinity of the middle value between the upper limit value and the lower limit value may be set as the maximum value of the margin degree, and the margin degree may be lowered as the upper limit value and the lower limit value are approached.

  As the defect rate up to the inspection point, for example, the defect rate of the inspection object W by a predetermined number from the inspection object W immediately before the inspection object W currently to be inspected is used.

  As information on a production line, information identifying a production line, a lot number of a product, and the like are stored.

  The information of the person in charge of operating the article inspection apparatus 1 stores the information of the person in charge of the operation in the article inspection apparatus 1 when the information of the person in charge of the operation is acquired by the login process.

  The control unit 8 searches the inspection data stored in the inspection data storage unit 9 according to the condition setting by the operation to the display operation unit 4 and causes the display operation unit 4 to display it.

  The control unit 8 is the margin of the detection signal of the inspection unit 3, the defect rate up to the inspection time, the inspection date and time, the elapsed time since the start of the article inspection device 1, information on the manufacturing line in which the article inspection device 1 is installed, A condition is set in the information of the person in charge of operating the article inspection apparatus 1 and the like, and the information on the inspection object W satisfying the condition is displayed on the display operation unit 4.

  By doing this, it is possible to easily search for a product with the same margin as the product that has made a complaint, a product with a high defect rate up to the inspection time, and the like.

  Incidentally, even if inspection data stored in the inspection data storage unit 9 can be read out from a computer system such as a server device via a communication medium such as a network, even if search and data processing are performed by the computer system. Good.

  Further, the examination data may be transmitted to a computer system such as a server apparatus via a communication medium such as a network, and the examination data may be accumulated by the computer system to perform search and data processing.

  By doing this, a large amount of examination data can be stored as compared with the case of storing in the examination data storage unit 9. Further, various processing can be performed at high speed as compared with the case where the control unit 8 performs search and data processing.

  Further, search and data processing may be performed with reference to inspection data of the plurality of article inspection devices 1 by the server device.

  By doing this, the search can be performed from the inspection data of the plurality of article inspection apparatuses 1, and the operation can be performed efficiently. Further, data processing can be performed based on inspection data of the plurality of article inspection devices 1, and quality control of the plurality of article inspection devices 1 can be easily performed.

  The control unit 8 deletes the inspection data stored in the inspection data storage unit 9 based on the content of the inspection data.

  For example, the control unit 8 may delete information of the inspection object W in which a preset time has elapsed from the examination date and the margin of the detection signal is higher than a preset value.

  By doing this, inspection data having a high margin of detection signals and having a low possibility of being a target of recovery due to a complaint or the like can be deleted, and the amount of use of the inspection data storage unit 9 is reduced. be able to.

  For example, the control unit 8 may delete information on a product whose expiration date has been determined, when the expiration date has passed.

  By doing this, it is possible to delete the inspection data which is not expected to be used after the expiration date, and the amount of use of the inspection data storage unit 9 can be reduced.

  The inspection data accumulation process by the article inspection apparatus 1 according to the present embodiment configured as described above will be described with reference to FIG. The inspection data accumulation process described below is started when the inspection by the determination of the determination unit 5 of each inspection object W ends.

  In step S1, the control unit 8 determines whether the inspection result is a non-defective product. If it is determined that the inspection result is not a non-defective item, the control unit 8 ends the process.

  If it is determined in step S1 that the inspection result is a non-defective product, in step S2, the control unit 8 collects the information to be the inspection data described above and performs the processing for those which require processing such as calculation.

  In step S3, the control unit 8 stores the collected examination data in the examination data storage unit 9, and ends the process.

  Next, data processing of inspection data by the article inspection apparatus 1 according to the present embodiment will be described with reference to FIG. Note that data processing of examination data described below is started by a data processing request by an operation on the display operation unit 4.

  In step S11, the control unit 8 causes the display operation unit 4 to display a message and a condition setting screen to set processing conditions.

  In step S12, the control unit 8 performs data processing in accordance with the set processing conditions.

  In step S13, the control unit 8 outputs the result of the data processing to the display operation unit 4 and ends the processing.

  The output in step S13 may be output as data to the storage unit 7 or the inspection data storage unit 9. Further, data processing of inspection data is executed by the server device when the inspection data can be referred to from the above-described server device.

  As described above, in the above-described embodiment, as the inspection data of the inspection object W for which the determination result by the determination unit 5 is a non-defective item, the margin of the detection signal of the inspection unit 3, the defect rate up to the inspection time, the inspection time The inspection data storage unit 9 stores information such as an elapsed time from activation of the article inspection apparatus 1, information on a manufacturing line on which the article inspection apparatus 1 is installed, information on a person in charge of operating the article inspection apparatus 1, and the like.

  Thereby, the to-be-tested object W used as object can be easily specified based on the information memorize | stored as test | inspection data.

  In addition, inspection data stored in the inspection data storage unit 9 is configured to be readable from a server device or the like via a communication medium such as a network.

  Thus, various processes can be performed at high speed as compared to the case where the control unit 8 performs a search or data processing.

  Alternatively, the inspection data may be transmitted to a server device or the like via a communication medium such as a network, and the inspection data may be accumulated by the server device or the like, and search or data processing may be performed by the server device or the like.

  Thereby, a large amount of inspection data can be stored as compared with the case of storing in the inspection data storage unit 9. Further, various processing can be performed at high speed as compared with the case where the control unit 8 performs search and data processing.

  While embodiments of the present invention have been disclosed, it will be apparent to one skilled in the art that modifications can be made without departing from the scope of the present invention. All such modifications and equivalents are intended to be included in the following claims.

DESCRIPTION OF SYMBOLS 1 Article inspection apparatus 3 Inspection part 5 Judgment part 8 Control part 9 Inspection data storage part

Claims (4)

An inspection unit (3) for outputting a detection signal representing a quality state of the inspection object (W);
A determination unit (5) that determines the quality of the inspection object based on the detection signal;
An inspection data storage unit (9) storing information including the margin of the detection signal as inspection data of the inspection object determined as non-defective by the determination unit.   The article inspection apparatus according to claim 1, wherein a defect rate immediately before the inspection object is stored as the inspection data.   The article inspection apparatus according to claim 1, wherein the inspection data is deleted based on the content of the inspection data. At least one article inspection apparatus of the article inspection apparatus according to any one of claims 1 to 3.
A server device that performs predetermined data processing based on the inspection data;
An article inspection system comprising:

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