JP7212446B2 - Article inspection device and article inspection system - Google Patents

Description

The present invention relates to an article inspection apparatus for inspecting the quality of inspection objects such as meat, fish, processed foods, and pharmaceuticals.

Conventionally, weight measurement devices, X-ray inspection devices, metal detection devices, and the like are known as article inspection devices for inspecting the quality of objects to be inspected. Such a conventional weight measuring apparatus measures the mass of a transported object to be inspected, determines whether the obtained measured value is within a standard range, and determines whether non-defective items within the standard range and non-defective items. Good products are sorted out. Further, the conventional X-ray inspection apparatus irradiates X-rays onto a transported object to be inspected, and detects whether or not foreign matter is mixed in the object to be inspected from the amount of transmission of the irradiated X-rays. . In addition, in the conventional metal detector, an alternating magnetic field is generated in a conveying line, an object to be inspected is passed through the alternating magnetic field, and whether or not metal is mixed is determined from the detection output when passing through the magnetic field. is detected.

Patent Document 1 discloses that an X-ray inspection apparatus records an X-ray inspection image, a result of determination of a foreign object, and an X-ray exposure time so as to easily confirm the presence of foreign matter in response to a complaint from a final consumer. is described.

JP-A-2004-28821

However, in the X-ray inspection apparatus described in Patent Document 1, although it is possible to check the X-ray inspection image of the object to be inspected for which there is a complaint, when it becomes necessary to collect a specific object to be inspected, , the X-ray inspection image must be completely reviewed or the X-ray inspection image must be reexamined.

Accordingly, it is an object of the present invention to provide an article inspection apparatus capable of storing not only determination results and data to be inspected, but also information related to the inspection, so as to be able to easily identify the object to be inspected. purpose.

The article inspection apparatus of the present invention includes an inspection unit that outputs a detection signal representing the quality state of an object to be inspected, and a determination of whether the object to be inspected is good or bad by comparing a determination target value based on the detection signal with a threshold value. and a value representing the margin of the detection signal represented by the difference between the determination target value and the threshold value as inspection data of the object to be inspected determined by the determination unit as a non-defective product, and the object to be inspected and an inspection data accumulation unit that stores information including the value of the defective rate for a predetermined number immediately before in association with the date and time when the judgment unit judged the product to be non-defective.

With this configuration, a value indicating the margin of the detection signal as inspection data of the object to be inspected determined by the judging unit as a non-defective product, and the value of the defective rate for a predetermined number immediately before the object to be inspected are stored. Therefore, the object to be inspected can be easily specified based on the value indicating the margin of the detection signal, and the object can be determined based on the defect rate of a predetermined number immediately before the object to be inspected. The object to be inspected can be easily specified .

Also, in the article inspection apparatus of the present invention, the inspection data is deleted based on a value indicating the margin in the contents of the inspection data.

With this configuration, the inspection data is deleted based on the value indicating the margin in the contents of the inspection data. Therefore, it is possible to reduce the usage of the test data storage unit.

Further, the article inspection system of the present invention includes an inspection unit that outputs a detection signal representing the quality state of an object to be inspected, and a determination target value based on the detection signal and a threshold value to compare the quality of the object to be inspected. and information including a value indicating the margin of the detection signal represented by the difference between the determination target value and the threshold value as inspection data of the object to be inspected determined by the determination unit to be non-defective. a plurality of article inspection devices comprising: an inspection data storage unit that stores the date and time when the determination unit determines that the product is non-defective; and a server device that searches for data based on the margin , wherein the inspection data stored in the inspection data storage unit of each of the plurality of product inspection devices is stored in each product inspection device. It contains line information .

With this configuration, data retrieval is performed by the server device based on the margin in the inspection data of the article inspection device. Therefore, the data can be searched by a server device with high processing power, and the object to be inspected can be easily specified.

INDUSTRIAL APPLICABILITY The present invention can provide an article inspection apparatus that can easily identify an object to be inspected.

FIG. 1 is a schematic configuration diagram of an article inspection apparatus according to one embodiment of the present invention. FIG. 2 is a flow chart for explaining inspection data accumulation processing procedures of the article inspection apparatus according to the embodiment of the present invention. FIG. 3 is a flow chart for explaining the procedure of data processing of inspection data of the article inspection apparatus according to one embodiment of the present invention.

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

An article inspection apparatus 1 according to an embodiment of the present invention is incorporated in a production line (not shown) in which inspected articles W such as raw meat, fish, processed foods, and pharmaceuticals are conveyed, and the articles W to be inspected include It is used to inspect foreign substances and defects that have been detected, or to inspect whether the weight of the object W to be inspected is within a specified range.

In FIG. 1, an article inspection apparatus 1 includes a transport section 2, an inspection section 3, a display operation section 4, a determination section 5, an integrated control section 6, and an inspection data accumulation section 9.

The conveying unit 2 sequentially conveys the inspection objects W of the type set in advance by the display operation unit 4, and is composed of, for example, a belt conveyer arranged horizontally with respect to the apparatus main body.

The conveying unit 2 is driven by a drive motor (not shown) so as to convey the carried-in inspected object W in the direction of the arrow in FIG. 1 (to the right in FIG. 1) at a predetermined conveying speed. It's becoming

The inspection unit 3 outputs a detection signal corresponding to the type and size of foreign matter contained in the object W to be inspected or a detection signal corresponding to the weight of the object W to be inspected as a signal representing the quality state of the object W to be inspected. It's like 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 a change in the magnetic field caused by the object to be inspected W passing through the alternating magnetic field. configuration. Alternatively, the metal contained in the object to be inspected 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.

When the article inspection apparatus 1 is configured as an X-ray inspection apparatus, the inspection unit 3 is composed of an X-ray generation source and an X-ray detector, and when X-rays are emitted from the X-ray generation source, the inspection unit 3 is inspected. The X-ray detector detects X-rays that have passed through the inspection object W, and outputs a detection signal corresponding to the amount of transmission. 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 scintillators provided on the photodiodes. An array of line sensors is used. Such an X-ray detector receives X-rays transmitted through the object W to be inspected by a scintillator, converts the light into light, and converts the light into an electric signal by a photodiode disposed below the X-ray detector and outputs the electric signal. It's becoming That is, an electric signal corresponding to the amount of X-ray transmission is output.

In addition, when the article inspection apparatus 1 is configured as a weight measuring apparatus, the inspection unit 3 has a weighing table that is part of the conveying unit 2, and a weighing mechanism such as an electromagnetic balance mechanism disposed below the weighing table. The configured load sensor is configured to measure the load of the inspection object W placed on the weighing table and output a signal corresponding to the load. Note that the load sensor may be any scale mechanism that can measure weight, and may be composed of a scale mechanism such as a differential transformer mechanism or a strain gauge mechanism, for example.

The display operation unit 4 is composed of a touch panel that also serves as an input operation function and a display function. Various setting operations and instruction operations related to foreign object detection and weighing are performed. Further, the display operation unit 4 is provided with various operation buttons such as an operation button for instructing the operation start of the article inspection apparatus 1, a stop button for instructing the operation stop of the article inspection apparatus 1, and a menu button.

Further, the display operation unit 4 has a display function for displaying various kinds of information such as set values when setting operation of the type of object W to be inspected, indication values when instruction operation is performed, various determination results, and the like. It's like

Note that the display operation unit 4 may have a configuration in which the input operation function and the display function are independent. In addition, a liquid crystal display or the like can be provided for the display function.

The determination unit 5 compares a determination target value based on the detection signal from the inspection unit 3 with a threshold value for determination, thereby determining whether or not the object W to be inspected W contains foreign matter. Whether or not the weight of the product is within a predetermined range or whether or not there is a missing item is determined.

As the determination target value, the detection signal may be used as it is, or a value processed into a value for determination by applying processing such as a filter to reduce erroneous determination due to noise or the influence of the product from the detection signal. may

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

When the article inspection device 1 is configured as a metal detection device, the determination unit 5 determines whether the value to be determined based on the amount of change in 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 value. , the object W to be inspected is determined to be a non-defective product.

When the product inspection apparatus 1 is configured as an X-ray inspection apparatus, the determination unit 5 determines whether 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 equal to or greater than a preset threshold value. If there is, the object W to be inspected is determined to be non-defective.

When the article inspection apparatus 1 is configured as a weight measuring apparatus, the determination section 5 determines whether the weight based on the magnitude of the detection signal from the inspection section 3 is equal to or less than a preset upper limit value and equal to or more than a preset lower limit value. The inspected object W is determined to be non-defective.

The integrated control section 6 performs overall control of the article inspection apparatus 1 and includes a storage section 7 and a control section 8 .

The storage unit 7 stores various programs for the control unit 8 to control the article inspection apparatus 1, various parameters for the determination unit 5 to determine the quality of the inspection object W, and the like.

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

The control unit 8 supplies the inspection data storage unit 9 with detection data (weight measurement value, detection signal maximum value in the object to be inspected W of the determination object value based on, the maximum value in the object to be inspected W of the intermediate value in the intermediate stage until the detection signal is processed to obtain the value to be judged), the detection signal Waveform data and the like based on are stored as inspection data.

The control unit 8 stores, as inspection data, information about the weight of the non-defective product inspection result in association with the inspection date and time. The date, time of inspection, elapsed time from activation of the article inspection apparatus 1, information on the production line where the article inspection apparatus 1 is installed, information on the person in charge operating the article inspection apparatus 1, etc. are stored as inspection data.

The margin of the detection signal indicates, for example, the margin until the object W to be inspected is judged to be defective due to the difference between the judgment object value and the threshold value when the detection signal is judged by the judging section 5 . The margin of detection signal decreases as the difference from the threshold decreases. The margin of the detection signal may be the value of the difference itself, or may be obtained by converting the value of the difference into multilevel margins.

When there are an upper limit value and a lower limit value as threshold values as in the case where the article inspection apparatus 1 is configured as a weight measuring apparatus, the margin of the detection signal stores the difference between the upper limit value and the lower limit value. It is preferable that the maximum margin is set near the middle value between the upper limit value and the lower limit value, and the margin degree is decreased as the upper limit value and the lower limit value are approached.

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

As the production line information, information for identifying the production line, product lot numbers, and the like are stored.

The information of the person in charge who operates the article inspection apparatus 1 is stored when the information of the person in charge of operation is acquired by the login process in the article inspection apparatus 1 .

The control unit 8 searches for examination data stored in the examination data storage unit 9 and causes the display operation unit 4 to display the search data by setting conditions by operating the display operation unit 4 .

The control unit 8 controls the margin of the detection signal of the inspection unit 3, the defect rate up to the time of inspection, the date and time of the inspection, the elapsed time since the startup of the product inspection device 1, information on the production line in which the product inspection device 1 is installed, A condition is set in the information of the person in charge who operates the article inspection apparatus 1, and the information of the inspected object W satisfying the condition is displayed on the display/operation unit 4. FIG.

By doing so, it is possible to easily search for a product that is the same as the product for which the customer complained, but that has a low margin, or a product that has a high defect rate up to the point of inspection.

The inspection data stored in the inspection data storage unit 9 can be read from a computer system such as a server device via a communication medium such as a network, and search and data processing can be performed by the computer system. good.

Alternatively, the inspection data may be transmitted to a computer system such as a server device via a communication medium such as a network, and the inspection data may be stored in the computer system for retrieval and data processing.

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

Also, the inspection data of a plurality of article inspection apparatuses 1 may be referred to by the server device for retrieval and data processing.

By doing so, it is possible to search from the inspection data of a plurality of article inspection apparatuses 1, and the work can be efficiently performed. Further, data processing can be performed based on inspection data of a plurality of article inspection apparatuses 1, and quality control of a plurality of article inspection apparatuses 1 can be easily performed.

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

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

By doing so, it is possible to delete inspection data that has a high margin of detection signal and is unlikely to be collected or re-inspected due to complaints, etc., and reduces the amount of usage of the inspection data storage unit 9. be able to.

For example, the control unit 8 may delete the information of a product for which the expiration date has been set, when the expiration date has passed.

By doing so, it is possible to delete inspection data whose expiration date has passed and is unlikely to be used, and to reduce the amount of usage of the inspection data storage unit 9 .

Inspection data accumulation processing by the article inspection apparatus 1 according to the present embodiment configured as described above will be described with reference to FIG. It should be noted that the inspection data accumulation process described below is started when the inspection based on the determination by the determination unit 5 of each inspection object W is completed.

In step S1, the control unit 8 determines whether or not the inspection result is a non-defective product. If the inspection result determines that the product is not non-defective, the control unit 8 terminates 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 that will be the inspection data described above, and performs processing such as calculation if necessary.

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

Next, data processing of inspection data by the article inspection apparatus 1 according to this embodiment will be described with reference to FIG. Data processing of inspection data described below is started by a data processing request by operating the display operation unit 4 .

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

In step S12, the control section 8 performs data processing according to 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. FIG. Further, the data processing of the 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, the inspection data of the object to be inspected W for which the determination result by the determination unit 5 is non-defective includes the margin of the detection signal of the inspection unit 3, the defect rate up to the inspection time, and the inspection time. , an inspection data storage unit 9 for storing the elapsed time from the activation of the article inspection apparatus 1, the information of the production line in which the article inspection apparatus 1 is installed, the information of the person in charge operating the article inspection apparatus 1, and the like.

As a result, it is possible to easily specify the object W to be inspected based on the information stored as the inspection data.

Also, the test data stored in the test data storage unit 9 can be read from a server device or the like via a communication medium such as a network.

As a result, various kinds of processing can be performed at high speed compared to the case where the control unit 8 performs retrieval and data processing.

Alternatively, the inspection data may be transmitted to a server device or the like via a communication medium such as a network, the inspection data may be stored in the server device, or the like, and the server device or the like may search and process the data.

As a result, a large amount of test data can be stored as compared with the case of storing in the test data storage unit 9 . Moreover, compared with the case where the control unit 8 performs retrieval and data processing, various processing can be performed at high speed.

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

1 Article inspection device 3 Inspection unit 5 Determination unit 8 Control unit 9 Inspection data accumulation unit

Claims (3)

an inspection unit (3) that outputs a detection signal representing the quality state of the object to be inspected (W);
a judgment unit (5) for judging whether the object to be inspected is good or bad by comparing a judgment target value based on the detection signal with a threshold;
As inspection data of the object to be inspected determined by the determination unit to be non-defective, a value representing the margin of the detection signal, which is represented by the difference between the determination target value and the threshold, and a value immediately before the object to be inspected. and an inspection data accumulation unit (9) that stores information including the value of the defective rate for a predetermined number in association with the date and time when the determination unit determined that the product is non-defective. 2. The article inspection apparatus according to claim 1 , wherein said inspection data is deleted based on a value indicating said margin among contents of said inspection data. an inspection unit (3) that outputs a detection signal representing the quality state of the object to be inspected (W);
a judgment unit (5) for judging whether the object to be inspected is good or bad by comparing a judgment target value based on the detection signal with a threshold;
As inspection data of the object to be inspected determined as a non-defective product by the determination unit, information represented by a difference between the determination target value and the threshold value and including a value indicating the margin of the detection signal is determined as the non-defective product by the determination unit. a plurality of article inspection devices comprising an inspection data storage unit (9) that stores the determined date and time in association with each other;
a server device that stores the inspection data transmitted from the plurality of article inspection devices and performs data search based on the margin of the inspection data ,
An article inspection system in which the inspection data stored in the inspection data storage unit of each of the plurality of article inspection apparatuses includes information on a production line in which each article inspection apparatus is installed .

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