JP6137190B2 - Equipment inspection system - Google Patents

Description

  The present invention relates to an apparatus inspection system.

  A handy terminal device may be used for inspection of a device (apparatus) on site (see, for example, Patent Document 1). In such a case, for example, the handy terminal device scans the bar code provided for each device, and displays all inspection items of the device with the bar code on the handy terminal device. It is also possible to input the inspection results to the type terminal device.

Japanese Patent No. 3406739

  However, in this case, since the inspection operator may not be able to enter the inspection result without actually going to the inspection point, the inspection of the corresponding part at each inspection point of the apparatus is surely performed. There is room for improvement.

  In view of the above fact, an object of the present invention is to obtain an apparatus inspection system capable of surely inspecting corresponding parts at each inspection point of the apparatus.

  The apparatus inspection system of the present invention described in claim 1 is provided in a part to be inspected in advance set in the apparatus or a peripheral part thereof, a part identification unit representing identification data of a part to be inspected, and an inspection A reading unit that reads the component identification unit of a target component, a display unit that displays an inspection screen according to the identification data of the component identification unit read by the reading unit, and an input that is input according to the inspection screen A mobile terminal provided with a transmission unit that transmits information on inspection results, a reception unit that receives information on inspection results transmitted from the transmission unit of the mobile terminal, and information on inspection results received by the reception unit A computer that includes a storage unit that stores the inspection result information and a tabulation unit that reads the inspection result information from the storage unit and converts the inspection result information into a table format for printing or display.

  In addition, the “component” described in claim 1 is not limited to a component constituted by a single member, and includes a component constituted by a plurality of members.

  According to the apparatus inspection system of the present invention described in claim 1, a part identification unit is provided on a part to be inspected in advance set in the apparatus or a peripheral part thereof. Represents the identification data of the part. That is, when there are a plurality of inspection locations in the device to be inspected, a plurality of component identification units are provided to correspond to the inspection locations. The part identification part of the part to be inspected is read by the reading part of the portable terminal. In the portable terminal, the display unit displays an inspection screen according to the identification data of the component identification unit read by the reading unit, and the transmission unit transmits information on the inspection result input according to the inspection screen. Information on the inspection result transmitted from the transmission unit of the portable terminal is received by the reception unit of the computer. In the computer, the storage unit stores the inspection result information received by the receiving unit, and the table forming unit reads the inspection result information from the storage unit and converts the inspection result information into a table format for printing or display. For this reason, it is possible to refer to the tabulated inspection results.

  An apparatus inspection system according to a second aspect of the present invention is the apparatus inspection system according to the first aspect, wherein the apparatus inspection system is provided on a part to be inspected whose identification data is represented by the part identification unit or a peripheral part thereof. An inspection item identification unit that represents data for identifying inspection items in the component, the reading unit that reads the inspection item identification unit, and inspection items according to the identification data of the inspection item identification unit read by the reading unit The portable terminal comprising: the display unit for displaying; and the transmitting unit for transmitting information on inspection results input for each inspection item.

  According to the apparatus inspection system of the present invention as set forth in claim 2, the inspection item identification unit is provided on the part to be inspected or the surrounding area where the identification data is represented by the component identification unit, The item identifying unit represents data for identifying the inspection item in the part to be inspected. That is, when there are a plurality of inspection items in a part to be inspected, a plurality of inspection item identification units are provided to correspond to the inspection items. The inspection item identification unit is read by the reading unit of the mobile terminal. In the portable terminal, the display unit displays the inspection item according to the identification data of the inspection item identification unit read by the reading unit, and the transmission unit transmits information on the inspection result input for each inspection item. As described above, since the inspection result is input after the inspection item identification unit is read by the reading unit of the portable terminal for each inspection item, it is possible to support the solidification of the inspection.

  The apparatus inspection system according to a third aspect of the present invention is the apparatus inspection system according to the second aspect, wherein each of the component identification unit and the inspection item identification unit is configured by a barcode, and the reading unit reads the barcode. It is a bar code reader.

  According to the apparatus inspection system of the present invention described in claim 3, both the component identification unit and the inspection item identification unit are configured by barcodes, and the reading unit is a barcode reader that reads the barcode. . For this reason, the identification information of components and the identification information of inspection items are acquired with a simple configuration.

  According to a fourth aspect of the present invention, there is provided an apparatus inspection system according to the first aspect of the present invention, wherein the computer has the computer as a first computer, and at least any of components to be inspected. A sensor-attached transmitter that detects at least one of vibration, noise, and temperature of the component and transmits the detected detection information wirelessly, and receives the detection information transmitted from the sensor-attached transmitter. A mobile router that is connected to the receiver and receives detection information received by the receiver to a radio base station in a radio network connected to a communication network, and the mobile router transmits the radio information A management server that receives and stores detection information via a base station and the communication line network, and the communication line network Are connected is installed in customer sites, the detection information stored in the management server, having the accessible second computer via said communication line network.

  According to the apparatus inspection system of this invention described in Claim 4, the transmitter with a sensor is attached to at least one of the components used as inspection object. This transmitter with a sensor detects at least one of vibration, noise, and temperature of a component to be attached and transmits detected information wirelessly. The detection information transmitted from the transmitter with sensor is received by the receiver. The mobile router connected to the receiver transmits the detection information received by the receiver to a radio base station in the radio network connected to the communication line network. Then, the detection information is received by the management server from the mobile router via the wireless base station and the communication line network, and stored in the management server. On the other hand, the second computer connected to the communication line network and installed at the customer site can access the detection information stored in the management server via the communication line network. For this reason, detection information can be browsed with the 2nd computer installed in the customer.

  The apparatus inspection system according to a fifth aspect of the present invention is the apparatus inspection system according to any one of the first to third aspects, wherein the apparatus is a molding machine that molds foundry sand in a casting frame. Yes.

  According to the apparatus inspection system of the present invention as set forth in claim 5, the molding machine for molding the foundry sand in the casting frame is provided with a part identification part at a preset part to be inspected or its peripheral part. ing. Accordingly, even in a large apparatus such as a molding machine, the inspection operator can be surely directed to the inspection location of the corresponding component by providing the component identification unit corresponding to each inspection location.

  The apparatus inspection system according to a sixth aspect of the present invention is the apparatus inspection system according to the fifth aspect, wherein the molding machine includes a hydraulic cylinder for driving to squeeze the foundry sand in the casting frame. The preset parts to be inspected in the molding machine include a hydraulic tank that stores oil to be supplied to the hydraulic cylinder, and a hydraulic pump that pressurizes the oil in the hydraulic tank to be supplied to the hydraulic cylinder. When the data of the component identification unit read by the reading unit is identification data representing the hydraulic unit, the display unit displays the hydraulic tank on the inspection screen. The amount of oil and the pressure by the hydraulic pump are displayed as inspection items.

  According to the apparatus inspection system of the present invention described in claim 6, in the molding machine, the foundry sand in the casting frame is squeezed by the operation of the hydraulic cylinder. In addition, the preset parts to be inspected in the molding machine include a hydraulic tank that stores oil to be supplied to the hydraulic cylinder, and a hydraulic pump that pressurizes the oil in the hydraulic tank to be supplied to the hydraulic cylinder. Includes a hydraulic unit. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the hydraulic unit, the display unit displays the oil amount in the hydraulic tank and the pressure by the hydraulic pump as inspection items on the inspection screen. Here, the amount of oil in the hydraulic tank and the pressure by the hydraulic pump are checked and maintained, so that the hydraulic cylinder operates well and the foundry sand is squeezed well.

  The apparatus inspection system according to a seventh aspect of the present invention is the apparatus inspection system according to the fifth aspect, wherein the molding machine includes a hydraulic cylinder for driving to squeeze the foundry sand in the casting frame. The parts to be inspected in advance in the molding machine include a hydraulic tank that stores oil to be supplied to the hydraulic cylinder, and a hydraulic pump that pressurizes the oil in the hydraulic tank to be supplied to the hydraulic cylinder. And an oil cleaner that filters oil pressurized by the hydraulic pump, and the portable terminal has an identification that the data of the component identification unit read by the reading unit represents the hydraulic unit In the case of the use data, the display unit displays the pressure acting on the oil cleaner and the temperature of the oil in the hydraulic tank as inspection items on the inspection screen.

  According to the apparatus inspection system of the present invention described in claim 7, the molding sand in the molding machine is squeezed by the operation of the hydraulic cylinder. The parts to be inspected in advance in the molding machine include a hydraulic tank that stores oil to be supplied to the hydraulic cylinder, a hydraulic pump that pressurizes the hydraulic tank to supply oil to the hydraulic cylinder, and a hydraulic pump. And a hydraulic unit including an oil cleaner for filtering the pressed oil. The portable terminal displays the pressure in the oil cleaner and the temperature of the oil in the hydraulic tank as inspection items on the inspection screen when the data of the component identification unit read by the reading unit is identification data representing a hydraulic unit. . Here, the pressure acting on the oil cleaner and the temperature of the oil in the hydraulic tank are inspected and maintained, so that the hydraulic cylinder operates well and the foundry sand is squeezed well.

  The apparatus inspection system according to an eighth aspect of the present invention is the apparatus inspection system according to the fifth aspect, wherein the molding machine includes a release agent tank that stores a release agent to be supplied into the casting frame, and the release mold. A release agent spray for spraying the release agent stored in the agent tank into the casting frame, and for the parts to be inspected in advance in the molding machine, the release agent spray is provided. The portable terminal includes a clogging of the release agent spray on the inspection screen when the data of the part identification unit read by the reading unit is identification data representing the release agent spray. And the liquid leakage from the release agent spray is displayed as an inspection item.

  According to the apparatus inspection system of the present invention as set forth in claim 8, the release agent stored in the release agent tank is sprayed into the casting frame on the parts to be inspected set in advance in the molding machine. Contains mold spray. When the data of the component identification unit read by the reading unit is identification data representing the release agent spray, the portable terminal displays the clog of the release agent spray on the inspection screen and the liquid from the release agent spray. Display leaks as inspection items. Here, the clogging of the release agent spray and the liquid leakage from the release agent spray are inspected and maintained, so that the release agent stored in the release agent tank is satisfactorily supplied into the casting frame. Therefore, the mold can be satisfactorily removed from the casting frame.

  According to a ninth aspect of the present invention, there is provided the apparatus inspection system according to the fifth aspect, wherein a release agent to be supplied into the casting frame is applied to a part to be inspected in advance in the molding machine. The portable terminal includes a release agent tank to be stored, and when the data of the component identification unit read by the reading unit is identification data representing the release agent tank, the display unit displays the inspection screen on the inspection screen. The amount of release agent stored in the release agent tank is displayed as an inspection item.

  According to the apparatus inspection system of the present invention described in claim 9, the parts to be inspected set in advance in the molding machine include a release agent tank for storing the release agent to be supplied into the casting frame. Yes. The portable terminal checks the amount of the release agent stored in the release agent tank on the inspection screen when the data of the part identification part read by the reader is identification data indicating the release agent tank. Display as an item. Here, the amount of the release agent stored in the release agent tank is inspected and maintained, so that the release agent is satisfactorily supplied from the release agent tank into the casting frame. Is cut out well.

  An apparatus inspection system according to a tenth aspect of the present invention is the apparatus inspection system according to the fifth aspect, wherein a sprue is formed in a molded mold in a part to be inspected in advance in the molding machine. The portable terminal is an identification data that represents the gate bar, the data of the component identification unit read by the reading unit is used for forming the gate of the gate and made extendable inside the casting frame. In some cases, the display unit displays the movement of the gate bar as an inspection item on the inspection screen.

  According to the apparatus inspection system of the present invention as set forth in claim 10, the parts to be inspected in advance set in the molding machine are used for forming a gate for forming a gate in the molded mold. It includes a gate bar that can be expanded and contracted inside the frame. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the gate, the display unit displays the movement of the gate on the inspection screen as an inspection item. Here, a proper gate can be formed in the mold by checking and maintaining the movement of the gate bar.

  An apparatus inspection system according to an eleventh aspect of the present invention is the apparatus inspection system according to the fifth aspect, wherein the molding machine is removably attached to a facing portion of the upper and lower pairs of the casting frames so that the molding machine can operate in the casting frame when operating. A part to be inspected which is provided with a mold pin which moves relative to the mold, and which is to be inspected in advance in the molding machine includes the casting frame provided with the mold pin. The portable terminal is read by the reading unit. When the data of the component identification unit is identification data representing the casting frame, the display unit displays the movement of the punch pin as an inspection item on the inspection screen.

  According to the apparatus inspection system of the present invention as set forth in claim 11, the punching pin of the molding machine is mounted so as to be able to appear and retract at the opposing portion of the upper and lower pairs of casting frames, and moves relative to the casting frames during operation. The parts to be inspected in advance set in the molding machine include a cast frame provided with the punching pins. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing a cast frame, the display unit displays the movement of the punching pin as an inspection item on the inspection screen. Here, the movement of the punching pin is inspected and maintained, so that the punching pin operates properly after molding so that a good mold opening is performed.

  An apparatus inspection system according to a twelfth aspect of the present invention is the apparatus inspection system according to the fifth aspect, wherein the molding machine is an aeration tank for filling molding sand into a mold molding space formed inside the casting frame. An aeration nozzle is formed at the lower end opening of the aeration tank part, and the parts to be inspected in advance in the molding machine include the aeration tank part, and the portable terminal is When the data of the component identification unit read by the reading unit is identification data representing the aeration tank unit, the display unit displays wear and clogging of the aeration nozzle as inspection items on the inspection screen.

  According to the apparatus inspection system of the present invention as set forth in claim 12, the aeration tank part of the molding machine is a tank part for filling casting sand into the mold molding space formed inside the casting frame, An aeration nozzle is formed at the lower end opening of the aeration tank. The parts to be inspected in advance set in the molding machine include an aeration tank section. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the aeration tank unit, the display unit displays wear and clogging of the aeration nozzle as inspection items on the inspection screen. Here, the wear and clogging of the aeration nozzle are inspected and maintained, so that the foundry sand inside the aeration tank portion is satisfactorily filled in the mold making space.

  An apparatus inspection system according to a thirteenth aspect of the present invention is the apparatus inspection system according to any one of the fifth to twelfth aspects, wherein the molding machine is provided in a mold molding space formed inside the casting frame. An aeration tank section for filling the foundry sand is provided, and a slide gate for opening and closing the upper end opening is provided at the upper end opening for casting sand injection of the aeration tank section, and the inspection object set in advance in the molding machine The component includes the aeration tank unit, and the portable terminal checks the display unit when the data of the component identification unit read by the reading unit is identification data representing the aeration tank unit. The wear of the slide gate is displayed on the screen as an inspection item.

  According to the apparatus inspection system of the present invention as set forth in claim 13, the aeration tank part of the molding machine is a tank part for filling the mold molding space formed inside the casting frame with casting sand, A slide gate for opening and closing the upper end opening is provided at the upper end opening for casting sand in the aeration tank. The parts to be inspected in advance set in the molding machine include an aeration tank section. When the data of the component identification unit read by the reading unit is identification data representing the aeration tank unit, the display unit displays the wear of the slide gate on the inspection screen as an inspection item. Here, since the slide gate operates satisfactorily by checking and maintaining the wear of the slide gate, the foundry sand is satisfactorily supplied into the aeration tank portion.

  In the apparatus inspection system of this invention described in Claim 14, in the structure of any one of Claims 1-4, as for the said apparatus, the cross section orthogonal to the rotating shaft is each formed in ring shape. And a pair of rolls that are arranged so that their rotational axes are parallel to each other, and compress and form the granulated material by pressurizing and solidifying the raw materials supplied between them together with the rotation, and the pair of rolls And a feeder screw that is provided in the hopper and pushes the raw material in the hopper between the pair of rolls as it rotates.

  According to the apparatus inspection system of the present invention described in claim 14, the apparatus to be inspected is a granulator provided with a pair of rolls, a hopper, and a feeder screw. A part identification unit is provided in the set part to be inspected or its peripheral part. Thus, by providing a part identification part corresponding to each inspection location of the granulator, the inspection operator can be surely directed to the inspection location of the relevant part.

  The apparatus inspection system of the present invention described in claim 15 includes the pair of rolls and the feeder screw as parts to be inspected in advance in the granulator in the configuration of claim 14, In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the pair of rolls, the display unit checks the wear and noise of the pair of rolls on an inspection screen. When the component identification unit read by the reading unit is identification data representing the feeder screw, the display unit displays wear and abnormal noise of the feeder screw as inspection items on the inspection screen. To do.

  According to the apparatus inspection system of the present invention described in claim 15, the parts to be inspected set in advance in the granulator include a pair of rolls and a feeder screw. In the portable terminal, when the component identification unit read by the reading unit is identification data representing a pair of rolls, the display unit displays the wear and noise of the pair of rolls as inspection items on the inspection screen. By checking and maintaining the wear and noise of the pair of rolls, it is possible to form a granulated product having an appropriate shape. In addition, when the data of the component identification unit read by the reading unit is identification data representing the feeder screw, the portable terminal displays the wear and noise of the feeder screw on the inspection screen as inspection items. By checking and maintaining the wear and noise of the feeder screw, it is possible to push an appropriate amount of raw material in the hopper between the pair of rolls. As a result, an appropriately shaped granulated product is formed with an appropriate amount of raw material.

  An apparatus inspection system according to a sixteenth aspect of the present invention is the configuration according to the fourteenth or fifteenth aspect, wherein the parts to be inspected set in advance in the granulator include the pair of rolls. The portable terminal checks the pressure between the pair of rolls on the inspection screen when the data of the component identification unit read by the reading unit is identification data representing the pair of rolls. Display as an item.

  According to the apparatus inspection system of the present invention described in claim 16, the parts to be inspected set in advance in the granulator include a pair of rolls. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing a pair of rolls, the display unit displays the pressure between the pair of rolls as an inspection item on the inspection screen. Here, the pressure between the pair of rolls is inspected and maintained, so that the density of the granulated material is favorably maintained.

  The apparatus inspection system of this invention described in Claim 17 is the structure of any one of Claims 1-4. WHEREIN: The said apparatus is the installation part in which a to-be-processed object is installed, and the said installation A mounting jig for attaching the object to be processed to the part, and a brush for polishing the surface of the object to be processed by rotating and contacting the object to be processed attached to the installation part by the mounting jig And a drive motor that rotationally drives the brush.

  According to the apparatus inspection system of the present invention described in claim 17, the apparatus to be inspected is a brush polishing apparatus provided with an installation portion, a mounting jig, a brush, and a drive motor. Are provided with a part identification unit in a part to be inspected in advance or around the part. Thus, by providing a part identification part corresponding to each inspection location of the brush polishing apparatus, the inspection operator can be reliably directed to the inspection location of the relevant part.

  The apparatus inspection system of the present invention described in claim 18 is the configuration according to claim 17, wherein the parts to be inspected preset in the brush polishing apparatus include the drive motor, and the portable terminal is When the data of the component identification unit read by the reading unit is identification data representing the drive motor, the display unit displays the current value, abnormal noise and vibration of the drive motor as inspection items on the inspection screen. .

  According to the apparatus inspection system of the present invention as set forth in claim 18, the parts to be inspected set in advance in the brush polishing apparatus include a drive motor. In the portable terminal, when the component identification unit read by the reading unit is identification data representing the drive motor, the display unit displays the current value, abnormal noise, and vibration of the drive motor as inspection items on the inspection screen. Here, the current value, abnormal noise, and vibration of the drive motor are inspected and maintained, so that the brush rotates properly and the surface of the object to be processed is polished well by the brush.

  The apparatus inspection system of the present invention described in claim 19 is the structure according to claim 17 or claim 18, wherein the parts to be inspected preset in the brush polishing apparatus include the brush, In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the brush, the display unit displays the wear of the brush on the inspection screen as an inspection item.

  According to the apparatus inspection system of the present invention as set forth in claim 19, the parts to be inspected set in advance in the brush polishing apparatus include the brush. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing a brush, the display unit displays the wear of the brush as an inspection item on the inspection screen. Here, by checking and maintaining the wear of the brush, the surface of the object to be processed is precisely polished by the brush.

  An apparatus inspection system according to a twentieth aspect of the present invention is the apparatus inspection system according to any one of the seventeenth to nineteenth aspects, wherein the brush polishing apparatus includes a contact portion between the brush and an object to be processed; A coolant circulation part that circulates the coolant sprayed to the surrounding part is provided, and the inspection target that is preset in the brush polishing apparatus includes the coolant circulation part, and the portable terminal includes the reading part. When the read data of the part identification unit is identification data representing the coolant circulation unit, the display unit displays the circulation of the coolant as an inspection item on the inspection screen.

  According to the apparatus inspection system of the present invention as set forth in claim 20, in the brush polishing apparatus, the coolant circulating part circulates the coolant sprayed to the contact part between the brush and the object to be processed and its peripheral part. The parts to be inspected in advance set in the brush polishing apparatus include a coolant circulation part. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data indicating the coolant circulation unit, the display unit displays the circulation of the coolant as an inspection item on the inspection screen. Here, the coolant circulation is inspected and maintained, so that the coolant is cooled well when the object to be treated is polished by the brush.

  An apparatus inspection system according to a twenty-first aspect of the present invention is the apparatus inspection system according to any one of the seventeenth to twentieth aspects, wherein the parts to be inspected in advance set in the brush polishing apparatus include: The portable terminal includes an attachment jig, and when the data of the component identification unit read by the reading unit is identification data representing the attachment jig, the display unit displays the attachment jig on the inspection screen. Wear is displayed as an inspection item.

  According to the apparatus inspection system of the present invention as set forth in claim 21, the parts to be inspected set in advance in the brush polishing apparatus include the mounting jig. In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the attachment jig, the display unit displays the wear of the attachment jig as an inspection item on the inspection screen. Here, the wear of the mounting jig is inspected and maintained, so that the object to be processed is polished in a properly mounted state.

  The apparatus inspection system according to the present invention as set forth in claim 22 is an inspection item identification which is provided in a part to be inspected in advance set in the apparatus or its peripheral part and represents data for identifying inspection items in the part to be inspected. A reading unit that reads the inspection item identification unit, a display unit that displays inspection items according to the identification data of the inspection item identification unit read by the reading unit, and an inspection that is input for each inspection item A mobile terminal provided with a transmission unit that transmits information on the result, a reception unit that receives information on the inspection result transmitted from the transmission unit of the mobile terminal, and information on the inspection result received by the reception unit. And a computer including a storage unit for storing, and a table forming unit for reading out information on the inspection result from the storage unit and converting the information on the inspection result into a table format for printing or display.

  According to the apparatus inspection system of the present invention described in claim 22, an inspection item identification unit is provided on a part to be inspected in advance set in the apparatus or a peripheral part thereof, and the inspection item identification unit is It represents the identification data of the inspection item in the part to be inspected. That is, when there are a plurality of inspection items in a part to be inspected, a plurality of inspection item identification units are provided to correspond to the inspection items. The inspection item identification unit is read by the reading unit of the mobile terminal. In the portable terminal, the display unit displays the inspection item according to the identification data of the inspection item identification unit read by the reading unit, and the transmission unit transmits information on the inspection result input for each inspection item. As described above, since the inspection result is input after the inspection item identification unit is read by the reading unit of the portable terminal for each inspection item, it is possible to support the solidification of the inspection. Information on the inspection result transmitted from the transmission unit of the portable terminal is received by the reception unit of the computer. In the computer, the storage unit stores the inspection result information received by the receiving unit, and the table forming unit reads the inspection result information from the storage unit and converts the inspection result information into a table format for printing or display. For this reason, it is possible to refer to the tabulated inspection results.

  As described above, according to the apparatus inspection system of the present invention, there is an excellent effect that the corresponding parts can be surely inspected at each inspection location of the apparatus.

It is a perspective view which shows the barcode seal affixed on the portable terminal and components which are a part of the apparatus inspection system which concerns on the 1st Embodiment of this invention. It is a perspective view which shows the relationship between the portable terminal which is a part of the apparatus inspection system which concerns on the 1st Embodiment of this invention, a personal computer, and a printer. It is a block diagram which shows the system configuration | structure of the apparatus inspection system which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the apparatus inspection system which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the processing flow of the apparatus inspection system which concerns on the 1st Embodiment of this invention. FIG. 5A shows a processing flow at the time of device inspection. FIG. 5B shows a processing flow at the time of data transfer. FIG. 5C shows a processing flow after the transfer data is stored in the personal computer. It is a front view which shows the molding machine which is a 1st inspection object apparatus of the apparatus inspection system which concerns on the 1st Embodiment of this invention. It is a figure which shows the hydraulic unit which comprises a part of molding machine which is a 1st inspection object apparatus of the apparatus inspection system which concerns on the 1st Embodiment of this invention. FIG. 7A shows a plan view of the hydraulic unit. FIG. 7B shows a front view of the hydraulic unit. FIG. 7C shows a side view of the hydraulic unit. It is a front view which shows the granulator which is a 2nd inspection object apparatus of the apparatus inspection system which concerns on the 1st Embodiment of this invention. It is a front view which shows the brush grinding | polishing apparatus which is a 3rd inspection object apparatus of the apparatus inspection system which concerns on the 1st Embodiment of this invention. It is a side view which shows the brush grinding | polishing apparatus which is a 3rd inspection object apparatus of the apparatus inspection system which concerns on the 1st Embodiment of this invention.

[First Embodiment]
An apparatus inspection system according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 2 show a perspective view of a part of the apparatus inspection system 10 according to the first embodiment of the present invention. FIG. 3 is a block diagram showing the system configuration of the apparatus inspection system.

(Outline of equipment inspection system)
As shown in FIG. 1, a barcode seal 12 </ b> A is affixed to a predetermined part of the apparatus main body or the like on the apparatus 12 to be inspected by the apparatus inspection system 10. In addition, in FIG. 1, the apparatus 12 is shown typically. A barcode 12B is printed on the barcode seal 12A. The bar code 12B represents identification data of the device 12 to be inspected, and specifically, device information is coded by a combination of a number of black lines (bars) having different thicknesses. The bar code seal 12A is affixed to the periphery of the device 12 when it cannot be directly affixed to the device 12 to be inspected. Further, the barcode 12B may be provided in a form other than the sticking of the barcode seal 12A, such as engraved on the device 12 or its peripheral portion.

  Further, barcode seals 16, 16 </ b> A, and 16 </ b> B are affixed to the parts 14 to be inspected in advance in the apparatus 12 to be inspected by the apparatus inspection system 10. In addition, in FIG. 1, the component 14 is also shown typically. A barcode 18 as a component identification unit is printed on the barcode seal 16 attached to the uppermost portion of the component 14, and the barcode seals 16 </ b> A and 16 </ b> B attached to the middle and lowermost portions of the component 14 are printed. Are printed with barcodes 18A and 18B as inspection item identification sections. Further, the barcode 18 attached to the top of the component 14 represents identification data for the component 14 to be inspected, and the component information is encoded by combining a number of black lines (bars) having different thicknesses. It has become. On the other hand, the barcodes 18A and 18B attached to the middle stage and the bottom stage of the part 14 represent data for identifying inspection items in the part 14 to be inspected, and a large number of black lines having different thicknesses. Inspection item information is coded by a combination of (bar).

  These bar code seals 16, 16 </ b> A, 16 </ b> B are affixed to the periphery of the component 14 when it cannot be directly affixed to the component 14 to be inspected. Further, the barcodes 18, 18 </ b> A, 18 </ b> B may be provided in a form other than the attachment of the barcode seals 16, 16 </ b> A, 16 </ b> B, such as engraved on the component 14 or its peripheral part.

  The apparatus inspection system 10 includes a portable terminal 20 including a barcode reader 20A as a reading unit. The barcode reader 20A can recognize and optically read the barcode 12B of the device 12 to be inspected, the barcode 18 of the component 14 to be inspected, and the barcodes 18A and 18B of inspection items. It has become.

  The mobile terminal 20 includes a CPU, a memory, and the like. As shown in FIG. 3, the mobile terminal 20 includes a control unit 20B connected to the barcode reader 20A. An input unit 20C is connected to the control unit 20B. The input unit 20C includes arranged keys and the like, and is a configuration unit for inputting data such as inspection results by the inspection operator and other instruction data. In addition, a storage unit 20D is connected to the control unit 20B. The storage unit 20D stores check result data and the like input from the input unit 20C in addition to tables such as a control program, an inspection part table, an inspection item table, and a determination criterion table. The inspection part table is a table in which data of inspection parts (inspection points) corresponding to the identification data of the barcode 12B of the device 12 (see FIG. 1) is tabulated. The inspection item table is a table of inspection item data corresponding to the identification data of the barcode 18 of the component 14 (see FIG. 1). The determination criterion table is a table of determination criterion data corresponding to the identification data of the barcodes 18A and 18B of the inspection items.

  In addition, a display unit 20E is connected to the control unit 20B. The control unit 20B refers to the inspection part table in the storage unit 20D using the identification data (barcode 12B data) of the device 12 (see FIG. 1) acquired from the barcode reader 20A as a key, and the identification data and Corresponding inspection part data is displayed on the display unit 20E according to a predetermined display format. As described above, the display unit 20E displays the inspection parts according to the identification data of the barcode 12B read by the barcode reader 20A. Further, the control unit 20B refers to the inspection item table of the storage unit 20D using the identification data (data of the barcode 18) of the component 14 (see FIG. 1) acquired from the barcode reader 20A as a key, and performs the identification Data and inspection item data corresponding to the data are displayed on the display unit 20E according to a predetermined display format. As described above, the display unit 20E displays an inspection screen according to the identification data of the barcode 18 read by the barcode reader 20A.

  Further, the control unit 20B uses the inspection item identification data (barcode 18A, 18B data) acquired from the barcode reader 20A as a key, and refers to the determination criterion table in the storage unit 20D to identify the identification data and the identification data. Corresponding determination criterion data is displayed on the display unit 20E according to a predetermined display format. As described above, the display unit 20E displays the inspection items and their determination criteria according to the identification data of the barcodes 18A and 18B read by the barcode reader 20A.

  A transmitter 20F (interface) is connected to the controller 20B. The transmission unit 20F has a data transmission function for exchanging data with an external device, and transmits information on inspection results input for each inspection item from the input unit 20C according to the inspection screen. To send through. As shown in FIG. 2, in this embodiment, the transmitter 22 serves as a holder for the mobile terminal 20 and is connected to the main body 22A, the main body 22A, and the main body 22A. And a wiring 22B for connecting a personal computer 24 as one computer.

  The personal computer 24 includes a CPU, a memory, and the like. As shown in FIG. 3, the personal computer 24 includes a receiving unit 24 </ b> A connected to the transmitter 22. The receiving unit 24 </ b> A receives inspection result information transmitted from the transmitting unit 20 </ b> F of the mobile terminal 20 via the transmitter 22.

  The personal computer 24 includes a control unit 24B connected to the reception unit 24A. An input unit 24C is connected to the control unit 24B. The input unit 24C includes arranged keys and the like, and is a configuration unit for inputting instruction data and the like. A storage unit 24D is connected to the control unit 24B. In the storage unit 24D, in addition to a control program (including data transfer software and inspection report creation software programs described later) and various tables, inspection results received by the reception unit 24A and acquired via the control unit 24B are stored. Information (data) and the like are stored. A part of the control unit 24B is a table forming unit 24G. The table forming unit 24G reads the information of the inspection result from the storage unit 24D and displays the information of the inspection result for printing or display in a table format (at least the inspection location). And a list format of a predetermined format indicating the inspection result).

  In addition, a display unit 24E is connected to the control unit 24B. The control unit 24B causes the display unit 24E to display a screen corresponding to the instruction data from the input unit 24C. An output unit 24F (interface) is connected to the control unit 24B. The output unit 24F has a data transmission function for exchanging data with an external device, and the information on the inspection results tabulated according to the instruction data from the input unit 24C and the like is connected via wiring. Thus, output (transmission) to the printer 26 is possible.

  FIG. 4 is a block diagram showing the overall configuration of the apparatus inspection system 10. As shown in FIG. 4, the personal computer 24 as the first computer is connected to the in-house network 32 </ b> A of the support center 32 in addition to the printer 26. The support center 32 is an organization for supporting the site where the device 12 is installed. The personal computer 24 and the printer 26 may be installed in the support center 32 or may be installed in a place other than the support center 32. In the support center 32, a main server 32S and a personal computer 32B are connected to an in-house network 32A. That is, the main server 32S and the personal computer 32B installed in the support center 32 are connected to the personal computer 24 via a communication line.

  A management server 32C and a monitor 32D are connected to the personal computer 32B via a communication line. The management server 32C may be directly connected to the in-house network 32A. The management server 32C stores data relating to inspection and the like as a database. The internal network 32A is connected to the public line 34 (communication line network), and the personal computer 32B is connected to the public line 34 via the internal network 32A. In addition, a system of a management company 36 that manages the management server 32C and the like is connected to the public line 34, and a personal computer 38 as a second computer is connected. The personal computer 38 is installed at a customer site. The personal computer 32B installed in the support center 32 transmits the inspection result information received from the personal computer 24 to the customer's personal computer 38 via the in-house network 32A and the public line 34 (communication line network). In FIG. 4, the transmission path from the personal computer 32B of the support center 32 to the customer's personal computer 38 is indicated by a two-dot chain line. As described above, the inspection result information (output information of the personal computer 24) can be referred to by the personal computer 32B of the support center 32, and can be provided from the personal computer 32B to the customer's personal computer 38 via the in-house network 32A and the public line 34. ing.

  Further, as shown on the left side of FIG. 4, a sensor-equipped transmitter 42A is attached to at least one (particularly important) of the parts 14 of the device 12 to be inspected. The sensor-equipped transmitter 42A is a transmitter that can detect vibration, noise, and temperature and transmit the detected detection information wirelessly. The sensor-equipped transmitter 42A can transmit to the receiver (parent device) 42C via the repeater 42B. In other words, the receiver 42C receives the detection information transmitted from the sensor-equipped transmitter 42A. When the distance between the transmitter with sensor 42A and the receiver 42C is short, the repeater 42B is unnecessary.

  The receiver 42C is connected to the mobile router (conversion transmitter) 42D via a communication line, and the detection information received by the receiver 42C is transferred to the mobile router 42D. The mobile router 42D is a communication device for transmitting the detection information received by the receiver 42C to the radio base station 42E in the radio network (not shown). The radio base station 42E is connected to a public line 34 (communication line network). Then, the management server 32C installed in the support center 32 receives the detection information from the mobile router 42D via the radio base station 42E and the communication line network (public line 34 and in-house network 32A).

  The sensor-equipped transmitter 42A periodically transmits the detection information described above. The detection information of the transmitter with sensor 42A is stored in the management server 32C of the support center 32. Thereby, the detection information stored in the management server 32C can be accessed from the customer's personal computer 38 via the communication line network (public line 34 and in-house network 32A). The detection information stored in the management server 32C can also be accessed from the personal computer 32B of the support center 32. Therefore, the detection information can be browsed from the personal computer 38 (terminal) of the customer and the personal computer 32B of the support center 32. Further, the support center 32 collects and analyzes the detection information of the sensor-equipped transmitter 42A, provides the expected information on the parts replacement time to the customer (user), and proposes a preventive maintenance plan.

(Processing procedure using equipment inspection system)
Next, a processing procedure using the apparatus inspection system 10 will be described with reference to the flowchart of FIG.

  As shown in FIG. 5A, at the time of checking the apparatus, the portable terminal 20 is first turned on (S1). Next, the barcode 12B of the device 12 to be inspected with the portable terminal 20 is scanned (S2). Then, the portable terminal 20 displays a list of parts 14 to be inspected for the entire apparatus 12 (S3). Next, the barcode 18 of the component 14 to be inspected is scanned with the portable terminal 20 (S4). Prior to this scanning process (reading process), various information (for example, information such as an inspection operator's ID code, daily inspection, weekly inspection, or monthly inspection) is input to the portable terminal 20. It may be a form to do.

  When the scanning process is performed, an inspection screen is displayed on the portable terminal 20 in accordance with the identification data of the barcode 18. On this inspection screen, inspection items are displayed in a list form. The inspection operator scans the barcodes 18A and 18B of the inspection items in the parts 14 to be inspected according to the inspection screen of the mobile terminal 20 (according to the display of the inspection screen), and inspects the inspection items (S5). . At this time, the inspection item and its criterion are displayed on the inspection screen of the portable terminal 20, and the inspection result corresponding to the inspection item can be input (selection of options on the screen, etc.). Then, the inspection operator inputs an inspection result (for example, a determination result of ◯, ×, etc.) according to the determination criteria to the mobile terminal 20 (S6). As an example, the system date of the portable terminal 20 is automatically written as information (data) indicating when the inspection date is.

  Next, the inspection operator determines whether or not there is an uninspected item (S7). If there is, an inspection item bar code 18A, 18B is scanned to inspect the inspection item (S5). Return to). If there are no uninspected items, the inspection operator determines whether there are uninspected parts 14 (S8). Then, when there is an uninspected part 14, the inspection operator returns to the step (S4) of scanning the barcode 18 of the part 14 to be inspected. If there is no uninspected part 14, the inspection operator determines whether there is a device 12 to be inspected (S9), and if there is, scans the barcode 12B of the device 12 to be inspected. The process returns to step (S2). On the other hand, when there is no apparatus 12 scheduled for inspection, the inspection operator ends the inspection.

  As described above, according to the apparatus inspection system 10, it is possible to reliably inspect the corresponding parts at each inspection location of the apparatus 12.

  When the inspection is completed, the inspection operator performs the data transfer process shown in FIG. As shown in FIG. 5B, at the time of data transfer, first, the portable terminal 20 is set in the transmitter 22 (S11). Next, the power of the personal computer 24 is turned on (S12), and data transfer software is started on the personal computer 24 (S13), and the personal computer 24 is set in a standby state. Immediately after this, inspection report creation software described later may be launched.

  Next, the data of the portable terminal 20 (information of the inspection result input for each inspection item according to the inspection screen) is transferred (transmitted) to the personal computer 24 by the operation from the screen of the portable terminal 20 and the input unit 20C ( S14). Then, the transferred data is stored in the storage unit 24D of the personal computer 24 (S15). Thereafter, the data transfer software is terminated (S16). The data transfer software may be terminated immediately before turning off the personal computer 24 described later.

  FIG. 5C shows a processing flow after the transfer data is stored in the personal computer 24. As shown in FIG. 5C, in this processing flow, first, the operator determines whether or not to print out the inspection report (S21). When not printing out, the power of the personal computer 24 is turned off (S29), and the process is terminated. On the other hand, when printing out, the inspection report creation software is started on the personal computer 24 (S22). Next, inspection data is taken in by the inspection report creation software (S23). Then, of the inspected devices, the device to be printed out is selected (S24), and the inspection date is input (S25). The inspector, the inspection result, etc. are displayed on the display unit 24E (S26), and the printing process is performed. By executing the operation, a printout is made to the printer 26 (S27). Thereafter, the inspection report creation software is terminated (S28), the power of the personal computer 24 is turned off (S29), and the process is terminated.

(Inspection of molding machine)
Next, the case where the apparatus to be inspected is the molding machine 50 will be described with reference to FIGS. 6 shows the molding machine 50 in a front view, and FIG. 7 shows a plan view (FIG. 7 (A)) and a front view (FIG. 7 (A)) of a hydraulic unit 56 constituting a part of the molding machine 50. B)) and a side view (FIG. 7C). A bar code (not shown) indicating identification data of the molding machine 50 is attached to the molding machine 50 for device identification.

  As shown in FIG. 6, the molding machine 50 is a device that molds foundry sand in the upper and lower casting frames 52. In the molding machine 50 of FIG. 6, the upper and lower casting frames 52 are arranged in two pairs on the left and right sides, and in the casting frame 52 arranged on the left side in the figure, the foundry sand is squeezed, In the casting frame 52 arranged on the right side in the figure, the molded mold is extracted. These cast frames 52 can be swung around a rotation axis 59X in the vertical direction of the apparatus by a cast frame turning mechanism 59, and the left and right positions in the drawing can be switched. Further, a sand blowing port is formed on the side wall of each casting frame 52.

  The upper and lower casting frames 52 can be moved up and down along the connecting shaft 51 whose axial direction is the vertical direction of the apparatus by the operation of the cylinder 57. A match plate is sandwiched between the upper and lower casting frames 52. A squeeze plate (also referred to as a squeeze board) 55 can be inserted into the upper opening of the upper casting frame 52 and the lower opening of the lower casting frame 52, respectively. The squeeze plate 55 can be moved up and down by a hydraulic cylinder 54. That is, the hydraulic cylinder 54 is for driving to squeeze the foundry sand in the casting frame 52. The hydraulic cylinder 54 is connected to a hydraulic unit 56 shown in FIG. The hydraulic unit 56 is a part to be inspected in advance set in the molding machine 50, and a bar code (not shown) indicating identification data of the hydraulic unit 56 is attached to the hydraulic unit 56.

  The hydraulic unit 56 includes a hydraulic tank 56A that stores oil to be supplied to the hydraulic cylinder 54 (see FIG. 6), and pressurizes the hydraulic tank 56A to supply oil to the hydraulic cylinder 54 (see FIG. 6). 56B. The hydraulic unit 56 includes an oil cleaner 56C that filters oil pressurized by the hydraulic pump 56B. The oil cleaner 56C includes a housing provided in an oil supply path and a filtration element accommodated in the housing.

  In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the hydraulic unit 56 shown in FIG. 7, the display unit 20E (see FIG. 1) displays an inspection screen. In addition, the amount of oil in the hydraulic tank 56A, the pressure by the hydraulic pump 56B, the pressure acting on the oil cleaner 56C, and the temperature of the oil in the hydraulic tank 56A are displayed as inspection items.

  The amount of oil in the hydraulic tank 56A is confirmed by viewing the oil level gauge 56D provided in the hydraulic tank 56A. The inspection operator determines whether or not the oil in the hydraulic tank 56A is filled up to a preset reference oil level, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). The pressure by the hydraulic pump 56B is confirmed by operating the hydraulic pump 56B and visually reading a pressure gauge 56E provided in the hydraulic pump 56B. The inspection operator determines whether or not the value of the pressure gauge 56E indicates a preset pressure value, and inputs the determination result (inspection result) to the portable terminal 20 (see FIG. 1).

  Further, the pressure acting on the oil cleaner 56C is confirmed by operating the hydraulic pump 56B and visually observing the pressure gauge 56F provided on the oil cleaner 56C. The inspection operator determines whether or not the meter of the pressure gauge 56F is within a preset range, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Further, the temperature of the oil in the hydraulic tank 56A is confirmed by visually observing the oil temperature type 56G provided in the hydraulic tank 56A. The inspection operator determines whether or not the value of the oil temperature form 56G is equal to or lower than a preset temperature, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1).

  Here, the hydraulic cylinder 54 (see FIG. 6) is checked by checking and maintaining the amount of oil in the hydraulic tank 56A, the pressure by the hydraulic pump 56B, the pressure acting on the oil cleaner 56C, and the temperature of the oil in the hydraulic tank 56A. Works well and the foundry sand is squeezed well.

  On the other hand, as shown in FIG. 6, the molding machine 50 includes a release agent tank 58 that stores the release agent, and a mold release that sprays the release agent stored in the release agent tank 58 into the casting frame 52. Agent spray 60 (refer to a partially enlarged view). The release agent tank 58 and the release agent spray 60 are parts that are inspection targets set in advance in the molding machine 50. A bar code (not shown) indicating identification data for the release agent tank 58 is attached to the periphery of the release agent tank 58, and identification data for the release agent spray 60 is provided to the periphery of the release agent spray 60. A bar code (not shown) is attached.

  The portable terminal 20 shown in FIG. 1 has a display unit 20E (see FIG. 1) when the barcode 18 read by the barcode reader 20A is identification data representing the release agent spray 60 shown in FIG. On the inspection screen, clogging of the release agent spray 60 and liquid leakage from the release agent spray 60 are displayed as inspection items.

  The clogging of the release agent spray 60 and the liquid leakage from the release agent spray 60 are confirmed by visual observation. The inspection operator determines whether the release agent spray 60 is clogged and whether there is liquid leakage from the release agent spray 60, and inputs the determination result (inspection result) to the portable terminal 20 (see FIG. 1). To do. Here, the clogging of the release agent spray 60 and the liquid leakage from the release agent spray 60 are checked and maintained, so that the release agent stored in the release agent tank 58 is good in the casting frame 52. Then, the mold is satisfactorily removed from the casting frame 52.

  Further, the portable terminal 20 shown in FIG. 1 has a display unit 20E (see FIG. 1) when the barcode 18 read by the barcode reader 20A is identification data representing the release agent tank 58 shown in FIG. ) Displays the amount of the release agent stored in the release agent tank 58 as an inspection item on the inspection screen.

  The amount of the release agent stored in the release agent tank 58 is confirmed by observing an inspection window (not shown) of the release agent tank 58. The inspection operator determines whether or not the amount of the release agent stored in the release agent tank 58 is greater than or equal to a predetermined amount set in advance, and the determination result (inspection result) is stored in the mobile terminal 20 (see FIG. 1). input. Further, the amount of the release agent stored in the release agent tank 58 is checked and maintained, so that the release agent is satisfactorily supplied from the release agent tank 58 into the casting frame 52, and from the casting frame 52. The mold is pulled out well.

  The molding machine 50 also includes a gate 62 that is used for forming a gate in the molded mold and can be expanded and contracted inside the casting frame 52. The base end of the gate 62 is fixed to the squeeze plate 55 described above, and the vertical direction of the apparatus is the axial direction, and the distal end side is configured to be extendable. Note that the sprue means the first flow path for introducing the molten metal into the mold, and this sprue is connected to the runner. The gate 62 is a part to be inspected in advance set in the molding machine, and a bar code (not shown) indicating identification data of the gate 62 is attached around the gate 62. .

  In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the gate bar 62 shown in FIG. 6, the display unit 20E (see FIG. 1) displays an inspection screen. The movement of the gate 62 is displayed as an inspection item. The movement of the gate bar 62 is confirmed by visual observation. The inspection operator determines whether or not the gate bar 62 moves smoothly, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Here, by checking and maintaining the movement of the gate bar 62, an appropriate gate can be formed in the mold.

  Further, the molding machine 50 includes a punching pin 64 provided on the casting frame 52. The punching pin 64 is mounted so as to be capable of protruding and retracting at the opposing portion of the upper and lower casting frames 52 (that is, the lower end surface of the upper casting frame 52 and the upper end surface of the lower casting frame 52). Thus, relative movement in the vertical direction of the apparatus with respect to the casting frame 52 is enabled. When the mold is removed after the molding is completed, the mold plate 64 is pressed from above and below the match plate sandwiched between the cast frames 52, so that a gap is formed between the cast frame 52 and the match plate that are strongly adhered. After such a gap is formed, the mold opening is performed by raising the upper casting frame 52 or lowering the lower casting frame 52. The cast frame 52 provided with the punch pin 64 is a part to be inspected in advance, and a bar code (not shown) indicating identification data of the cast frame 52 is attached to the cast frame 52. ing.

  In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the casting frame 52 shown in FIG. 6, the display unit 20E (see FIG. 1) displays an inspection screen. The movement of the punching pin 64 is displayed as an inspection item. The movement of the punching pin 64 is confirmed by visual observation. The inspection operator determines whether or not the punch pin 64 moves smoothly, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Here, the movement of the punching pin 64 is inspected and maintained, so that the punching pin 64 operates properly after molding and a good mold opening is performed.

  Further, the molding machine 50 includes an aeration tank portion 66 for filling a molding molding space formed inside the casting frame 52 with casting sand. An aeration nozzle 68 is formed in the lower end opening of the aeration tank portion 66. Further, a slide gate 70 for opening and closing the upper end opening by sliding is provided at the upper end opening for casting sand of the aeration tank 66. Although detailed explanation is omitted, in the molding machine 50, the sand blowing port on the side wall of the casting frame 52 is brought into contact with the aeration nozzle 68 so that the sand filling from the aeration nozzle 68 to the casting frame 52 can be performed. A mechanism for moving the casting frame 52 is provided. The aeration tank unit 66 is a part to be inspected in advance set in the molding machine 50, and the aeration tank unit 66 is provided with a barcode (not shown) indicating identification data of the aeration tank unit 66. ing.

  In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the aeration tank unit 66 shown in FIG. 6, the display unit 20E (see FIG. 1) is inspected. The screen displays the wear and clogging of the aeration nozzle 68 and the wear of the slide gate 70 as inspection items. The wear and clogging of the aeration nozzle 68 can be confirmed by visual observation. The inspection operator determines whether the aeration nozzle 68 is worn or clogged beyond the allowable limit, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). The wear of the slide gate 70 is also confirmed by visual observation. The inspection operator determines whether or not the slide gate 70 is worn beyond the allowable limit, and inputs the determination result (inspection result) to the portable terminal 20 (see FIG. 1).

  Here, the wear and clogging of the aeration nozzle 68 are inspected and maintained, so that the foundry sand inside the aeration tank portion 66 is satisfactorily filled into the mold making space. Moreover, since the slide gate 70 operates favorably by checking and maintaining the wear of the slide gate 70, the foundry sand is satisfactorily supplied into the aeration tank section 66.

  The molding machine 50 described above is provided with a bar code (not shown, see reference numerals 18A and 18B in FIG. 1 and an inspection item identification unit) representing inspection item identification data for a part to be inspected. Although detailed explanation is omitted, these bar codes are provided on a part to be inspected corresponding to an inspection item or a peripheral part thereof. That is, in the molding machine 50, the barcodes representing the identification data of the inspection items are the barcodes 18A and 18B described in the above “Outline of the apparatus inspection system” and “Processing procedure using the apparatus inspection system” (FIG. 1). In this way, by providing a barcode representing inspection item identification data, the inspection result is input after the barcode is read by the barcode reader 20A of the portable terminal 20 shown in FIG. 1 for each inspection item. Therefore, it is possible to support the solidification of the inspection.

(Inspection of granulator)
Next, a case where the apparatus to be inspected is a granulator 76 will be described with reference to FIG. FIG. 8 shows the granulator 76 in a front view. A bar code (not shown) indicating identification data of the granulator 76 is attached to the granulator 76 for device identification.

  A granulator 76 shown in FIG. 8 is an apparatus that compresses and forms a granulated product (briquette) by pressurizing and solidifying a supplied raw material. The granulator 76 includes a hopper 78, a feeder screw 80 provided inside the hopper 78, and a pair of rolls 82 provided below the hopper 78.

  The pair of rolls 82 are each formed in a ring shape in cross section perpendicular to the rotational axis thereof, and are arranged in parallel and in close contact with each other in such a manner that their rotational axes are parallel to each other. A plurality of concave pockets (not shown) are formed on the outer peripheral surfaces of the pair of rolls 82. The pockets formed on the outer peripheral surfaces of the pair of rolls 82 are formed at positions aligned with each other in the circumferential direction on the outer peripheral surfaces.

  Further, the feeder screw 80 provided in the hopper 78 is provided with a helical fin (not shown) around its shaft portion (rotating shaft). A variable speed motor 86 for rotating the feeder screw 80 is connected to the shaft portion of the feeder screw 80 via a driving force transmission mechanism 84. The feeder screw 80 pushes the raw material in the hopper 78 between the pair of rolls 82 by rotating with the rotational driving force of the variable speed motor 86.

  On the other hand, a variable speed motor (not shown) for rotating the roll 82 is connected to shaft portions of the pair of rolls 82 via a driving force transmission mechanism (not shown). The driving force of the variable speed motor is converted into two outputs that are opposite to each other by the driving force transmission mechanism. The pair of rolls 82 are rotated in the opposite directions by the rotational driving force of the variable speed motor, so that the raw materials supplied between them are pressurized and solidified to compress and form the granulated material.

  The pair of rolls 82 and the feeder screw 80 are parts that are inspection targets set in advance in the granulator 76. A bar code (not shown) indicating identification data for the pair of rolls 82 is attached to the peripheral portion of the pair of rolls 82, and a bar code indicating identification data for the feeder screw 80 is provided to the peripheral portion of the feeder screw 80. (Not shown) is attached.

  In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the pair of rolls 82 shown in FIG. 8, the display unit 20E (see FIG. 1) is inspected. The screen displays the wear and noise of the pair of rolls 82 and the pressure between the pair of rolls 82 as inspection items. The wear and abnormal noise of the pair of rolls 82 are confirmed by viewing. The inspection operator determines the degree of wear and abnormal noise of the pair of rolls 82, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Moreover, the pressure between a pair of rolls 82 is confirmed by reading a pressure gauge (illustration omitted) visually. The inspection operator determines whether or not the pressure display value between the pair of rolls 82 is a pressure value assumed in advance, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1).

  Further, the portable terminal 20 shown in FIG. 1 has a display unit 20E (see FIG. 1) when the barcode 18 read by the barcode reader 20A is identification data representing the feeder screw 80 shown in FIG. The inspection screen displays wear and abnormal noise of the feeder screw 80 as inspection items. The wear and abnormal noise of the feeder screw 80 are confirmed by viewing. The inspection operator determines the degree of wear and abnormal noise of the feeder screw 80, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1).

  Here, the wear and abnormal noise of the feeder screw 80 are inspected and maintained, so that an appropriate amount of the raw material in the hopper 78 can be pushed between the pair of rolls 82. As a result, an appropriately shaped granulated product is formed with an appropriate amount of raw material. Moreover, the density of a granulated material is favorably maintained because the pressure setting value between a pair of rolls 82 and the pressure display value between a pair of rolls 82 are inspected and maintained.

  The granulator 76 described above is provided with a bar code (not shown, see reference numerals 18A and 18B in FIG. 1, an inspection item identification unit) representing identification data of inspection items in a part to be inspected. Although detailed explanation is omitted, these bar codes are provided on a part to be inspected corresponding to an inspection item or a peripheral part thereof. That is, in the granulator 76, barcodes representing inspection item identification data are the barcodes 18A and 18B (explained in the above "Outline of apparatus inspection system" and "Processing procedure using apparatus inspection system"). It is a component corresponding to FIG. In this way, by providing a barcode representing inspection item identification data, the inspection result is input after the barcode is read by the barcode reader 20A of the portable terminal 20 shown in FIG. 1 for each inspection item. Therefore, it is possible to support the solidification of the inspection.

(Inspection of brush polishing equipment)
Next, a case where the apparatus to be inspected is the brush polishing apparatus 90 will be described with reference to FIGS. 9 and 10. 9 shows the brush polishing apparatus 90 in a front view, and FIG. 10 shows the brush polishing apparatus 90 in a side view. The brush polishing apparatus 90 is provided with a barcode (not shown) indicating identification data of the brush polishing apparatus 90 for identifying the apparatus.

  As shown in FIG. 10, the brush polishing apparatus 90 includes a revolving table 104 arranged in a range including the polishing chamber 102. The revolution table 104 is driven to rotate by a motor 106. On the revolution table 104, a plurality of (two in this embodiment) rotation tables 108 arranged at equal intervals in the circumferential direction are arranged. When the rotation table 108 is disposed at a predetermined position in the polishing chamber 102 (a position below a brush 96 described later), the rotation table 108 is driven to rotate by receiving the driving force of the motor 110.

  The rotation table 108 includes an installation unit 92 on which an object to be processed is installed. In addition, the rotation table 108 is provided with an attachment jig 94 for attaching the object to be processed to the installation portion 92. On the other hand, a brush 96 is provided in the polishing area of the polishing chamber 102 at a height position above the revolving table 104 and the rotating table. The brush 96 is disposed with its hair end facing downward, and is driven to rotate by a drive motor 98 shown in FIGS. 9 and 10. Thus, the brush 96 shown in FIG. 10 polishes the surface of the object to be processed by coming into contact with the object to be processed attached to the installation portion 92 by the attachment jig 94 while rotating. Further, the brush polishing apparatus 90 includes a coolant circulation unit 100 that circulates the coolant as well as a mechanism (not shown) that injects coolant to a contact portion between the brush 96 and the object to be processed and a peripheral portion thereof. .

  The drive motor 98 shown in FIG. 9 and FIG. 10 is a part to be inspected in advance set in the brush polishing apparatus 90, and the identification data of the drive motor 98 is expressed around the drive motor 98. A bar code (not shown) is attached. In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the drive motor 98 shown in FIG. 10, the display unit 20E (see FIG. 1) displays an inspection screen. The current value, abnormal noise and vibration of the drive motor 98 are displayed as inspection items.

  The current value of the drive motor 98 is confirmed by viewing the ammeter, and abnormal noise and vibration of the drive motor 98 are confirmed by viewing. The inspection operator determines whether or not the current value of the drive motor 98 is a current value assumed in advance and the degree of abnormal noise and vibration of the drive motor 98, and the determination result (inspection result) is sent to the mobile terminal 20 ( (See FIG. 1). Thereby, the presence or absence of a failure of the basic function of the brush polishing apparatus 90 is confirmed in advance. Here, the current value, abnormal noise, and vibration of the drive motor 98 are inspected and maintained, so that the brush 96 shown in FIG. 10 rotates properly, and the surface of the object to be processed is well polished by the brush 96. Is done.

  A brush 96 shown in FIG. 10 is a part to be inspected in advance set in the brush polishing apparatus 90, and a bar code (illustrated) indicating data for identifying the brush 96 is provided around the brush 96. Is omitted). In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the brush 96 shown in FIG. 10, the display unit 20E (see FIG. 1) is displayed on the inspection screen. The wear of the brush 96 is displayed as an inspection item.

  The wear of the brush 96 is confirmed by visual observation. The inspection operator determines the degree of wear of the brush 96 and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Here, the surface of the object to be treated is precisely polished by the brush 96 by checking and maintaining the wear of the brush 96.

  Further, the coolant circulation unit 100 is also a part to be inspected in advance set in the brush polishing apparatus 90, and a barcode (identifying data for identifying the coolant circulation unit 100) is provided around the coolant circulation unit 100. (Not shown) is attached. In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the coolant circulation unit 100 shown in FIG. 10, the display unit 20E (see FIG. 1) is inspected. The coolant circulation is displayed on the screen as an inspection item.

  The circulation of the coolant is confirmed by observing the operating state of the coolant circulation unit 100. The inspection operator determines whether or not the coolant is circulated normally, and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Here, the coolant circulation is inspected and maintained, so that the coolant is cooled well when the object to be treated is polished by the brush 96.

  Further, the mounting jig 94 is also a part to be inspected in advance set in the brush polishing apparatus 90, and a bar code (representing data for identifying the mounting jig 94) is provided around the mounting jig 94. (Not shown) is attached. In the portable terminal 20 shown in FIG. 1, when the barcode 18 read by the barcode reader 20A is identification data representing the mounting jig 94 shown in FIG. 10, the display unit 20E (see FIG. 1) is inspected. The wear of the mounting jig 94 is displayed on the screen as an inspection item.

  The wear of the mounting jig 94 is confirmed by visual observation. The inspection operator determines the degree of wear of the mounting jig 94 and inputs the determination result (inspection result) to the mobile terminal 20 (see FIG. 1). Here, the wear of the mounting jig 94 is inspected and maintained, so that the object to be processed is polished in a properly mounted state.

  The brush polishing apparatus 90 described above is provided with a bar code (not shown, see reference numerals 18A and 18B in FIG. 1, an inspection item identification unit) representing identification data of inspection items in a part to be inspected. Although detailed explanation is omitted, these bar codes are provided on a part to be inspected corresponding to an inspection item or a peripheral part thereof. That is, in the brush polishing apparatus 90, barcodes representing inspection item identification data are the barcodes 18A and 18B (described in the "Outline of apparatus inspection system" and "Processing procedure using apparatus inspection system" described above). It is a component corresponding to FIG. In this way, by providing a barcode representing inspection item identification data, the inspection result is input after the barcode is read by the barcode reader 20A of the portable terminal 20 shown in FIG. 1 for each inspection item. Therefore, it is possible to support the solidification of the inspection.

[Second Embodiment]
Next, an apparatus inspection system according to a second embodiment of the present invention will be described with reference to the drawings showing the first embodiment. The second embodiment has the same configuration as the first embodiment except for the points described below. Therefore, description of the same components as those in the first embodiment is omitted.

  In the second embodiment, the barcode 18 (component identification unit) that represents the identification data of the component 14 to be inspected shown in FIG. 1 is not provided. On the other hand, barcodes 18A and 18B (inspection item identification units) representing inspection item identification data in the component 14 to be inspected are provided in the device 14 to be inspected in advance set in the device 12 or in the surrounding area. ing.

  In the second embodiment, the control unit 20B shown in FIG. 3 uses the identification data (barcode 12B data) of the device 12 (see FIG. 1) acquired from the barcode reader 20A as a key. Refer to the inspection item table and the criterion table. Then, the control unit 20B causes the display unit 20E to display the referenced inspection item and determination criterion data according to a predetermined display format. As described above, the display unit 20E displays inspection items and the like according to the identification data of the barcode 12B read by the barcode reader 20A.

  The processing procedure using the apparatus inspection system in the second embodiment differs from the processing procedure in the first embodiment shown in FIG. 5A in the following points. First, instead of “the step of displaying the inspection parts of the entire device on the portable terminal” (S3) shown in FIG. 5A, the “step of displaying the inspection items of the entire device on the portable terminal” is applied. The Further, the “step of scanning the barcode of the inspection part with the portable terminal” (S4) and the “step of determining whether there is an uninspected part” (S8) shown in FIG. 5A are not applied.

  Also according to the second embodiment described above, it is possible to surely inspect the corresponding parts at each inspection point of the apparatus.

(Supplementary explanation of the embodiment)
In addition, in the said embodiment, about what is determined visually at the time of an inspection, an inspection location may be image | photographed and various determinations may be carried out using the data of the image | photographed image together.

  In the first embodiment, as shown in FIG. 1, the component identification unit is a barcode 18, but the component identification unit is a barcode such as a character, a pattern including a number, for example. Other parts identification parts other than may be sufficient. Similarly, in the above embodiment, the inspection item identification unit is the barcode 18A, 18B. However, the inspection item identification unit may be other than the barcode such as a character, a pattern including a number, for example. It may be an inspection item identification unit. The same applies to the device identification unit that represents the device identification data.

  In the above embodiment, the case where the computer (first computer) is the personal computer 24 shown in FIG. 2 has been described as an example. However, the computer (first computer) may be a large computer. Similarly, the second computer may be a large computer instead of the personal computer 38 shown in FIG.

  Further, the apparatus including the parts to be inspected may be an apparatus other than the above-described embodiment such as a centrifugal projection type shot processing apparatus, an air jet type shot processing apparatus, a barrel polishing machine, and the like.

  In addition, as a modification of the first embodiment, a configuration in which a barcode as an inspection item identification unit is not provided may be employed. In the apparatus inspection system according to this modification, the control unit 20B shown in FIG. 3 stores the identification data (data of the barcode 18) of the component 14 (see FIG. 1) acquired from the barcode reader 20A as a key. Reference is made to the inspection item table and the criterion table in the section 20D. Then, the control unit 20B causes the display unit 20E to display the referenced inspection item and determination criterion data according to a predetermined display format. Further, the processing procedure using the apparatus inspection system according to this modification is shown in the processing procedure in the first embodiment of FIG. 5 (A) by scanning the barcode of the inspection item according to the screen of the portable terminal, Instead of “step of performing” (S5), “step of performing inspection according to the screen of the portable terminal” is applied.

  As a modification of the above embodiment, the sensor-equipped transmitter (see FIG. 4) detects any two of vibration, noise, and temperature of the component and transmits the detected detection information wirelessly. May be. As another modification, the transmitter with a sensor may detect any one of vibration, noise, and temperature of the component and transmit the detected detection information wirelessly.

  As a modification of the above embodiment, a configuration in which the sensor-equipped transmitter 42A, the receiver 42C, and the mobile router 42D shown in FIG. 4 are not installed may be employed.

  In addition, the said embodiment and the above-mentioned some modification can be implemented combining suitably.

  Although an example of the present invention has been described above, the present invention is not limited to the above, and it is needless to say that various modifications can be made without departing from the spirit of the present invention. .

10 Device Inspection System 12 Device 14 Parts 18 Bar Code (Part Identification Part)
18A, 18B Barcode (Inspection item identification part)
20 Mobile terminal 20A Bar code reader (reading unit)
20E display unit 20F transmission unit 24 personal computer (first computer (computer))
24A Reception unit 24D Storage unit 24G Table creation unit 32C Management server 38 Personal computer (second computer)
42A transmitter with sensor 42C receiver 42D mobile router 50 molding machine (device)
52 Cast Frame 54 Hydraulic Cylinder 56 Hydraulic Unit 56A Hydraulic Tank 56B Hydraulic Pump 56C Oil Cleaner 58 Release Agent Tank 60 Release Agent Spray 62 Spout Bar 64 Punching Pin 66 Aeration Tank Part 68 Aeration Nozzle 70 Slide Gate 76 Granulator (Device) )
78 Hopper 80 Feeder screw 82 Roll 90 Brush polishing device (device)
92 Installation section 94 Mounting jig 96 Brush 98 Drive motor 100 Coolant circulation section

Claims (20)

A component identification unit that is provided in the device to be inspected in advance or in the periphery thereof, and that represents data for identifying the component to be inspected,
A reading unit that reads the component identification unit of a component to be inspected, a display unit that displays an inspection screen according to the identification data of the component identification unit read by the reading unit, and an input that is input according to the inspection screen A mobile terminal provided with a transmitter for transmitting information on the inspection results,
While receiving the inspection result information transmitted from the transmission unit of the portable terminal, a storage unit storing the inspection result information received by the receiving unit, and reading the inspection result information from the storage unit A first computer comprising a tabulation unit for converting inspection result information into a table format for printing or display; and
A sensor-attached transmitter that is attached to at least one of the parts to be inspected and detects at least vibration, noise, and temperature of the part and transmits the detected detection information wirelessly;
A receiver for receiving detection information transmitted from the transmitter with sensor;
A mobile router connected to the receiver and transmitting detection information received by the receiver to a wireless base station in a wireless network connected to a communication line network;
A management server that receives and stores detection information from the mobile router via the wireless base station and the communication line network;
A second computer connected to the communication line network, installed at a customer site, and accessible to the detection information stored in the management server via the communication line network;
Equipment inspection system. An inspection item identification unit that is provided in the part to be inspected or the peripheral part of which the identification data is represented by the part identification unit, and represents the inspection item identification data in the part to be inspected,
A reading unit that reads the inspection item identification unit, a display unit that displays inspection items according to the identification data of the inspection item identification unit read by the reading unit, and information on inspection results input for each inspection item A mobile terminal equipped with a transmission unit for transmitting
The apparatus inspection system according to claim 1, comprising:   The apparatus inspection system according to claim 2, wherein each of the component identification unit and the inspection item identification unit is configured by a barcode, and the reading unit is a barcode reader that reads the barcode.   The said apparatus is an apparatus inspection system of any one of Claims 1-3 which is a molding machine which shape | molds the foundry sand in a casting frame. The molding machine includes a hydraulic cylinder for driving to squeeze the foundry sand in the casting frame;
The parts to be inspected in advance in the molding machine include a hydraulic tank that stores oil to be supplied to the hydraulic cylinder, a hydraulic pump that pressurizes the oil in the hydraulic tank to be supplied to the hydraulic cylinder, Including a hydraulic unit with
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the hydraulic unit, the display unit displays an oil amount in the hydraulic tank and a pressure by the hydraulic pump on an inspection screen. The apparatus inspection system according to claim 4 , wherein the inspection item is displayed as an inspection item. The molding machine includes a hydraulic cylinder for driving to squeeze the foundry sand in the casting frame;
The parts to be inspected in advance in the molding machine include a hydraulic tank that stores oil to be supplied to the hydraulic cylinder, a hydraulic pump that pressurizes the oil in the hydraulic tank to be supplied to the hydraulic cylinder, An oil cleaner that filters oil pressurized by the hydraulic pump, and a hydraulic unit comprising:
In the portable terminal, when the data of the part identification unit read by the reading unit is identification data representing the hydraulic unit, the display unit applies pressure to the oil cleaner on the inspection screen and the hydraulic tank The apparatus inspection system of Claim 4 which displays the temperature of oil as an inspection item. The molding machine includes a release agent tank that stores a release agent supplied into the casting frame, a release agent spray that sprays the release agent stored in the release agent tank into the casting frame, With
The parts to be inspected in advance in the molding machine include the release agent spray,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the release agent spray, the display unit clogs the release agent spray on the inspection screen and the data The apparatus inspection system according to claim 4 , wherein liquid leakage from the release agent spray is displayed as an inspection item. The parts to be inspected in advance in the molding machine include a release agent tank that stores a release agent to be supplied into the casting frame,
In the portable terminal, when the data of the part identification unit read by the reading unit is identification data representing the release agent tank, the display unit displays the release agent stored in the release agent tank on the inspection screen. The apparatus inspection system of Claim 4 which displays the quantity of a mold agent as an inspection item. The parts to be inspected in advance in the molding machine include a gate bar that is used for forming a gate in the molded mold and can be expanded and contracted inside the casting frame.
In the portable terminal, when the data of the part identification unit read by the reading unit is identification data representing the gate bar, the display unit displays the movement of the gate bar as an inspection item on the inspection screen. The apparatus inspection system according to claim 4 . The molding machine is provided with a mold pin that is mounted so as to be capable of appearing and retracting at a facing portion of the upper and lower pairs of the casting frames and moves relative to the casting frame at the time of operation,
The parts to be inspected in advance in the molding machine include the casting frame provided with the punching pins,
The portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the casting frame, the display unit displays the movement of the punch pin as an inspection item on the inspection screen. The apparatus inspection system according to claim 4 . The molding machine includes an aeration tank part for filling casting sand into a mold molding space formed inside the casting frame, and an aeration nozzle is formed at a lower end opening of the aeration tank part,
The parts to be inspected in advance set in the molding machine include the aeration tank part,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the aeration tank unit, the display unit uses the aeration nozzle as a check item on the inspection screen. The apparatus inspection system according to claim 4 , which is displayed. The molding machine includes an aeration tank portion for filling molding molding space formed inside the casting frame with casting sand, and the upper end opening for casting sand injection of the aeration tank portion is provided with the upper end opening. There is a slide gate that opens and closes,
The parts to be inspected in advance set in the molding machine include the aeration tank part,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the aeration tank unit, the display unit displays wear of the slide gate as an inspection item on an inspection screen. The apparatus inspection system according to claim 4 . The device is
The cross-sections perpendicular to the rotation axis are formed in a ring shape and are arranged so that the rotation axes are parallel to each other, and the raw materials supplied between them are pressed and solidified with rotation to form a granulated product. A pair of rolls that compress and form,
A hopper disposed above the pair of rolls;
A feeder screw which is provided in the hopper and pushes the raw material in the hopper between the pair of rolls as it rotates;
The apparatus inspection system of any one of Claims 1-3 which is a granulator provided with this. The parts to be inspected preset in the granulator include the pair of rolls and the feeder screw,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the pair of rolls, the display unit checks the wear and noise of the pair of rolls on an inspection screen. When the data of the component identification unit read by the reading unit is identification data representing the feeder screw, the display unit checks the wear and noise of the feeder screw on the inspection screen. The apparatus inspection system according to claim 13 , which is displayed as: The parts to be inspected in advance set in the granulator include the pair of rolls,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the pair of rolls, the display unit checks the pressure between the pair of rolls on the inspection screen. The apparatus inspection system according to claim 13 , which is displayed as: The device is
An installation section where the object to be treated is installed;
An attachment jig for attaching the object to be treated to the installation part;
A brush that polishes the surface of the object to be processed by rotating and contacting the object to be processed attached to the installation part by the attachment jig;
A drive motor for rotating the brush;
The apparatus inspection system of any one of Claims 1-3 which is a brush grinding | polishing apparatus provided with. The parts to be inspected in advance set in the brush polishing apparatus include the drive motor,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the drive motor, the display unit displays the current value, abnormal noise, and vibration of the drive motor on the inspection screen. The apparatus inspection system according to claim 16 , which is displayed as an inspection item. The parts to be inspected in advance set in the brush polishing apparatus include the brush,
Said portable terminal, when the data of the part identification unit the reading unit has read is identification data representative of said brush, said display unit displays the inspection item wear of the brush inspection screen, claim 16. The apparatus inspection system according to 16 . The brush polishing apparatus includes a coolant circulation portion that circulates a coolant sprayed to a contact portion between the brush and an object to be processed and a peripheral portion thereof,
The parts to be inspected in advance set in the brush polishing apparatus include the coolant circulation part,
When the data of the component identification unit read by the reading unit is identification data representing the coolant circulation unit, the display unit displays the circulation of the coolant on the inspection screen as an inspection item. The apparatus inspection system according to claim 16 . The parts to be inspected preset in the brush polishing apparatus include the mounting jig,
In the portable terminal, when the data of the component identification unit read by the reading unit is identification data representing the mounting jig, the display unit displays wear of the mounting jig as an inspection item on an inspection screen. The apparatus inspection system according to claim 16 .

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