JP4131962B2 - Instrument inspection device - Google Patents

Description

  The present invention relates to an apparatus for performing inspections such as operation confirmation of display parts such as lamp parts of appliances and operation confirmation of switches.

  As a device for confirming the operation of an electrical component provided in the instrument, for example, a display lamp, as in the prior art, for example, Japanese Utility Model Laid-Open No. 56-135170 (Patent Document 1), a switch dedicated to inspection is turned on. Thus, there is known a circuit in which a circuit for executing a required inspection process is operated to inspect whether or not display (lighting) of a display lamp is normally performed.

In addition, in an instrument equipped with a microcomputer (hereinafter referred to as a microcomputer in this section), the original microcomputer (to control the operation of the instrument) is connected to the control circuit board to which the electrical component to be inspected is connected at the manufacturing factory. Instead of the microcomputer mounted on the instrument), after installing a dedicated microcomputer for inspection, the specific microcomputer performs the specified inspection process to inspect the electrical component to be inspected. Are known.
Japanese Utility Model Publication No. 56-135170

  However, since the switch as described in Patent Document 1 uses a switch or a circuit dedicated to inspection, there is a disadvantage that it causes an increase in the product cost of the instrument. In addition, it is difficult for a maintenance / inspector or the like to easily inspect electric parts after shipping the appliance. In this case, it is also conceivable that a switch or a circuit dedicated to the inspection is incorporated in the instrument so that the inspection can be performed after the instrument is shipped. However, in that case, the product cost increases, and if the user of the instrument mistakenly operates the switch for inspection, the user may perform an unexpected instrument operation, which may be mistaken for a malfunction of the instrument. There is also.

  Further, in the case of using a microcomputer dedicated to inspection, the use of the dedicated microcomputer causes an increase in product cost as in Patent Document 1. In addition, the work of attaching and detaching the microcomputer to and from the control circuit board requires a countermeasure against static electricity, requires careful work, and is troublesome.

  The present invention has been made in view of such a background, and can inspect electric parts of an instrument at low cost without using a dedicated switch or microcomputer for the inspection. An inspection device that allows a maintenance / inspector or the like to easily inspect electric components while avoiding a situation in which an electric component inspection operation is erroneously performed by a user even after shipment The purpose is to provide.

  In general, a plurality of electrical components are connected to a control circuit that controls the operation of the instrument. In this type of equipment, in order to monitor the occurrence of abnormalities during normal operation, the control circuit detects the presence or absence of disconnection of some electrical components (eg, thermistors and fuses). There are many cases. In this case, the disconnection state of the electrical component is a state in which the current between the electrical component and the control circuit is interrupted, and thus is equivalent to a state where the electrical component is not connected to the control circuit. Therefore, the unconnected state can be detected by the control circuit in the same manner as the disconnected state of the unconnected electrical component. Therefore, the present invention uses this.

  That is, the inspection apparatus for an instrument of the present invention includes a control circuit that controls the operation of the instrument and a plurality of electrical components that are detachably connected to the control circuit via connectors. A device for inspecting a specific electrical component among the electrical components and inspecting the electrical component to be inspected, and a predetermined plurality of electrical components excluding the electrical component to be inspected among the plurality of electrical components The electrical components are electrical components that can detect a disconnection state in which a current between the control circuit and the control circuit is interrupted by the control circuit, and the electrical components to be inspected other than the predetermined plurality of electrical components. The at least one electric component is an electric component including one or more operation switches for instructing the operation of the instrument to the control circuit, does not connect the predetermined plurality of electric components to the control circuit, and is small. At least after the electrical component to be inspected and the electrical component including the operation switch are connected to the control circuit and power is supplied to the control circuit, the predetermined operation switch of at least one of the operation switches is predetermined. When the operation is performed, the control circuit is provided with means for executing an inspection process for the electrical component to be inspected, and the predetermined operation switch instructs the control circuit to operate an instrument other than the inspection process. It is a switch that is sometimes operated.

  According to the present invention, since the predetermined plurality of electrical components are not connected to the control circuit, at least the electrical component to be inspected and the electrical component including the operation switch are connected to the control circuit. By supplying power to the control circuit, the control circuit detects that the predetermined plurality of electrical components are not connected as a disconnection state of these electrical components. In this detection state, when a predetermined operation of the predetermined operation switch is performed, the control circuit executes an inspection process for the electrical component to be inspected accordingly. In this case, the predetermined operation switch performs the functional operation of the instrument other than the inspection process, that is, the normal operation of the instrument (the operation of exhibiting the original function of the instrument (excluding the inspection process function) for the user of the instrument). This switch is also operated when instructing the control circuit.

  Therefore, according to the present invention, it is possible to inspect the electrical parts of the instrument at a low cost without using a dedicated switch or microcomputer for the inspection. In addition, since it is almost impossible for actual disconnection of the predetermined plurality of electrical components to occur at the same time, unless the predetermined plurality of electrical components are intentionally removed from the control circuit, the user using the appliance Even if a predetermined operation of the predetermined operation switch is mistakenly performed, an inspection process (inspection process of an electrical component to be inspected) unexpected by the user is not performed. When the maintenance / inspection company replaces the electrical component to be inspected of the appliance used by the user, the contractor can use the electrical component without using a dedicated inspection device. The electrical component can be inspected by connecting to the control circuit of the instrument.

  Therefore, even after the appliance is shipped, a maintenance / inspector can easily inspect the electrical parts while avoiding as much as possible the situation where the user inadvertently inspects the electrical parts. .

  In the present invention, the electrical component to be inspected and the electrical component including the operation switch may be the same electrical component. In this case, connecting the electrical component to be inspected to the control circuit results in that the electrical component including the operation switch is also connected to the control circuit. In the present invention, it is not necessary to connect the electrical parts other than the electrical part to be inspected and the electrical part including the operation switch to the control circuit including the predetermined plurality of electrical parts.

  In the present invention, it is preferable that the predetermined operation switch includes a plurality of operation switches.

  According to this, since a predetermined operation (predetermined combined operation) of a plurality of operation switches is required in order to cause the control circuit to execute the inspection process, an unexpected inspection process by the user after the instrument is shipped. Can be more reliably prevented from being executed.

  In the present invention, the electrical component to be inspected includes a display component whose display state is controlled by the control circuit, and at least the display component is normally displayed in the inspection process executed by the control circuit. It is suitable when including the process of inspecting whether or not. According to this, it is possible to easily inspect whether or not display on a display component (such as a lamp or a digital display) is normally performed without using a dedicated device.

  In this case, in particular, in the inspection process executed by the control circuit, it is preferable to control the electrical component to be inspected so that the display component is displayed in a predetermined form. According to this, when display of the display component is normally performed, the display is performed in a predetermined form, so it is possible to easily visually check whether the display of the display component is normal. it can.

  Further, in the present invention for inspecting a display component as described above, when the electrical component to be inspected is an electrical component including the operation switch, the inspection process executed by the control circuit is performed by the display component. It is preferable to include a process for inspecting whether or not the display is normally performed, and a process for inspecting whether or not the control circuit can normally recognize the operation of the operation switch.

  Thereby, the inspection of the display component and the operation switch included in the electrical component to be inspected can be performed collectively and efficiently without using a dedicated device.

  In this case, in the inspection process performed by the control circuit, the control circuit performs the process of inspecting whether or not the display of the display component is normally performed, and then the control circuit operates the operation switch. In the inspection process related to the operation of the operation switch, the operation switch is operated and the control circuit recognizes the operation. It is preferable to control the display component so that the display component is displayed in a predetermined form.

  According to this, after the display component is inspected and it is confirmed that the display component is normally displayed, the inspection relating to the operation of the operation switch is performed. In the inspection process related to the operation of the operation switch, whether or not the control circuit can recognize the operation of the operation switch by displaying the display component confirmed to be normal in a predetermined display form. It can be easily confirmed visually.

  An embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an external perspective view of a device to which the present invention is applied.

  With reference to FIG. 1, the instrument 1 in the present embodiment is a fan heater with an air purifier, and an operation in which a plurality of operation switches and a plurality of display components, which will be described later, are arranged on the upper surface portion of the outer case 2. A panel 3 and an air outlet 4 cleaned by the air purifier function of the appliance 1 are provided. A warm air outlet 5 for blowing warm air heated by the fan heater function of the appliance 1 is provided at the lower part of the front surface of the outer case 2.

  The upper part of the space inside the exterior case 2 mainly accommodates air cleaner component parts 6 (hereinafter simply referred to as air cleaner 6), and the lower part mainly includes fan heater component parts 7 (hereinafter referred to as air cleaners 6). The fan heater 7 is simply accommodated. Although detailed illustration is omitted, the air purifier 6 includes a fan device that sucks indoor air from the back surface of the outer case 2 and sends it out from the outlet 4, an ion generator that contains ions in the air that is sent out, A filter for purifying indoor air taken in by the fan device is included. In addition, the fan heater 7 sucks room air from the rear part of the combustion case with the gas burner and the exterior case 2 and sends it out from the hot air outlet 5 through the combustion case to the gas burner. And a proportional solenoid valve for adjusting the gas supply amount to the gas burner.

  A control circuit unit 8 in which a control circuit to be described later is incorporated is housed in the upper part of the outer case 2, and the lower part is blown when the temperature of the upper part of the combustion case of the fan heater 7 exceeds a predetermined temperature. The overheat prevention fuse 9 and the blowing temperature thermistor 10 which is a temperature sensor for detecting the blowing temperature from the warm air outlet 5 are housed. Furthermore, a room temperature thermistor 11, which is a temperature sensor for detecting the temperature in the room, is attached to the lower part of the back surface of the exterior case 2. The overheat prevention fuse 9, the blowing temperature thermistor 10, and the room temperature thermistor 11 correspond to “a predetermined plurality of electrical components” in the present invention.

  Although not shown in FIG. 1, a circuit board of the operation panel 3 is provided on the back side of the operation panel 3.

  FIG. 2 shows the details of the operation panel 3. The operation panel 3 includes a plurality of operation switches 12 and a plurality of display components 13. The operation switch 12 and the display component 13 are mounted on the circuit board 14. In the present embodiment, the operation switch 12 includes an operation on / off switch 12a for instructing ON / OFF of the operation of the fan heater 7, and a predetermined operation mode of the fan heater 7 (“good night operation mode”, “good morning operation mode”). A plurality of mode setting switches 12b, 12c, 12d, and 12e for instructing ON / OFF of the operation in "save operation mode" and "retaining operation mode"), and for setting the target room temperature and time An up switch 12f and a down switch 12g and an air purifier switch 12h for instructing whether or not to operate the air purifier 6 during the operation of the fan heater 7 are provided. In addition, the display component 13 includes a plurality of LED lamps 13 a that notify the operating state of the instrument 1, and a digital display 13 b that digitally displays the target room temperature and time using liquid crystals and LEDs.

  FIG. 3 is a block diagram showing a connection configuration between the control circuit unit 8 and electrical components. As shown in the figure, the control circuit unit 8 has a control circuit 16 including a microcomputer (not shown) mounted on a circuit board 15. A signal line 17 connected to the room temperature thermistor 11 is detachably connected to the control circuit unit 8 via a connector 18, and a signal line 19 connected to the overheat prevention fuse 9 and an air temperature thermistor 10 are connected to the control circuit unit 8. The connected signal line 20 is detachably connected via a common connector 21. A signal line 22 connected to the circuit board 14 of the operation panel 3 (hereinafter referred to as the operation panel board 14) is detachably connected to the control circuit unit 8 via a connector 23. The blower temperature thermistor 10 and the overheat prevention fuse 9 may be connected to the control circuit unit 8 via different connectors. In FIG. 3, the operation switch 12 and the display component 13 on the operation panel substrate 14 are typically given reference numerals only for a part thereof for convenience of illustration.

  Although not shown, the control circuit unit 8 includes an overheat prevention fuse 9, a blower temperature thermistor 10, a room temperature thermistor 11, an operation panel board 14 (including the operation switch 12 and the display component 13), and an air cleaner. Electric components such as an electric motor of the fan device of the generator 6, an ion generator, an electric motor of the fan device of the fan heater 7, an electromagnetic valve, a proportional electromagnetic valve, an igniter, and a thermocouple for detecting the combustion flame of the gas burner are connected to these. It is detachably connected via a signal line and a connector.

  Here, as a functional means, the control circuit 16 detects a disconnection state of the overheat prevention fuse 9, the blower temperature thermistor 10, and the room temperature thermistor 11 (a state in which no current flows through these electrical components). And normal operation control means 25 for executing normal operation control processing of the fan heater 7 and the air purifier 6, and the operation relating to the display component 13 and the operation switch 12 of the operation panel board 14 under predetermined conditions. And inspection processing means 26 for executing the inspection processing. The disconnection detecting means 24 is mounted on, for example, a comparison circuit (not shown) for inputting a voltage generated when the fuse 9 for overheating prevention, the blowing temperature thermistor 10 and the room temperature thermistor 11 is energized and a microcomputer for receiving the output of the comparison circuit. Realized by a program. Further, the normal operation control means 25 and the inspection processing means 26 are realized by a control processing function by a program installed in a microcomputer. The “normal operation control process” executed by the normal operation control means 25 is an operation control process of the instrument 1 other than the “inspection process” executed by the inspection processing means 26. In the present embodiment, the electrical component to be inspected is an electrical component including the operation switch 12, the display component 13, and the operation panel substrate 14, and the operation switch 12 and the display component 13 among the electrical components are inspected. The inspection is performed as described later by the inspection process of the processing means 26.

  Next, the operation | movement regarding the test | inspection process of the instrument 1 of this embodiment is demonstrated.

  For example, the operation switch 12 and the display component 13 of the operation panel substrate 14 are inspected (operation confirmation) in a manufacturing factory of the instrument 1 or the like. At this time, the connector 23 related to the operation panel board 14 is connected to the control circuit unit 8, while the connector 21 related to the overheat prevention fuse 9 and the blowing temperature thermistor 10 and the connector 18 related to the room temperature thermistor 11 are connected to the control circuit unit 8. It is assumed that it is not connected to. In this state, power is supplied to the control circuit unit 8. The electrical components other than the operation panel board 14, the overheat prevention fuse 9, the blower temperature thermistor 10, and the room temperature thermistor 11 may or may not be connected to the control circuit unit 8. Moreover, the instrument 1 does not need to be assembled yet.

  At this time, no current flows between all of the overheat prevention fuse 9, the blower temperature thermistor 10, and the room temperature thermistor 11 and the control circuit 16, that is, the overheat prevention fuse 9, the blower temperature thermistor 10, and the room temperature thermistor 11. Since all of the above are pseudo-disconnected, the disconnection state is detected by the control circuit 16.

  In a state where the control circuit 16 detects such a disconnection state, a predetermined operation of one or more specific operation switches of the operation switches 12 is performed by an operator. In this embodiment, for example, the up switch 12f and the down switch 12g are pushed and operated, and the operation on / off switch 12a is further pushed in a state where the pushing operation is continued, and these three switches 12f, 12g and 12a are turned on. Keep pressed for 1 second continuously. When such an operation is performed and the operation is confirmed by the control circuit 16, the operation mode of the control circuit 16 becomes an inspection mode for inspecting the display component 13 (hereinafter referred to as a display inspection mode). In this display inspection mode, the processing of the inspection processing means 26 is executed as shown in the flowchart of FIG.

  The inspection processing means 26 first initializes a timer for measuring a predetermined time (for example, 1 minute) and starts the time measurement (STEP 1). Next, the inspection processing means 26 controls the operation panel board 14 to turn on all the display components 13 (the LED lamps 13a and the digital display 13b) mounted on the operation panel board 14 (hereinafter, all lighting control signals). (Step 2). At this time, if all the display components 13 are normal, all the display components 13 are lit, and if there is a defective product, the display component 13 of the defective product is not lit. Thereby, it is inspected whether display (lighting) of the display component 13 on the operation panel substrate 14 is normally performed.

  Next, the inspection processing means 26 determines whether or not the timer has ended (STEP 3). At this time, if the timer has not finished counting, the inspection processing means 26 further determines whether any one of the operation switches 12 has been operated (STEP 4). If the determination result in STEP 4 is NO, the process returns to STEP 3. If YES, it is determined in STEP 5 whether the operated operation switch 12 is a specific switch, for example, the down switch 12g. . In this case, if the determination result in STEP 3 is YES or the determination result in STEP 5 is NO, the inspection processing unit 26 stops sending all the lighting control signals in STEP 12 (all display components 13 And the inspection process is terminated. Therefore, when the time measured by the timer elapses after the display inspection mode process is started, or when the operation switch 12 other than the down switch 12g is operated, the inspection process of the inspection processing unit 26 ends.

  On the other hand, when the determination result in STEP 5 is YES, that is, when the down switch 12g is operated within the time measured by the timer in a state where the full lighting control signal is transmitted, the inspection processing means 26 The process of the switch inspection mode for inspecting whether or not the 12 operations can be normally recognized by the control circuit 16 is executed.

  In the process of the switch inspection mode, the inspection processing means 26 stops the transmission of the all lighting control signal in STEP 6, initializes the timer, and starts the time measurement (STEP 7). Next, the inspection processing means 26 sequentially determines in STEPs 8 and 9 whether or not the timer has finished counting and whether or not any of the operation switches 12 has been operated. If the determination result in STEP 9 is NO, the process returns to STEP 8, and if YES, it is determined in STEP 10 whether the operated operation switch 12 is a specific operation switch, for example, the up switch 12f. To do. In this case, if the determination result in STEP 8 is YES, the inspection processing means 26 ends the inspection processing. Therefore, when the time measured by the timer elapses when none of the operation switches 12 is operated after the processing of the switch inspection mode is started, the inspection processing of the inspection processing unit 26 ends. If the determination result in STEP 10 is YES, the process returns to STEP 1. Accordingly, when the up switch 12f is pushed in the switch inspection mode, the processing of the inspection processing means 26 returns to the display inspection mode.

  If the determination result in STEP 10 is NO, that is, if the operation switch 12 other than the up switch 12f is operated before the timer time has elapsed in the switch inspection mode, the inspection processing means 26 is used. Performs predetermined display control (control of the display component 13) according to the operation switch 12 on which the operation has been performed, thereby notifying that the operation of the operation switch 12 has been recognized (STEP 11). Then, the processing from STEP 7 is repeated.

  In the display control process of STEP 11, for example, when the operation on / off switch 12 a is operated (pressed) and is normally recognized by the control circuit 16, the operation on / off of the LED lamps 13 is performed. The LED lamp 13a on the upper side of the switch 12a is turned on, the LED lamp 13a on the upper side of the digital display 13b is turned on, and the LED lamps 13a are turned off sequentially. Further, when the operation switches 12b to 12e, 12h other than the operation on / off switch 12a, the up switch 12f, and the down switch 12g are operated (push operation) and are recognized normally by the control circuit 16, The LED lamp 13a on the upper side of the operated operation switch (any one of 12b to 12e, 12h) is turned on and off sequentially (flashes).

  When the operation of each operation switch 12 except the up switch 12f and the down switch 12g cannot be normally recognized by the control circuit 16, the display control of the LED lamp 13 as described above is not performed. As a result, whether or not the operation of each operation switch 12 except the up switch 12f and the down switch 12g can be normally recognized by the control circuit 16 is checked.

  If the operation of the down switch 12g cannot be normally recognized by the control circuit 16, the inspection processing means 26 does not execute the inspection processing or the determination result in STEP 5 is not YES (switch inspection mode). Therefore, it can be confirmed whether or not the operation of the down switch 12g can be normally recognized by the control circuit 16. If the operation of the up switch 12f cannot be normally recognized by the control circuit 16, the inspection processing means 26 does not execute the inspection processing or the determination result in STEP 10 does not become YES (switch inspection mode). Therefore, it is possible to confirm whether the operation of the up switch 12f can be normally recognized by the control circuit 16 or not.

  As described above, according to the present embodiment, the operation switch provided for performing the normal operation of the instrument 1 without connecting the overheat prevention fuse 9, the blowing temperature thermistor 10 and the room temperature thermistor 11 to the control circuit 16. By performing the required operations 12a, 12f and 12g, the inspection processing by the inspection processing means 26 can be executed. Therefore, it is possible to inspect the display component 13 and the operation switch 12 of the operation panel substrate 14 which are electrical components without using a switch dedicated for inspection.

  Further, even after the instrument 1 is shipped, when the operation panel board 14 is replaced, the display component 13 and the operation switch of the operation panel board 14 are not used by a maintenance / inspection company without using a dedicated inspection device. Twelve tests can be performed.

  Further, the inspection processing of the inspection processing means 26 is not executed unless the disconnection detection means 24 of the control circuit 16 detects all the disconnection states of the overheat prevention fuse 9, the blowing temperature thermistor 10 and the room temperature thermistor 11. Such a situation cannot actually occur unless the connectors 18 and 21 of the overheat prevention fuse 9, the blowing temperature thermistor 10 and the room temperature thermistor 11 are intentionally removed from the control circuit unit 8. Accordingly, the user of the instrument 1 erroneously performs a special operation of the operation switch 12 (the above-described operation of the operation on / off switch 12a, the up switch 12f, and the down switch 12g) for causing the processing of the inspection processing means 26 to be performed. Even so, it is possible to prevent a situation in which an inspection process unexpected by the user is started.

  In the embodiment described above, the display component 13 and the operation switch 12 on the operation panel substrate 3 are inspected without connecting the overheat prevention fuse 9, the blowing temperature thermistor 10 and the room temperature thermistor 11 to the control circuit unit 8. However, the inspection process is performed when any two of the electrical components of the overheat prevention fuse 9, the blast temperature thermistor 10 and the room temperature thermistor 11 are not connected to the control circuit unit 8. Also good.

  In the present embodiment, the overheat prevention fuse 9, the blowing temperature thermistor 10, and the room temperature thermistor 11 are exemplified as the electrical components (a plurality of predetermined electrical components in the present invention) that the control circuit 16 detects disconnection. In order to detect disconnection of a thermocouple for detecting the combustion of a gas burner, an electromagnetic valve in a gas supply path, a proportional electromagnetic valve, for example, a plurality of these electric components, or one of these electric components, The display component 13 and the operation switch 12 of the operation panel substrate 14 may be inspected by using any one of the overheat prevention fuse 9, the blowing temperature thermistor 10 and the room temperature thermistor 11 as a predetermined plurality of electrical components in the present invention. .

  In the present embodiment, both the display component 13 and the operation switch 12 are inspected. However, only one of the inspections may be performed, or other electrical components may be inspected. May be.

  In the present embodiment, the fan heater with an air cleaning function has been described as an example of the appliance 1, but the present invention is also applied to various appliances such as a hot air heater, a hot water heater, a stove device, and an air cleaner. Of course, it can be applied.

The external appearance perspective view of the instrument (fan heater with an air purifying function) to which one embodiment of the inspection device of the present invention is applied. The top view which shows the detail of the operation panel with which the instrument of FIG. 1 was equipped. The block diagram which shows the connection structure of the control circuit unit with which the instrument of FIG. 1 was equipped, and an electrical component. The flowchart which shows the inspection process in embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Appliance (fan heater with an air purifying function), 9 ... Overheating prevention fuse (electric part), 10 ... Blast temperature thermistor (electric part), 11 ... Room temperature thermistor (electric part), 12 ... Operation switch (electric part) , 13 ... display parts (electric parts), 16 ... control circuit, 18, 21, 23 ... connectors, 26 ... inspection processing means.

Claims (6)

A specific electrical component of the plurality of electrical components is provided to a device including a control circuit that controls the operation of the device and a plurality of electrical components that are detachably connected to the control circuit via connectors. An apparatus for inspecting and inspecting electrical components to be inspected,
Among the plurality of electrical components, the predetermined plurality of electrical components excluding the electrical component to be inspected can detect the disconnection state in which the current between the control circuit and the control circuit is cut off by the control circuit. And at least one electric component including the electric component to be inspected other than the predetermined plurality of electric components is an electric component including one or more operation switches for instructing the control circuit to operate an instrument,
A state in which the predetermined plurality of electrical components are not connected to the control circuit, and at least the electrical component to be inspected and the electrical component including the operation switch are connected to the control circuit and power is supplied to the control circuit. Then, when a predetermined operation of at least one of the operation switches is performed, the control circuit includes means for executing an inspection process for the electrical component to be inspected.
The apparatus for inspecting an instrument, wherein the predetermined operation switch is also operated when instructing the control circuit to perform a functional operation of the instrument other than the inspection process.   2. The instrument inspection apparatus according to claim 1, wherein the predetermined operation switch includes a plurality of operation switches.   The electrical component to be inspected includes a display component whose display state is controlled by the control circuit, and the inspection process executed by the control circuit inspects whether at least the display component is normally displayed. The instrument inspection apparatus according to claim 1, further comprising a process.   4. The apparatus for inspecting an instrument according to claim 3, wherein in the inspection process executed by the control circuit, the electrical component to be inspected is controlled so that the display component is displayed in a predetermined form.   The electrical component to be inspected is an electrical component including the operation switch, and the inspection process executed by the control circuit includes a process for inspecting whether display of the display component is normally performed, and the operation switch. 5. The apparatus for inspecting an instrument according to claim 3, further comprising: a process for inspecting whether or not the control circuit can normally recognize the operation.   In the inspection process executed by the control circuit, the control circuit recognizes the operation of the operation switch normally after executing the process of inspecting whether or not the display of the display component is normally performed. In the inspection processing related to the operation of the operation switch, when the operation switch is operated and the operation is recognized by the control circuit, the processing of the display component is performed. 6. The apparatus for inspecting an instrument according to claim 5, wherein the display component is controlled so that the display is performed in a predetermined form.

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