JP4989320B2 - Safety inspection management system and identification code attaching device - Google Patents

Description

  The present invention relates to a safety inspection management system that manages inspection results of a plurality of safety inspection points, and an identification code attaching device that is applied to the safety inspection management system.

  In recent years, identification codes such as barcodes assigned to locations requiring safety inspections (safety inspection locations) such as power outlets and gas shut-off valves installed in large commercial facilities such as department stores and supermarkets Read by an identification code reader such as a barcode reader when the tenant's inspection manager returns home, etc., and by an inspection management device composed of a personal computer or the like disposed in the disaster prevention center based on the read identification information There has been proposed a safety inspection management system that performs data processing and centrally manages inspection results of each tenant by displaying a list of processing results on a display or recording paper (for example, Patent Document 1). ).

In such a safety inspection management system, since the inspection work is performed by reading the identification code assigned to the safety inspection portion with the identification code reader, the inspection work can be facilitated and speeded up. have. Equipment to be inspected, such as electrical appliances, is operating with the power plug plugged into the power outlet because other workers are working or working when the inspection manager of each tenant comes home. If it is in a state where it can be operated, or if the inspection target device such as a gas appliance is in an operable state with the gas shut-off valve opened, comment information indicating that fact is included in the identification code. It is input by the identification code reader in conjunction with the reading.
JP 2002-298272 A

  However, although the above conventional safety inspection management system can facilitate and speed up the inspection work, the power plug is inserted into the power outlet when the worker is working or working. When the inspection target device such as an electric appliance is in an operable state in a state where the gas appliance is operated, or when the inspection target device such as a gas appliance is in an operable state with the gas shut-off valve opened. However, since the identification code can be read regardless of whether the power plug is inserted or removed or the gas shut-off valve is opened or closed, if you forget to enter a comment just by reading the identification code, safety inspection work is required. Unlike the case of simply inspecting the doors, etc., there is a problem of inspection errors leading to serious accidents such as fires. It was.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a safety inspection management system capable of effectively suppressing the occurrence of inspection errors and an identification code attaching device applied to the system. And

  In order to achieve the above object, the invention of claim 1 is a safety inspection management system that performs inspection by reading an identification code assigned to a safety inspection location and manages the inspection result. The identification code is configured to be unreadable when the inspection target device at the inspection location is operable, and the identification code is configured to be readable when the inspection target device is inoperable. The identification code attaching device, the inspection terminal device having an information reading unit for reading the identification code given to the identification code attaching device, and the identification obtained by reading the identification code by the information reading unit of the inspection terminal device An inspection management device that manages inspection results based on information is provided.

  According to a second aspect of the present invention, the identification code attaching device according to the first aspect is configured such that the identification code attaching device moves the shielding plate to a position covering the power outlet and the identification code provided around the power outlet. And a shielding member that enables the identification code to be read by moving the shielding plate to a position that exposes the identification code, and moves the shielding plate to a position that covers the identification code. The power plug can be inserted into the power outlet and the power plug can be inserted into the power outlet by moving the shielding plate to a position where the identification code is exposed. It is said.

  The invention of claim 3 is the one according to claim 2, wherein the power outlet is fitted with a plate-like cover to which an identification code is given, and the shielding member is attached to an end of the cover. A fixed support plate is provided, and the shield plate is supported by the support plate so as to be rotatable between a position where the identification code is covered and a position where the shield is exposed.

  According to a fourth aspect of the present invention, in the first aspect, the identification code attaching device is disposed at a position where the identification code is provided and a position where the identification code is covered with respect to the substrate. It is equipped with a light control glass that can be switched between a fluoroscopic state and a non-transparent state by adjusting, and when the inspection target device is in an operable state, by making the light control glass in a non-transparent state The identification code is made unreadable, and when the inspection target device is in an inoperable state, the identification light can be read by making the light control glass transparent.

  Invention of Claim 5 is based on Claim 4, Comprising: The said light control glass is comprised by filling a liquid crystal between the 2 sheet glass which arrange | positioned the transparent conductive film on the inner surface, The said, When a voltage is applied between the transparent conductive films of the two plate glasses, the liquid crystal molecular alignment enters a transparent state, and a voltage is applied between the two transparent glass conductive films. If not, the liquid crystal molecular arrangement is in a state of non-permeability because it does not transmit light.

  According to a sixth aspect of the present invention, the inspection terminal device transmits identification information obtained by reading the identification code by the information reading unit to the inspection management device according to any one of the first to fifth aspects. A receiving unit that receives the identification information transmitted from the inspection terminal device, and the predetermined inspection work is completed based on the identification information transmitted from the inspection terminal device. An inspection discriminating unit for discriminating whether or not a message is stored, a message storage unit storing a message corresponding to the determination result in the inspection discriminating unit, and a message reading unit for reading out a message corresponding to the determination result from the message storage unit And a printer for printing the inspection result including the message read by the message reading unit on a recording sheet.

  The invention of claim 7 relates to claim 6, wherein the information reading unit of the inspection terminal device reads the personal code of the operator of the inspection terminal device, and the transmission unit of the inspection terminal device The personal information obtained by reading the personal code by the information reading unit is transmitted to the inspection management device, and the receiving unit of the inspection management device receives the personal information transmitted from the inspection terminal device. The printer of the inspection management device records the inspection result including the received personal information on a recording sheet.

  The invention of claim 8 relates to claim 7, wherein the inspection management device determines whether the personal information transmitted from the inspection terminal device matches the personal information registered in advance in the inspection management device. When it is determined that the personal discrimination unit and the personal discrimination unit match, the identification information transmitted from the inspection terminal device is received when it is determined that they match, and when it is determined that they do not match And a reception control unit that disables reception of the identification information transmitted from the inspection terminal device.

  A ninth aspect of the present invention relates to any one of the first to eighth aspects, wherein the inspection terminal device acquires a start time and an end time of the inspection work of the safety inspection point, and the inspection. An inspection time discriminating unit for discriminating whether or not work is performed in a preset inspection time zone, and when the inspection time discriminating unit judges that the inspection work is being carried out in the inspection time zone The identification code read by the information reading unit can be taken into the input information storage unit, and the input information of the identification code is determined when it is determined that the inspection operation is not performed in the inspection time zone. And a reading control unit that disables loading into the storage unit.

  The invention of claim 10 relates to the invention according to claim 9, wherein the inspection management device includes a transmission unit that transmits time update information for updating a time of a timer provided in the inspection terminal device, and the inspection terminal device includes: It is characterized by comprising a receiving unit for receiving time update information transmitted from the inspection management device, and a time updating unit for updating the time based on the received time update information.

  The invention according to claim 11 is the one according to any one of claims 1 to 9, wherein the inspection management device includes a transmission unit for transmitting inspection update information for updating inspection work contents by the inspection terminal device, and the inspection The terminal device includes a reception unit that receives the inspection update information transmitted from the inspection management device, and an inspection content update unit that updates the inspection work content based on the inspection update information received by the reception unit. It is characterized by that.

  The invention of claim 12 is an identification code adhering device applied to a safety inspection management system for performing inspection by reading an identification code given corresponding to a safety inspection location and managing the inspection result, When the inspection target device at the safety inspection point is in an operable state, the identification code given corresponding to the safety inspection point is configured to be unreadable, and the inspection target device is in an inoperable state. In some cases, the identification code provided corresponding to the safety check point can be read.

  According to a thirteenth aspect of the present invention, in the apparatus according to the twelfth aspect, the power supply outlet and the shielding plate are moved to a position covering the power supply code and the identification code provided around the power supply outlet to make the identification code unreadable. And a shielding member that enables the identification code to be read by moving the shielding plate to a position where the identification code is exposed. By moving the shielding plate to a position covering the identification code, the power supply to the power outlet is provided. The plug can be inserted, and the shielding plate is moved to a position where the identification code is exposed, thereby making it impossible to insert the power plug into the power outlet.

  The invention according to claim 14 is the one according to claim 13, wherein the power outlet is fitted with a plate-like cover to which an identification code is given, and the shielding member is attached to an end of the cover. A fixed support plate is provided, and the shield plate is supported by the support plate so as to be rotatable between a position for covering the identification code and a position for exposing.

  According to a fifteenth aspect of the invention, there is provided the substrate according to the twelfth aspect, wherein the substrate is provided with the identification code, and is disposed at a position covering the identification code with respect to the substrate, and is adjusted in a see-through state by adjusting the light transmittance. And a light control glass that can be switched to a non-transparent state, and when the inspection target device is in an operable state, the light control glass is made non-transparent to make the identification code unreadable. When the inspection target device is in an inoperable state, the light control glass is made transparent so that the identification code can be read.

  The invention according to claim 16 is the one according to claim 15, wherein the light control glass is constituted by filling a liquid crystal between two plate glasses having an inner surface provided with a transparent conductive film, When a voltage is applied between the transparent conductive films of the two plate glasses, the liquid crystal molecular alignment enters a transparent state, and a voltage is applied between the two transparent glass conductive films. If not, the liquid crystal molecular arrangement is in a state of non-permeability because it does not transmit light.

  According to the invention of claim 1, the identification code attaching device is configured such that the identification code cannot be read when the inspection target device at the safety inspection point is in an operable state, and the inspection target device cannot be operated. Since the identification code can be read when it is in the state, the identification code given to the identification code attaching device can be read only when the inspection target device is in an inoperable state. Can be effectively suppressed.

  According to the invention of claim 2, the identification code attaching device makes the identification code unreadable by moving the shielding plate to a position covering the power outlet and the identification code provided around the power outlet. Since it is equipped with a shielding member that enables the identification code to be read by moving the plate to a position where the identification code is exposed, it is given to the identification code attaching device only when the inspection target device is inoperable As a result of being able to read the identification code, inspection errors can be effectively suppressed.

  According to the invention of claim 3, the power outlet is fitted with a plate-like cover to which an identification code is given, the shielding member includes a support plate fixed to the end of the cover, and is shielded. Since the plate is supported by the support plate so that it can rotate between the position where the plate covers the ID code and the position where it is exposed, the ID code is attached only when the device to be inspected is inoperable. As a result of reading the identification code given to the apparatus, it is possible to effectively suppress the occurrence of inspection mistakes.

  According to the invention of claim 4, the identification code adhering device is disposed at the position where the identification code is provided and the position where the identification code is covered with respect to the substrate, and by adjusting the light transmittance, the identification state is not obtained. It is equipped with dimmable glass that can be switched to a fluoroscopic state. When the inspection target device is in an operable state, the dimming glass is made non-transparent to make the identification code unreadable, and the inspection target device Since the identification code can be read by making the light control glass transparent when the lamp is in an inoperable state, the identification code attaching device is only in the case where the inspection target device is in an inoperable state. As a result of being able to read the identification code given to the item, the occurrence of inspection mistakes can be effectively suppressed.

  According to the invention of claim 5, the light control glass is constituted by filling a liquid crystal between two plate glasses each having a transparent conductive film disposed on the inner surface thereof. When a voltage is applied between them, the molecular arrangement of the liquid crystal becomes a transparent state by transmitting light, and when no voltage is applied between the transparent conductive films of the two plate glasses, the molecular arrangement of the liquid crystal transmits light. Since it becomes a non-permeability state when it is not allowed to pass through, the identification code given to the identification code attaching device can be read only when the inspection target device is in an inoperable state. Can be effectively suppressed.

  According to the invention of claim 6, the inspection terminal device includes a transmission unit that transmits identification information to the inspection management device, and the inspection management device receives the identification information and a predetermined unit based on the transmitted identification information. An inspection discriminating unit that discriminates whether or not the inspection work has been completed, a message storage unit that stores a message according to the discrimination result at the inspection discriminating unit, and a message that reads a message according to the discrimination result from the message storage unit Since the reading unit and the printer that prints the inspection result including the message read by the message reading unit on the recording paper, the inspection result to which the message according to the inspection result by the inspection terminal device is added is recorded on the recording paper. The operator can easily check the inspection result by visually checking the recording paper.

  According to the invention of claim 7, the information reading unit of the inspection terminal device reads the personal code of the operator of the inspection terminal device, and the personal information obtained by the transmission unit of the inspection terminal device reading the personal code is used. The data is transmitted to the inspection management device, and the receiving unit of the inspection management device receives the transmitted personal information. The inspection result including the personal information received by the printer of the inspection management device is recorded on the recording paper. Therefore, the inspection result to which a message including personal information is added can be printed on a recording sheet, and an operator or the like can easily confirm the inspection result by visually checking the recording sheet.

  According to the invention of claim 8, the inspection management device is configured to determine whether the personal information transmitted from the inspection terminal device matches the personal information registered in advance in the inspection management device; A reception control unit that enables reception of identification information that is transmitted when it is determined by the individual determination unit that it is matched, and disables reception of identification information that is transmitted when it is determined that it does not match Therefore, only the operator who matches the personal information registered in advance can perform the inspection work by the inspection terminal device, and the reliability of the inspection work can be improved.

  According to the invention of claim 9, the inspection terminal device is implemented in the inspection time zone in which the timer for obtaining the start time and the end time of the inspection operation of the safety inspection location and the inspection operation are set in advance. An inspection time discriminating unit for discriminating whether or not an inspection code is input to an input information storage unit of an identification code read by the information reading unit when it is determined that the inspection work is performed in a preset inspection time zone Since it has a reading control unit that enables loading, and when it is determined that the inspection work is not performed during a preset inspection time period, it is impossible to load the identification code into the input information storage unit. Thus, the inspection work by the inspection terminal device can be carried out only during a preset inspection time period, and the reliability of the inspection work can be improved.

  According to the invention of claim 10, the inspection management device includes a transmission unit that transmits time update information for updating a time of a timer provided in the inspection terminal device, and the inspection terminal device receives the transmitted time update information. And a time update unit that updates the time based on the received time update information, the time of the inspection terminal device can be made to coincide with the time of the inspection management device, and the reliability of the inspection work Can be improved.

  According to the eleventh aspect of the invention, the inspection management device includes a transmission unit that transmits inspection update information for updating inspection work contents by the inspection terminal device, and the inspection terminal device receives the transmitted inspection update information. Since it has a receiving section and an inspection content updating section that updates the inspection work contents based on the received inspection update information, the inspection work contents by the inspection terminal device can be updated as necessary. It is possible to have excellent versatility that enables inspection work to be carried out in response to changes in the above.

  According to the invention of claim 12, when the inspection target device at the safety inspection point is in an operable state, the identification code given corresponding to the safety inspection point is configured to be unreadable, and the inspection target device Since the identification code assigned to the safety inspection point is readable when the machine is in an inoperable state, the identification code is read only when the inspection target device is in an inoperable state. As a result, occurrence of inspection mistakes can be effectively suppressed.

  According to the invention of claim 13, the shielding plate is moved to a position covering the power outlet and the identification code provided around the power outlet so that the identification code cannot be read and the identification code is exposed to the shielding plate. Since it is provided with a shielding member that enables the identification code to be read by moving it to the position to be checked, the identification code can be read only when the device to be inspected is in an inoperable state. Generation | occurrence | production can be suppressed effectively.

  According to the invention of claim 14, the power outlet is fitted with a plate-like cover to which an identification code is given, and the shielding member includes a support plate fixed to the end of the cover, and is shielded. Since the plate is supported by the support plate so that it can be rotated between the position where it covers the exposure code and the position where it is exposed, the identification code is only used when the inspection target device is inoperable. As a result of reading, occurrence of inspection mistakes can be effectively suppressed.

  According to the fifteenth aspect of the present invention, the substrate to which the identification code is applied and the position where the identification code is covered with the substrate are arranged, and can be switched between the see-through state and the non-see-through state by adjusting the light transmittance If the device to be inspected is in an operable state, the identification code cannot be read by making the light-control glass non-permeable and the device to be inspected cannot be operated. In this case, the identification code can be read by placing the light control glass in a transparent state when the inspection target device is in an inoperable state. The occurrence of mistakes can be effectively suppressed.

  According to the invention of claim 16, the light control glass is constituted by filling a liquid crystal between two plate glasses each having a transparent conductive film disposed on the inner surface thereof. When a voltage is applied between them, the molecular arrangement of the liquid crystal becomes a transparent state by transmitting light, and when no voltage is applied between the transparent conductive films of the two plate glasses, the molecular arrangement of the liquid crystal transmits light. Since the non-permeable state results in a non-permeability state, the identification code can be read only when the inspection target device is in an inoperable state, thereby effectively suppressing the occurrence of inspection mistakes. be able to.

  FIG. 1 is a diagram schematically showing a configuration of a safety inspection management system according to an embodiment of the present invention. This safety inspection management system 10 is applied to inspection management of a plurality of safety inspection points in a tenant of a large-scale commercial facility such as a department store or a supermarket, for example, and is given an identification code for specifying the safety inspection point. The identification code attaching device 12, the inspection terminal device 14 that obtains the identification information by reading the identification code given to the identification code attaching device 12, and the inspection result based on the identification information read by the inspection terminal device 14. And an inspection management device 16 that performs management.

  Here, the identification code attaching device 12 is arranged corresponding to a plurality of safety inspection locations of each tenant, and is in a state in which inspection target devices such as electric appliances and gas appliances to be inspected can be operated. The identification code assigned to the inspection target device is configured so as not to be readable when the inspection target device is in an inoperable state. The code is configured to be readable, and a specific configuration example will be described with reference to FIGS. In addition, the safety inspection management system 10 according to the present invention is not limited to the inspection location where the identification code adhering device 12 is disposed, and the identification code in a state that can be read at all times in order to confirm the lock in the vicinity of the key portion of the door ( It is also possible to include an inspection location to which an identification code for continuous reading) is given.

  FIG. 2 shows an embodiment of the identification code attaching device 12, which constitutes a power outlet device attached to a wall surface or the like. The power outlet 20 and a plate-like shape fitted to the power outlet 20 are shown. When the outlet cover 22 and the power plug 24 for supplying power to the electric appliance are inserted into the power outlet 20 (that is, when the inspection target device is in an operable state), the identification code is made unreadable. In addition, a shielding member 28 is provided that enables the identification code to be read when the power plug 24 is removed from the power outlet 20 (that is, when the inspection target device is in an inoperable state). 2A is a front view of the identification code attaching device 12, and FIG. 2B is an enlarged cross-sectional side view of an essential part taken along line AA in FIG. 2A.

  Here, the power outlet 20 has a longitudinal shape having two connected insertion ports 30 in the illustrated vertical direction, and the outlet cover 22 has a through-hole having a shape corresponding to each insertion port 30. 32 is formed in a rectangular shape, and is fitted to each insertion port 30 of the power outlet 20 through the through hole 32, and is screwed at the end positions facing each other in the longitudinal direction with respect to the power outlet 20. It is fixed.

  A bar code label 36 is attached to the outlet cover 22 at a position corresponding to each insertion port 30 around the power outlet 20 to give an identification code 38 for normal inspection. This identification code 38 is assigned to each insertion port 30 at a position opposite to the left and right in the longitudinal direction, and includes identification information such as a type of inspection content such as a fire inspection and a lock inspection, and an inspection location.

  The shielding member 28 is attached corresponding to each insertion port 30, and includes a support plate 40 fixed with screws 34 at opposite end positions in the longitudinal direction with respect to the outlet cover 22, and the outlet cover 22. A shielding plate 42 is provided between the support plate 40 and is rotatably supported at a position near the end of the support plate 40 in the illustrated left-right direction.

  The support plate 40 has an L-shape in side view in which a main surface portion 44 facing the surface of the outlet cover 22 and a peripheral surface portion 46 facing the peripheral surface of the outlet cover 22 are formed. A concave groove 48 for allowing the shielding plate 42 to turn is formed in a substantially half region in the horizontal direction shown in the figure on the side, and a shaft body 50 that rotatably supports the shielding plate 42 in this concave groove 48 portion. Is a protrusion formed. The support plate 40 does not necessarily require the concave groove 48 as long as the shielding plate 42 can be rotated by a predetermined angle (for example, 60 °).

  The shielding plate 42 has a longitudinal shape, and a through hole 49 formed on one end side in the longitudinal direction is fitted into the shaft body 50 to cover the identification code 38 so that the identification code 38 cannot be read. (In the case of the lower shielding plate 42 in the figure, the position indicated by the phantom line) and the position where the identification code 38 can be read by exposing the identification code 38 (in the case of the lower shielding plate 42 in the figure). , And a position indicated by a solid line). That is, the shielding plate 42 enables the insertion of the power plug 24 into the insertion port 30 by opening the insertion port 30 when moved to a position covering the identification code 38. When the cord 38 is moved to the position where the cord 38 is exposed, the insertion of the power plug 24 into the insertion port 30 is made impossible by covering the insertion port 30.

  In the identification code attaching device 12 configured as described above, the power plug 24 can be inserted into the insertion port 30 when the shielding plate 42 is rotated and moved to a position covering the identification code 38. For this reason, when the power plug 24 is inserted into the power outlet 20 and the device to be inspected is in an operable state, the identification code 38 cannot be read, and an inspection error that the safety inspection has been completed occurs. Can be effectively prevented.

  Further, when the shielding plate 42 is rotated and moved to a position where the identification code 38 is exposed, the power plug 24 cannot be inserted into the insertion port 30. For this reason, when the power plug 24 is pulled out from the insertion port 30 and the inspection target device is in an inoperable state, the identification code 38 can be read, and the safety inspection can be reliably performed. .

  In this embodiment, the barcode label 52 is affixed in addition to the identification code 38 for normal inspection including identification information such as the type of inspection content such as fire inspection and locking inspection, and inspection location, etc. An identification code 54 for abnormality inspection is given when normal inspection work cannot be performed due to the remaining of the person. This abnormality inspection identification code 54 includes identification information for specifying the inspection location and identification information for automatically converting from the normal inspection mode to the abnormality inspection mode, and identifies each insertion port 30. The code 38 is provided at a position opposite to the insertion port 30 and the power plug 24 is inserted into the power outlet 20 so that the inspection target device can be operated. Thus, the identification code 38 for normal inspection is provided. It is for reading when cannot be read. For this reason, the identification code 54 for abnormality check needs to be in a position that is not shielded by the shielding plate 42 at least when the power plug 24 is inserted into the power outlet 20.

  FIG. 3 shows another embodiment of the identification code attaching device 12 and constitutes a light control glass device attached to a wall surface or the like. The attachment substrate 56 disposed on the back side and the attachment substrate 56 are shown. And a light control glass 58 disposed so as to oppose to each other. Here, the attachment substrate 56 is a side to be attached to a wall surface or the like, and has a rectangular shape in which a frame body 60 that protrudes to the surface side is formed over the entire periphery. Further, an identification code 64 for normal inspection is given to the mounting substrate 56 by sticking a bar code label 62 in a region near the center. This identification code 64 includes identification information such as the type of inspection content such as fire inspection and locking inspection, and inspection location.

The light control glass 58 makes the identification code 64 unreadable when the gas shut-off valve provided in the gas pipe is opened and the inspection target device such as the gas appliance is in an operable state. In addition, when the gas cutoff valve is closed and the inspection target device such as the gas appliance is in an inoperable state, the identification code 64 is made readable by making it transparent. 3A is a diagram illustrating a case where the identification code 64 is readable, and FIG. 3B is a diagram illustrating a case where the identification code 64 is unreadable.

  The light control glass 58 is attached to a window portion 68 formed in the center portion of the support plate 66 having a rectangular shape, and the support plate 66 is placed in a region surrounded by the frame body 60 of the mounting substrate 56. The identification code 64 is disposed by being fitted and fixed to the mounting substrate 56 with two screws 70.

  As shown in FIG. 4, the light control glass 58 is configured such that the light transmittance can be adjusted by filling a liquid crystal 76 between two plate glasses 74 having an inner surface provided with a transparent conductive film 72. It is. That is, when a predetermined voltage is applied between the transparent conductive films 72 of the two plate glasses 74, the molecular arrangement of the liquid crystal 76 enters a state of transmitting light, so that the two plate glasses 74 become transparent. When no voltage is applied between the transparent conductive films 72 of the sheet glass 74, the molecular arrangement of the liquid crystal 76 scatters light and does not transmit light, so that the two sheet glasses 74 are not transparent.

  Supply of the voltage applied between the transparent conductive films 72 of the two glass plates 74 is controlled such that the switch circuit 80 is on / off controlled by a control circuit 78 having a relay or the like. That is, when a voltage is applied to the electromagnetic coil 84 of the gas cutoff valve 82 and the gas cutoff valve 82 is opened, the control circuit 78 detects the voltage across the electromagnetic coil 84 to detect the transparent conductive film 72. The voltage across the electromagnetic coil 84 is detected when the gas cutoff valve 82 is in a closed state by preventing the supply voltage from being output between the two and preventing the voltage from being applied to the electromagnetic coil 84 of the gas cutoff valve 82. Thus, the supply voltage between the transparent conductive films 72 is output.

  In the identification code adhering device 12 configured as described above, when the gas shut-off valve 82 is opened and the inspection target device is in an operable state, the light control glass 58 is rendered opaque and reads the identification code 64. Therefore, it is possible to effectively prevent an inspection error that the safety inspection has ended. In addition, when the gas shut-off valve 82 is closed and the device to be inspected is inoperable, the light control glass 58 is in a see-through state and the identification code 64 can be read, and the safety inspection is reliably terminated. Can be made.

  In the present embodiment, in the same manner as in the previous embodiment, in addition to the normal inspection identification code 64 including identification information such as the type of inspection content such as fire inspection and lock inspection, and inspection location, a barcode is used. By attaching the label 86, an abnormal inspection identification code 88 is given when a normal inspection operation cannot be performed due to a worker's stay or the like. The abnormality inspection identification code 88 includes identification information for specifying the inspection location and identification information for automatically converting from the normal inspection mode to the abnormality inspection mode. The bar code label 86 is attached to the lower position of the gas pipe, and the gas shut-off valve provided in the gas pipe is opened so that the inspection target device such as a gas appliance is in an operable state. The identification code 64 is read when it cannot be read.

  Returning to FIG. 1, the inspection terminal device 14 is distributed corresponding to a predetermined management division such as a tenant, and is operated by an operator (inspection operator) when performing inspection work of a safety inspection location in each management division. For example, as shown in FIG. 5, a long cylindrical main body 90, and identification codes 38 and 64 for normal inspection that are disposed at the tip of the main body 90 and are attached to the identification code attaching device 12. And an information reading section 92 for reading the identification codes 54 and 88 for abnormality inspection, an operation button 94 disposed along the longitudinal direction of the main body section 90, and a liquid crystal disposed along the longitudinal direction of the main body section 90. A display unit 96, a light emitting element 98 such as a light emitting diode disposed at the front end of the main body 90 and exposed on the peripheral surface of the information reading unit 92, and a front end of the main body 90. Light emitting diode The semiconductor optical device 100 having a light receiving element such as a light emitting element and a photodiode, in which a control circuit unit 102 disposed in the body portion 90. The semiconductor optical device 100 constitutes a part of a communication unit 116 described later.

  The main body 90 is made of synthetic resin or the like, and is gripped by an operator at the time of inspection work at a safety inspection location. The information reading unit 92 obtains identification information by irradiating laser light to the identification codes 38 and 64 for normal inspection or the identification codes 54 and 88 for abnormal inspection and receiving the reflected laser light. It has a well-known configuration including an approximate laser emission irradiation unit, a reflected laser beam receiving unit, a code decoding unit, and the like. Note that the information reading unit 92 obtains personal information such as a name by reading a personal code such as a barcode attached to a name plate or the like of an operator who operates the inspection terminal device 14. In addition, the information reading unit 92 can also read an identification code for continuous reading (an identification code in a state that is always readable given to the vicinity of the key part of the door).

  The operation button 94 is operated by an operator, and includes a power button 94a, a laser emission button 94b, an abnormality button 94c, and a conversion button 94d. The power button 94a turns on the inspection terminal device 14 by turning on the power by the first pressing operation, and puts the inspection terminal device 14 in the driving stopped state by turning off the power by pressing again.

  The laser emission button 94b drives the laser emission irradiation unit (not shown) by continuing the pressing operation to output laser light from the front end surface of the information reading unit 92, and the normal inspection identification codes 38 and 64, abnormal inspection The identification codes 54 and 88 for use are irradiated. The reflected laser light is received by a reflected laser light receiving unit (not shown) of the laser light applied to the normal inspection identification codes 38 and 64, the abnormal inspection identification codes 54 and 88, and then the illustration is omitted. The identification information such as the type of inspection content and inspection location can be obtained by decoding the code.

  The abnormality button 94c and the conversion button 94d are operated when normal normal inspection work cannot be performed at the time of the inspection work of the safety inspection portion, and the three types of states of “residual”, “abnormal” and “other” are displayed. It is selected and confirmed by a pressing operation by an operator. Of these three types of status, “Residual” indicates that the worker remains at the time of the inspection work at the safety inspection location and the inspection work cannot be performed because the inspection target device is in use. “Abnormal” indicates that the inspection target device is in an inoperative state due to an abnormality, and “Other” indicates that the inspection operation cannot be performed due to other special circumstances. It is.

  That is, when the abnormal button 94c is operated, the abnormal input mode for inputting one of the three types of states in which inspection work cannot be performed is set. In the present embodiment, when the abnormal button 94c is operated to set the abnormal input mode, “residual” is displayed on the liquid crystal display unit 96, and thereafter, the “residual” is confirmed by operating the abnormal button 94c again. The Further, when the conversion button 94d is operated after the abnormal button 94c is operated and the abnormal input mode is set, “residual” displayed on the liquid crystal display unit 96 is converted into “abnormal”, and then the abnormal button 94c. “Abnormal” is confirmed by operating. When the conversion button 94d is operated to display “abnormal” on the liquid crystal display unit 96 and then the conversion button 94d is operated again, the “abnormal” displayed on the liquid crystal display unit 96 is converted to “other”. Then, “other” is confirmed by operating the abnormal button 94c. The determined information is input to the inspection terminal device 14 as identification information based on the inspection work by the operator.

  The liquid crystal display unit 96 selectively displays the three types of identification information “residual”, “abnormal”, and “other” described above by pressing the abnormal button 94c and the conversion button 94d, and a warning described later. It displays various information such as messages. The light emitting element 98 outputs green light or the like when the identification information is obtained by reading the identification codes 38 and 64 for normal inspection, the identification codes 54 and 88 for abnormal inspection by the information reading unit 92. This enables reading confirmation by visual recognition of the operator.

  In the present embodiment, when the information reading unit 92 reads the abnormality inspection identification codes 54 and 88, the abnormality input mode is automatically set without operating the abnormality button 94c. Has been. In other words, when the abnormality reading identification codes 54 and 88 are read by the information reading unit 92, in this embodiment, “residual” is displayed on the liquid crystal display unit 96 in the same manner as when the abnormal button 94 c is operated. It will be. Thereafter, in the same manner as described above, the state of one of “residual”, “abnormal”, and “other” is determined by operating the abnormality button 94c and the conversion button 94d.

  The control circuit unit 102 is configured by mounting predetermined electronic components on a circuit board on which a predetermined wiring pattern is formed, and includes a terminal control unit 104 as shown in FIG. The terminal control unit 104 includes a CPU that executes predetermined arithmetic processing, a ROM that stores predetermined processing programs and data, and a microcomputer that includes RAM that temporarily stores processing data. It is.

  The terminal control unit 104 is connected to an information reading unit 92, operation buttons 94, a liquid crystal display unit 96, and a light emitting element 98 through a predetermined interface circuit, and also includes inspection points transmitted from the inspection management device 16. By an electrically rewritable inspection information storage unit 106 and an information reading unit 92 that store the updated inspection work contents based on the inspection update information for updating the inspection work contents such as the increase / decrease setting and the inspection time zone change setting. The identification information obtained by reading the identification codes 38 and 64 for normal inspection, the identification codes 54 and 88 for abnormality inspection, the identification information obtained by pressing the abnormality button 94c and the conversion button 94d, and the information reading unit 92 An electrically rewritable input information storage unit 108 for storing personal information obtained by reading a personal code, Timer 110 to obtain the inspection time information when performing work are connected through a predetermined interface circuit. The inspection time information captured from the timer 110 is stored in the input information storage unit 108.

  Further, a communication unit 116 including a transmission unit 112 and a reception unit 114 is connected to the terminal control unit 104 via a predetermined interface circuit. The transmission unit 112 reads the identification information obtained by reading the identification code by the information reading unit 92, the identification information obtained by pressing the abnormality button 94c and the conversion button 94d, and the personal reading by the information reading unit 92. Is transmitted to the inspection management device 16 by optical communication. The modulation unit that modulates the identification information and the personal information, the amplification unit that amplifies the modulation signal, and the semiconductor optical device 100 using the amplified modulation signal. It is comprised by the drive part etc. which drive. The semiconductor optical device 100 transmits identification information and personal information to the inspection management device 16 by an infrared light signal output to the outside from the front end surface of the main body 90 when the light emitting device is driven.

  The receiving unit 114 includes inspection update information for updating inspection work contents such as an increase / decrease setting of inspection points and a change setting for an inspection time zone transmitted from the inspection management device 16 through optical communication, and time update information for updating the time of the timer 110. And is configured by an amplifying unit that amplifies a signal generated in the semiconductor optical device 100, a demodulating unit that demodulates the amplified signal, and the like. The semiconductor optical device 100 receives the update information by receiving the infrared light signal transmitted from the inspection management device 16 from the front end surface of the main body 90 when the light receiving device is driven.

  The terminal control unit 104 includes an inspection content update unit 118, a time update unit 120, an identification code determination unit 122, an inspection time capture unit 124, an inspection time determination unit 126, a reading control unit 128, an inspection end determination unit 130, A display instruction unit 132, a communication instruction unit 134, and a function realization unit as the information writing unit 136 are provided. Here, the inspection content update unit 118 performs an increase / decrease setting of inspection points and a change setting of the inspection time zone for performing inspection work by the inspection terminal device 14 based on the inspection update information transmitted from the inspection management device 16. It is intended to rewrite the inspection work contents such as the inspection location and inspection time zone stored in the inspection information storage unit 106.

  That is, the inspection terminal device 14 identifies the inspection codes 38 and 64 for normal inspection or the identification for abnormal inspection only during the set inspection time period for inspection points that match the inspection points stored in the inspection information storage unit 106. The identification information obtained by reading the codes 54 and 88 and the identification information obtained by pressing the abnormal button 94c and the conversion button 94d can be taken into the input information storage unit 108. For this reason, when a change occurs in the inspection work contents such as the inspection place where the inspection work is performed and the inspection time zone, it is necessary to rewrite the inspection work contents stored in the inspection information storage unit 106. In the present embodiment, for example, the safety inspection work is performed in four predetermined inspection time periods at the time of opening, operating, closing, and leaving.

  The time update unit 120 updates the time obtained from the timer 110 provided in the inspection terminal device 14 to an accurate time based on the time update information transmitted from the inspection management device 16. That is, since the time of the inspection terminal device 14 and the time of the inspection management device 16 must always coincide with each other from the management aspect, the time obtained from the timer 110 of the inspection terminal device 14 is transmitted from the inspection management device 16. The update is made possible based on the time update information.

  The identification code discriminating unit 122 stores the inspection location information in the inspection information storage unit 106 among the identification information obtained by reading the identification codes 38 and 64 for normal inspection, the identification codes 54 and 88 for abnormal inspection, and the like. It is discriminate | determined whether it corresponds with the inspection location information which exists. That is, it is discriminated whether the inspection location is a preset inspection location within the traveling course or an inspection location outside the traveling course, based on the read identification information. In addition, the identification code determination unit 122 includes a RAM or the like in which any one of “residual”, “abnormal”, and “other” is included in the terminal control unit 104 when the abnormal button 94c and the conversion button 94d are operated. It is also determined by checking the identification information stored in the storage unit or not.

  The inspection time capturing unit 124 captures the inspection operation time of the inspection operation at each inspection location from the timer 110 by making it correspond to the operation of the laser emission button 94b. The inspection work time at the first inspection point is the inspection work start time, and the inspection work time at the last inspection point is the inspection work end time. The inspection time discriminating unit 126 discriminates whether or not the inspection work at each inspection point is performed in the inspection time zone stored in the inspection information storage unit 106.

  The reading control unit 128 matches the identification information such as the identification codes 38 and 64 for normal inspection and the identification codes 54 and 88 for abnormality inspection stored in the inspection information storage unit 106 at the inspection points. In addition, when the inspection is performed during the inspection time zone stored in the inspection information storage unit 106, the identification code 38, 64 for normal inspection, the identification code 54, 88 for abnormal inspection, etc. are read by the information reading unit 92. The identification information obtained by reading the information and the identification information obtained by pressing the abnormal button 94c and the conversion button 94d can be taken in (writable) into the input information storage unit 108, while the inspection work at each inspection location Are stored in the inspection information storage unit 106 such as identification codes 38 and 64 for normal inspection and identification codes 54 and 88 for abnormal inspection. If the information does not match or is not performed in the inspection time zone stored in the inspection information storage unit 106, the information reading unit 92 uses the identification code 38, 64 for normal inspection, The identification information obtained by reading the identification codes 54, 88 and the like and the identification information obtained by pressing the abnormal button 94c and the conversion button 94d cannot be taken into the input information storage unit 108 (cannot be written). .

  That is, the inspection operation does not match the identification information such as the identification codes 38 and 64 for normal inspection and the identification codes 54 and 88 for abnormality inspection stored in the inspection information storage unit 106, or the inspection information storage If the inspection is performed outside the inspection time period stored in the unit 106, the inspection points that do not match the identification information such as the identification codes 38 and 64 for normal inspection and the identification codes 54 and 88 for abnormal inspection are displayed. For the inspection work or inspection work performed outside the inspection time period, the storage of the identification information in the input information storage unit 108 is rejected. In the present embodiment, among the four inspection time zones at the time of opening, operating, closing and closing, the inspection time zone at closing and closing is the target time from the start to the end of inspection. A time limit (for example, 30 minutes, 60 minutes, etc.) is set. However, even if the time limit is exceeded, it is set so that the identification information can be stored in the input information storage unit 108 within the inspection time zone.

  The inspection completion determination unit 130 determines whether or not the inspection work at the inspection location stored in the inspection information storage unit 106 has been completed by confirming the identification information stored in the input information storage unit 108 or the like. It is.

  When the inspection work is performed outside the inspection time zone stored in the inspection information storage unit 106, the display instruction unit 132 displays a warning message stored in a storage unit such as a ROM constituting the terminal control unit 104. Reading is performed, and a warning display to that effect is displayed on the liquid crystal display unit 96. The liquid crystal display unit 96 displays necessary information such as the name of the inspection location at the same time as the warning message.

  The communication instruction unit 134 instructs the communication unit 116 to communicate with the inspection management device 16. The information writing unit 136 writes the inspection work contents to be updated in the inspection information storage unit 106, and reads the identification codes 38 and 64 for normal inspection, the identification codes 54 and 88 for abnormality inspection, and the like by the information reading unit 92. The identification information obtained by this, the identification information obtained by pressing the abnormal button 94c and the conversion button 94d, and the personal information obtained by reading the personal code by the information reading unit 92 are written in the input information storage unit 108. It is.

  Returning to FIG. 1, the inspection management device 16 includes a terminal management device 138 that communicates with the inspection terminal device 14 and a main management device 139 that communicates with the terminal management device 138. The terminal management device 138 constituting the inspection management device 16 manages inspection results based on the identification information and personal information transmitted from the inspection terminal device 14, and as shown in FIG. The management control unit 140 includes a CPU that executes the process, a ROM that stores a predetermined processing program and data, and a microcomputer that includes a RAM that temporarily stores processing data.

  The management control unit 140 includes a first communication unit 143 including a reception unit 141 and a transmission unit 142, and a second communication unit 146 including a reception unit 144 and a transmission unit 145, each having a predetermined interface circuit. Connected through. The first communication unit 143 performs optical communication with the inspection terminal device 14, and the second communication unit 146 performs cable communication with the main management device 139.

  The receiving unit 141 of the first communication unit 143 receives identification information and personal information transmitted from the inspection terminal device 14 by optical communication, and includes a light receiving element such as a phototransistor that receives infrared light. This is composed of an amplifying unit for amplifying a signal generated in the semiconductor optical device (reference numeral 194 in FIG. 9), a demodulating unit for demodulating the amplified signal, and the like. The identification information and personal information received by the reception unit 141 are stored in a reception information storage unit 150 described later.

  The transmission unit 142 of the first communication unit 143 transmits inspection update information for updating inspection work contents such as inspection point increase / decrease settings and inspection time zone change settings to the inspection terminal device 14 by optical communication. , Driving a semiconductor optical element (reference numeral 194 in FIG. 9) including a light-emitting element such as a light-emitting diode that outputs infrared light by the modulation unit that modulates the inspection update information, the amplification unit that amplifies the modulation signal, and the amplified modulation signal It is comprised by the drive part etc.

  The receiving unit 144 of the second communication unit 146 receives inspection update information such as increase / decrease setting of inspection points and change setting of inspection time zone transmitted from the main management device 139 via a cable. The signal processing unit is configured to perform predetermined signal processing on the processed signal. Inspection update information such as inspection point increase / decrease settings and inspection time zone change settings received by the receiving unit 144 is stored in an update information storage unit 154 described later.

  The transmission unit 145 of the second communication unit 146 transmits identification information and personal information stored in a reception information storage unit 150 (described later) to the main management device 139 via a cable. It is comprised by the signal processing part etc. which perform this signal processing.

  In addition, the management control unit 140 displays a display 148 that displays the handling of the system, the reception information storage unit 150 that stores identification information and personal information transmitted from the inspection terminal device 14, and is transmitted from the main management device 139. Sent from the main management device 139 and the personal information storage unit 152 that temporarily stores personal information previously set and registered such as the name and affiliation of the operator who operates the inspection terminal device 14. An update information storage unit 154 for temporarily storing inspection update information for updating inspection work contents such as an increase / decrease setting such as addition, correction, and deletion of inspection points and a change setting for an inspection time zone, and the inspection terminal device 14 A message storage unit 156 for storing a message corresponding to the inspection result based on the identification information and the personal information, and the inspection terminal device 14 Inspection sheet printer 158 to record the inspection results based on the identification information and the personal information transmitted to the strip-like recording paper are connected via a predetermined interface circuit.

  In addition, the management control unit 140 has functions as an inspection determination unit 162, an individual determination unit 164, a reception control unit 166, a message reading unit 168, a communication instruction unit 170, an information writing unit 172, and a sheet editing unit 174. Department. Here, the inspection discriminating unit 162 compares whether or not all predetermined inspection operations are completed based on the identification information transmitted from the inspection terminal device 14 with the information stored in the update information storage unit 154. This is what is determined.

  The individual determination unit 164 determines whether the operator who has performed the inspection work using the inspection terminal device 14 based on the personal information transmitted from the inspection terminal device 14 is an operator registered and set in the main management device 139 in advance. This is discriminated by comparing with the information stored in the personal information storage unit 152.

  The reception control unit 166 receives an inspection from the inspection terminal device 14 when the individual determination unit 164 determines that the operator who has performed the inspection work using the inspection terminal device 14 is an operator registered and set in the main management device 139 in advance. When it is determined that the operator who has performed the inspection work using the inspection terminal device 14 is not an operator registered and set in advance in the terminal management device 138, it is possible to receive the transmitted identification information. This makes it impossible to receive the identification information transmitted from.

  The message reading unit 168 reads a message corresponding to the inspection result based on the identification information transmitted from the inspection terminal device 14 from the message storage unit 156. In the reception control unit 166, enabling reception means, for example, writing (capturing) received identification information in the reception information storage unit 150, and disabling reception means, for example, This makes it impossible to write (take in) the received identification information into the reception information storage unit 150.

  The communication instruction unit 170 instructs the first communication unit 143 to communicate with the inspection terminal device 14. The information writing unit 172 writes the inspection work contents to be updated in the update information storage unit 154 and writes the identification information and personal information transmitted from the inspection terminal device 14 in the reception information storage unit 150. Note that the inspection work contents to be updated written in the update information storage unit 154 are transmitted from the main management apparatus 139 in this embodiment.

  The sheet editing unit 174 stores the check result based on the identification information and the personal information transmitted from the check terminal device 14 in the picture information stored in the storage unit such as a ROM constituting the management control unit 140 in advance. The message read from 156 is added and edited, and a print instruction is given to the inspection sheet printer 158.

  The terminal management apparatus 138 configured as described above is installed at a disaster prevention center such as a large-scale commercial facility or a reception counter of a security center. The management control unit 140, the display 148, and the inspection sheet printer 158 are shown in FIG. As shown in FIG. 4, the management table 182 is provided with a rack 180 for storing and storing a plurality of inspection terminal devices 14 at the top. That is, the management control unit 140 is housed in the lower part of the management table 182, the display 148 is housed in a space part 184 formed in the lower center of the rack 180, and the inspection sheet printer 158 is installed at the lower side end of the rack 180. It is arranged.

  In addition, a base plate 186 is provided at an intermediate position of the management base 182, and a plurality of (four in the figure) storage support bases 188 for storing and supporting the inspection terminal device 14 are provided on the base plate 186. They are arranged at predetermined intervals. As shown in FIG. 9, the storage support base 188 is provided with a storage support portion 192 that stores and supports the inspection terminal device 14 on the pedestal 190 in a state where the information reading portion 92 is positioned below. And a semiconductor light having a light emitting element such as a light emitting diode and a light receiving element such as a phototransistor at a position facing the front end surface of the inspection terminal apparatus 14 when the inspection terminal apparatus 14 is accommodated and supported by the storage support portion 192. An element 194 is provided.

  Further, an identification code 198 is given by sticking a bar code label 196 on the pedestal 190, and the identification code 198 is attached to the inspection terminal device 14 before the inspection terminal device 14 is supported by the storage support portion 192. By reading by the information reading unit 92, a communication instruction with the terminal management device 138 is given to the inspection terminal device 14.

  In the terminal management device 138 configured in this manner, the inspection terminal device 14 stored in a predetermined position of the rack 180 is taken out when going to a tenant or the like, and the inspection operation is performed in a predetermined inspection time zone. The device 14 is set on the storage support stand 188 when leaving the tenant or the like, identification information based on the inspection work of the inspection terminal device 14 is transmitted, and the inspection result is printed on a strip-shaped recording paper by the inspection sheet printer 158. By transmitting the update information to the inspection terminal device 14, the inspection work contents after the next day by the inspection terminal device 14 are updated. Thereafter, the inspection terminal device 14 with the updated inspection work content is stored in a predetermined position of the rack 180.

  Returning to FIG. 1, the main management device 139 that constitutes the inspection management device 16 creates a report such as a daily report based on the identification information transmitted from the terminal management device 138 and performs overall management of the inspection results. This is used to input and set the inspection work contents to be updated such as the inspection point increase / decrease setting and the inspection time zone change setting by the inspection terminal device 14, and as shown in FIG. 10, a CPU that executes predetermined arithmetic processing The main management control unit 200 includes a ROM that stores a predetermined processing program and data, and a microcomputer that includes a RAM that temporarily stores processing data.

  A communication unit 206 including a receiving unit 202 and a transmitting unit 204 is connected to the main management control unit 200 via a predetermined interface circuit. The receiving unit 202 receives identification information and personal information transmitted from the terminal management apparatus 138 via a cable or the like. The transmission unit 204 transmits the inspection work contents such as the input / set increase / decrease setting of the inspection points to be updated and the inspection time zone change setting as inspection update information to the terminal management apparatus 138 via a cable or the like.

  In addition, the main management control unit 200 is configured to input and set inspection work contents such as a display 208 for displaying a report such as a daily report, an increase / decrease setting of an inspection point to be updated and a change setting of an inspection time zone, and an inspection. The personal information such as the name and affiliation of the operator of the terminal device 14 and the input terminal unit 210 such as a keyboard for registering and setting the inspection time zone by the inspection terminal device 14 and the identification information and personal information transmitted from the terminal management device 138 are stored. Received information storage unit 212, personal information storage unit 214 for storing personal information registered in advance, such as the name and affiliation of the operator who operates the inspection terminal device 14, and increase / decrease of addition, correction, deletion, etc. of the input inspection set An update information storage unit 216 for storing inspection work contents such as setting and inspection time zone change settings as inspection update information, and an inspection terminal device 14 A timer 218 having a calendar function for obtaining date and time information for changing and setting the inspection time zone, and a report printer for recording inspection results based on identification information and personal information transmitted from the terminal management device 138 on a recording sheet 220 are connected to each other via a predetermined interface circuit.

  Further, the main management control unit 200 includes a communication instructing unit 226, an information writing unit 228, a time limit determining unit 230, a report editing unit 232, and a function realizing unit as an editing end determining unit 234. Here, the communication instruction unit 226 instructs the communication unit 206 to communicate with the terminal management device 138. The information writing unit 228 writes the identification information and personal information transmitted from the terminal management device 138 to the received information storage unit 212, while writing the personal information registered and set by the input terminal unit 210 to the personal information storage unit 214. The inspection work content input and set by the input terminal unit 210 is written in the update information storage unit 216.

  The time limit determination unit 230 determines whether or not the inspection work performed when the store is closed and when the store is closed ends within the time limit (within the time limit) that is the target time from the start to the end of the above-described inspection. is there. The report editing unit 232 edits inspection results based on the identification information and personal information transmitted from the terminal management device 138 into a table format such as a list. The editing end determination unit 234 determines whether or not the editing work has been completed for all inspection work.

  The personal information written in the personal information storage unit 214 is temporarily stored in the personal information storage unit 152 of the terminal management device 138 when transmitted to the inspection terminal device 14 via the terminal management device 138. Become. The inspection work contents written in the update information storage unit 216 are temporarily stored in the update information storage unit 154 of the terminal management device 138 when transmitted to the inspection terminal device 14 via the terminal management device 138. become.

  FIG. 11 is a diagram illustrating an example of a flowchart for schematically explaining the operation of the inspection terminal device 14 during inspection work. When the power button 94a of the inspection terminal device 14 taken out from a predetermined position of the rack 180 installed in the disaster prevention center or the like when entering a tenant or the like is turned on, the inspection terminal device 14 is brought into a driveable state, and the laser The inspection operation is performed by sequentially turning on the light emitting button 94b for each inspection location in the circulation route.

  In addition, in this embodiment, in addition to the inspection location where the identification code attaching device 12 according to the present invention is disposed in the circulation route, it is always visible by attaching a barcode label near the key part of the door. It is also assumed that an inspection location to which an identification code (identification code for continuous reading) that can be read by the computer is assigned is included. In this embodiment, the identification code for continuous reading is applied to an inspection location that does not lead to a serious accident such as a fire such as door locking, and like the identification codes 38 and 64 for normal inspection, It includes identification information such as the type of inspection content such as fire inspection and locking inspection, and inspection location.

  In addition, at the inspection location to which the identification code for continuous reading is given, it is only necessary to read the identification code if normal inspection without leaving the worker is possible. When normal normal inspection cannot be performed, in addition to reading the identification code, by operating the abnormality button 94c and the conversion button 94d, one of the states “residual”, “abnormal” and “other” is input. It will be.

  First, prior to the start of the inspection work, the personal code is read by turning on the laser emission button 94b with the information reading portion 92 addressed to the personal code assigned to the operator's name plate or the like. The personal information thus acquired is taken into the input information storage unit 108 by the information writing unit 136 (step S1).

  Next, it is given to the identification code 38, 64 for normal inspection or the identification code 54, 88 for abnormal inspection, which is given to the identification code attaching device 12 at the inspection point on the patrol route, or near the key part of the door. The identification code is read by turning on the laser emission button 94b in a state where the information reading unit 92 is addressed to the identification code for continuous reading (step S3), and the identification information acquired thereby is information. The writing unit 136 temporarily stores the data in a storage unit such as a RAM constituting the terminal control unit 104. When the identification code is read, the inspection time is taken in from the timer 110 as time information by the inspection time taking unit 124 and temporarily stored in a storage unit such as a RAM.

  In this step S3, when the abnormal inspection identification codes 54 and 88 are read, or when normal normal inspection cannot be performed due to a worker's residence at the time of reading the constant reading identification code, the abnormal button 94c. And the conversion button 94d is operated to select any one state of “residual”, “abnormal”, and “other”, and the selected identification information is a storage unit such as a RAM constituting the terminal control unit 104 Will be temporarily stored.

  Next, whether the identification information stored in the storage unit such as the RAM matches the identification code 38, 64 for normal inspection stored in the inspection information storage unit 106 or the identification code for continuous reading at least in the inspection location information. Is determined by the identification code determination unit 122 (step S5). If the determination in step S5 is affirmative, the inspection operation start stored in the storage unit such as the RAM by the inspection time determination unit 126 as to whether or not the inspection operation is being performed in a preset inspection time zone. A determination is made based on the time (step S7).

  If the determination in step S7 is affirmative, the identification code determination unit 122 determines whether any one of “residual”, “abnormal”, and “others” is stored in a storage unit such as a RAM. (Step S9). If the determination in step S9 is affirmed, identification information and time information stored in a storage unit such as a RAM are taken into the input information storage unit 108 by the information writing unit 136 (step S11).

  Next, the normal inspection identification codes 38 and 64 or the abnormal inspection identification codes 54 and 88 given to the identification code attaching device 12 at the inspection location on the patrol route, or the identification code for continuous reading is read. Whether or not everything has been executed is determined by the inspection end determination unit 130 based on the information stored in the inspection information storage unit 106 (step S13). If the determination in step S13 is affirmed, the inspection work is finished.

  On the other hand, if the determination in step S7 is negative, a warning is displayed on the liquid crystal display unit 96 by the display instruction unit 132 (step S15), the process proceeds to step S13, and the subsequent steps are sequentially executed. In this case, the warning display indicates that the inspection work is outside the inspection time zone. If the determination in step S13 is negative, the process returns to step S3, and the subsequent steps are sequentially executed. If the determination in step S5 is negative, the identification information stored in the storage unit such as the RAM is stored in the inspection information storage unit 106 as the abnormality inspection identification codes 54 and 88 and at least the inspection location information. In step S17, the identification code determination unit 122 determines whether or not they match.

  If the determination in step S17 is affirmative, the inspection work start stored in the storage unit such as the RAM by the inspection time determination unit 126 is performed to determine whether the inspection operation is being performed in a preset inspection time zone. A determination is made based on the time (step S19). If the determination in step S19 is affirmed, the process proceeds to step S11, and the subsequent steps are sequentially executed.

  If the determination in step S9 is negative, the process proceeds to step S13, and the subsequent steps are sequentially executed. Further, if the determination in step S17 or step S19 is negative, the process proceeds to step S15, where a warning is displayed on the liquid crystal display unit 96 by the display instruction unit 132, and then the process proceeds to step S13. Are executed sequentially. The warning display in the case of shifting from step S17 displays the content that the inspection work is outside the traveling course, and the warning display in the case of shifting from step S19 is an inspection work outside the inspection time zone. The content to that effect will be displayed.

  FIG. 12 is a diagram illustrating an example of a flowchart for schematically explaining the communication operation of the inspection terminal device 14 with the terminal management device 138. First, when an operator or the like leaves, by reading the identification code 198 given to the base 190 of the storage support base 188 of the terminal management device 138 installed in the disaster prevention center or the like by the inspection terminal device 14, the transmission instruction is captured. It is executed (step S21).

  Thereafter, the inspection terminal device 14 is set on the storage support base 188 of the terminal management device 138, and a communication instruction is given to the communication unit 116 by the communication instruction unit 134, whereby personal information stored in the input information storage unit 108 is stored. The identification information and the time information are read out and transmitted to the terminal management apparatus 138 by the transmission unit 112 (step S23). At this time, the inspection update information transmitted from the terminal management device 138 is received by the reception unit 114, and the received inspection update information is written into the inspection information storage unit 106 by the inspection content update unit 118 and the time update unit 120. (Step S25). In addition, when actually performing the communication operation between the inspection terminal device 14 and the terminal management device 138, various communication is performed between the two, and includes a determination step for the purpose. A description of the steps is omitted.

  FIG. 13 is a diagram illustrating an example of a flowchart for schematically explaining the management operation of the terminal management apparatus 138. First, after the inspection terminal device 14 is set on the storage support base 188 of the terminal management device 138, a communication instruction is given to the first communication unit 143 by the communication instruction unit 170, so that it is transmitted from the inspection terminal device 14. The received personal information, identification information, and time information are received by the receiving unit 141 (step S31). The received personal information, identification information, and time information are written into the reception information storage unit 150 by the information writing unit 172.

  Next, based on the received personal information and identification information, it is determined by the inspection determination unit 162 and the individual determination unit 164 whether or not the predetermined inspection work has been normally completed (step S33). That is, the inspection discriminating unit 162 discriminates whether or not all predetermined inspection operations have been normally completed based on the transmitted identification information, and the individual discriminating unit 164 based on the transmitted personal information. It is determined whether or not the operator who has performed the inspection work matches the operator registered and set in advance.

  If the determination in step S33 is affirmative, an inspection work end message is read from the message storage unit 156 by the message reading unit 168 (step S35), and then printed on a strip-shaped recording sheet (step S37). For example, as shown in FIG. 14, a picture mark, an inspection location, a message indicating that the inspection work has been normally completed, and the like are displayed on the recording paper.

  If the determination in step S33 is negative, a warning message is read from the message storage unit 156 by the message reading unit 168 (step S39), and the process proceeds to step S37 to be printed on a strip-shaped recording sheet. In this recording paper, if there is identification information by operating the abnormal button 94c and the conversion button 94d, for example, as shown in FIG. A message is displayed.

  In addition, inspection work (final inspection) in the inspection time zone at the time of leaving the store is normally performed, but if there are uninspected parts in the inspection time zone during business hours, for example, figure As shown in FIG. 16, a message indicating that there is a picture mark, an inspection location, an unchecked location, and the like are displayed. Further, when there is an uninspected part in the inspection work in the inspection time zone at the time of leaving, for example, as shown in FIG. 17, a message for instructing to redo the inspection work is displayed.

  FIG. 18 is a diagram illustrating an example of a flowchart for schematically explaining the management operation of the main management apparatus 139. In the main management device 139, the personal information, the identification information, and the time information transmitted from the terminal management device 138 are received by the reception unit 202, and are written in the reception information storage unit 212 by the information writing unit 228. Yes. This flowchart is for the case where inspection work is performed when the store is closed and when the store is closed.

  First, the time limit determining unit 230 determines whether or not the inspection work by the inspection terminal device 14 is completed within a preset time limit (within a time limit) (step S41). If the determination in step S41 is negative, a time limit over process for recording a “x” mark in a time limit result column of the report described later is executed (step S43). Thereafter, data editing for each inspection point is executed by the report editing unit 232 (step S45). If the determination in step S41 is affirmative, the process proceeds to step S45.

  Next, it is determined by the editing end determination unit 234 whether or not the data editing for all the inspection points is completed (step S47). If the determination in step S47 is negative, the process returns to step S41 and subsequent steps are executed. If the determination in step S47 is affirmative, then a report such as a daily report is printed on a predetermined size of recording paper (step S49). For example, as shown in FIG. 19, this report is a compilation of inspection locations, inspection times, inspection results, and the like. The report shown in FIG. 19 shows that the safety inspection management system 10 can always read an identification code that is always readable in the vicinity of the key part of the door in addition to the inspection location where the identification code attaching device 12 is disposed. It is an example in the case of being configured including the inspection part to which is given.

  Since the safety inspection management system 10 and the identification code attaching device 12 according to the present invention are configured as described above, if the inspection target device leads to a serious accident such as a fire, the inspection target device is The identification code can be read only when it is in an inoperable state, and the occurrence of inspection mistakes can be effectively suppressed. The safety inspection management system 10 and the identification code attaching device 12 according to the present invention are not limited to those in the above-described embodiment, and various modifications as described below may be adopted as necessary. it can.

  (1) Although the inspection result by the inspection terminal device 14 is managed by the inspection management device 16 including the terminal management device 138 and the main management device 139 in the above embodiment, the present invention is not limited to this. For example, when a report such as a daily report is not required, the main management apparatus 139 may be eliminated, and the inspection management apparatus 16 may be configured with only the terminal management apparatus 138. Even when the terminal management device 138 and the main management device 139 are provided, the main management device 139 can be configured to have the function of the terminal management device 138, and the terminal management device 138 can be provided with the main management device 139. It is also possible to adopt a configuration having the above functions. In short, the inspection management for managing the inspection result based on the identification information obtained by reading the identification code by the inspection terminal device 14 by integrating the function of the terminal management device 138 and the function of the main management device 139. Device 16 may be used.

  In addition, when the terminal management apparatus 138 and the main management apparatus 139 are provided separately, in this embodiment, communication is performed between the two via a cable. However, communication is performed using a wireless method without using a cable. You can also In addition, when the terminal management device 138 and the main management device 139 are provided separately, a plurality of terminal management devices 138 that are installed in another facility can be connected to one main management device 139.

  (2) In the above embodiment, in the operation explanation, the safety inspection management system 10 has a barcode in the vicinity of the key part of the door in the traveling course in addition to the inspection location where the identification code attaching device 12 is disposed. Although it is set as the structure also including the inspection location which gave the identification code of the state which can always be visually recognized by sticking a label, it is not restricted to this. For example, it may be configured only from an inspection location where the identification code attaching device 12 is disposed.

  (3) In the above embodiment, the communication between the inspection terminal device 14 and the terminal management device 138 is performed by optical communication, but is not limited to this. For example, the communication between the inspection terminal device 14 and the terminal management device 138 can be performed by radio waves, or can be performed via a network such as a LAN.

  (4) In the above embodiment, the terminal management device 138 includes the reception information storage unit 150, the personal information storage unit 152, and the update information storage unit 154, but is not limited thereto. For example, the function of each storage unit can be provided in a storage unit such as a RAM constituting the management control unit 140.

  (5) In the above embodiment, the shielding member 28 of the identification code attaching device 12 is such that the shielding plate 42 is rotatably supported, but is not limited thereto. For example, the shielding plate 42 may be configured to slide and move in the left-right direction. In short, it is only necessary that the shielding plate 42 be movable between a position for covering the identification code 38 for normal inspection and a position for exposing the identification code 38.

  (6) In the above embodiment, the power outlet 20 constituting the identification code adhering device 12 is one in which the outlet cover 22 is fitted, but is not limited thereto. For example, the power outlet 20 may be mounted on a predetermined board, and the identification code 38 for normal inspection and the identification code 54 for abnormality inspection may be provided on the board.

  (7) In the above embodiment, the light control glass 58 constituting the identification code attaching device 12 is configured to be in a see-through state when a voltage is applied, but is not limited thereto. For example, it may be configured to be in a see-through state when a voltage is applied.

  (8) In the above embodiment, the identification codes 38 and 64 for normal inspection and the identification codes 54 and 88 for abnormal inspection are provided by sticking the barcode labels 36 and 62 and the barcode labels 52 and 86. However, it is not limited to this. For example, it can be applied by directly printing on the surface of the outlet cover 22 or the surface of the mounting substrate 56. Further, the portions to which the identification codes 54 and 88 for abnormality inspection are given are not limited to the positions shown in FIG. 2 (in the case of the identification code 54) and FIG. 3 (in the case of the identification code 88), Any position can be used as long as it can be achieved.

  (9) In the above embodiment, only one type of identification code 38, 64 for normal inspection and identification code 54, 88 for abnormal inspection are provided for the identification code attaching device 12, respectively. It is not limited to. For example, not only an operator such as a tenant but also a plurality of types of identification codes 38, 64 for normal inspection and identification codes 54, 88 for abnormality inspection, which are color-coded according to the inspection operator, are provided. Multiple inspections may be performed by reading a dedicated identification code of each person by a plurality of persons (for example, on-site personnel, floor managers, security officers) including security guards packed in the security center. . In this case, the inspection result can be managed individually for each inspection operator. Multiple inspections are performed by reading the same normal inspection identification codes 38 and 64 and abnormality inspection identification codes 54 and 88 by a plurality of persons (for example, on-site personnel, floor managers, security officers). You can also.

  (10) In the above embodiment, the identification code attaching device 12 is provided with the identification codes 54 and 88 for abnormality inspection in addition to the identification codes 38 and 64 for normal inspection. However, the present invention is not limited to this. Absent. For example, in the case where the inspection order of inspection points is set in advance within the same traveling course, the abnormality inspection identification codes 54 and 88 for mainly specifying the inspection points are not necessarily required. As described above, when the abnormality inspection identification codes 54 and 88 are not used, the abnormality button 94c may be first pressed when the abnormality inspection is input.

  If identification codes 54 and 88 for abnormality inspection are provided in addition to identification codes 38 and 64 for normal inspection, even if the inspection target device at the safety inspection point is in an operable state, it is for abnormality inspection. By reading the identification codes 54 and 88, the inspection location can be specified, so that the inspection order of the inspection locations can be freely changed at any time within the circulation route.

  (11) In the above embodiment, the inspection terminal device 14 is automatically converted to the abnormal input mode by reading the abnormal inspection identification codes 54 and 88, but is not limited thereto. . For example, even when the abnormal inspection identification codes 54 and 88 are read, it is possible to prevent the abnormal input mode from being set unless the abnormal button 94c is pressed.

  (12) In the above embodiment, while the operator of the inspection terminal device 14 is registered in the main management device 139 in advance, the operator's personal code is read prior to the inspection work by the inspection terminal device 14. It is not limited to. For example, anyone can perform the inspection work by the inspection terminal device 14 without registering the operator in the main management device 139 in advance.

  (13) In the above embodiment, the inspection terminal device 14 is provided with a plurality of storage units such as the inspection information storage unit 106 and the input information storage unit 108. However, the present invention is not limited to this. For example, a single storage unit can also be used. The terminal management apparatus 138 includes a plurality of storage units such as the reception information storage unit 150 and the update information storage unit 154, but is not limited thereto. For example, a single storage unit can also be used. The main management device 139 includes a plurality of storage units such as the reception information storage unit 212 and the update information storage unit 216, but is not limited thereto. For example, a single storage unit can also be used.

  (14) In the above embodiment, the input terminal unit 210 connected to the main management control unit 200 executes the input such as the increase / decrease setting of the inspection location to be updated and the change setting of the inspection time zone. It is not limited to. For example, a separate management personal computer for maintenance of various data connected to the main management device 139 is provided, and inputs such as increase / decrease setting of inspection points to be updated and change setting of inspection time zone are executed by this management personal computer. You may make it do. In addition, a report such as a daily report can be printed by a printer connected to the management personal computer. In such a case, the terminal management device 138 and the main management device 139 function as storage locations for various data.

It is a figure showing roughly the composition of the safety inspection management system concerning one embodiment of the present invention. It is a figure which shows one Example of the identification code adhesion apparatus applied to the safety inspection management system shown in FIG. 1, (a) is the front view, (b) is A- of the front view shown to (a). It is sectional drawing in A line. It is a figure which shows the other Example of the identification code adhesion apparatus applied to the safety inspection management system shown in FIG. 1, (a) is a figure which shows the case where an identification code is in a readable state, (b) It is a figure which shows the case where it exists in the state which cannot read an identification code. It is a figure which shows the structure of the light control glass which comprises the identification code adhesion apparatus shown in FIG. It is a perspective view of the inspection terminal device which comprises the safety inspection management system shown in FIG. It is a block diagram which shows the control structure of the inspection terminal device shown in FIG. It is a block diagram which shows the control structure of the inspection management apparatus which comprises the safety inspection management system shown in FIG. It is a figure which shows the management stand which arrange | positions the inspection management apparatus which comprises the safety inspection management system shown in FIG. It is a figure which shows the structure of the storage support stand installed in the management stand shown in FIG. It is a block diagram which shows the control structure of the main management apparatus which comprises the safety inspection management system shown in FIG. It is a flowchart for demonstrating schematically control operation | movement of the inspection terminal device which comprises the safety inspection management system shown in FIG. It is a flowchart for demonstrating schematically communication operation | movement with the inspection management apparatus of the inspection terminal device which comprises the safety inspection management system shown in FIG. It is a flowchart for demonstrating schematically the management operation | movement of the terminal management apparatus which comprises the safety inspection management system shown in FIG. It is a figure for demonstrating the recording content of a recording paper. It is a figure for demonstrating the recording content of a recording paper. It is a figure for demonstrating the recording content of a recording paper. It is a figure for demonstrating the recording content of a recording paper. It is a flowchart for demonstrating schematically the management operation | movement of the main management apparatus which comprises the safety inspection management system shown in FIG. It is a figure for demonstrating the contents of reports, such as a daily report of a recording paper.

Explanation of symbols

10 Safety Inspection Management System 12 Identification Code Adhering Device 14 Inspection Terminal Device 16 Inspection Management Device 20 Power Outlet 22 Outlet Cover (Cover)
28 Shielding member 40 Support plate 42 Shielding plates 54 and 88 Identification code for normal inspection (identification code)
60 Mounting board (board)
52 Light control glass 72 Transparent conductive film 74 Plate glass 76 Liquid crystal 92 Information reading unit 96 Liquid crystal display unit 108 Input information storage unit 110 Timer 112 Transmission unit 114 Reception unit 118 Inspection content update unit 120 Time update unit 122 Identification code discrimination unit 126 Inspection time Determination unit 128 Reading control unit 138 Terminal management device 139 Main management device 141, 144 Reception unit 142, 145 Transmission unit 156 Message storage unit 158 Inspection sheet printer (printer)
162 Inspection Discriminating Unit 164 Individual Discriminating Unit 166 Reception Control Unit 168 Message Reading Unit

Claims (16)

  A safety inspection management system that performs inspection by reading the identification code assigned to the safety inspection location and manages the inspection results, and the inspection target device at the safety inspection location is in an operable state The identification code is configured to be unreadable, and the identification code attaching device is configured to be able to read the identification code when the inspection target device is in an inoperable state, and the identification code attaching device is provided with the identification code attaching device. An inspection terminal device having an information reading unit for reading the identification code, and an inspection management device for managing inspection results based on the identification information obtained by reading the identification code by the information reading unit of the inspection terminal device. Safety inspection management system characterized by having.   The identification code attaching device moves the shielding plate to a position covering the power outlet and the identification code provided around the power outlet so that the identification code cannot be read, and exposes the identification code to the shielding plate. And a shield member that allows the identification code to be read by moving the shield plate to a position to be covered, and enables the insertion of a power plug into the power outlet by moving the shield plate to a position that covers the identification code. 2. The safety inspection management system according to claim 1, wherein the power plug is disabled from being inserted into the power outlet by moving the shielding plate to a position where the identification code is exposed.   The power outlet includes a plate-like cover to which an identification code is assigned, the shielding member includes a support plate fixed to an end of the cover, and the shielding plate is the identification code. The safety inspection management system according to claim 2, wherein the safety inspection management system is supported by the support plate so as to be rotatable between a position covering and exposing a position.   The identification code attaching device is disposed on a substrate to which the identification code is applied and a position covering the identification code with respect to the substrate, and can be switched between a see-through state and an opaque state by adjusting the light transmittance. When the inspection target device is in an operable state, the identification code cannot be read by making the light control glass non-transparent, and the inspection target device cannot be operated. 2. The safety inspection management system according to claim 1, wherein the identification code can be read by placing the light control glass in a see-through state when it is in a stable state.   The light control glass is configured by filling a liquid crystal between two sheet glasses having an inner surface provided with a transparent conductive film, and a voltage is applied between the two sheet glass transparent conductive films. In this case, the liquid crystal molecular arrangement becomes transparent when light is transmitted, and when no voltage is applied between the transparent conductive films of the two plate glasses, the liquid crystal molecular alignment does not transmit light. 5. The safety inspection management system according to claim 4, wherein the system is in a non-perspective state.   The inspection terminal device includes a transmission unit that transmits identification information obtained by reading the identification code by the information reading unit to the inspection management device, and the inspection management device has been transmitted from the inspection terminal device. A reception unit that receives the identification information, an inspection determination unit that determines whether or not a predetermined inspection operation has been completed based on the identification information transmitted from the inspection terminal device, and a determination result in the inspection determination unit A message storage unit storing a corresponding message, a message reading unit for reading a message corresponding to the determination result from the message storage unit, and an inspection result including the message read by the message reading unit on a recording sheet 6. A safety inspection management system according to claim 1, further comprising a printer for printing.   The information reading unit of the inspection terminal device reads the personal code of the operator of the inspection terminal device, and the transmission unit of the inspection terminal device is an individual obtained by reading the personal code by the information reading unit. The information is transmitted to the inspection management device, the receiving unit of the inspection management device receives personal information transmitted from the inspection terminal device, and the printer of the inspection management device receives the information. 7. The safety inspection management system according to claim 6, wherein the inspection result including personal information is recorded on a recording sheet.   The inspection management device includes a personal determination unit that determines whether or not the personal information transmitted from the inspection terminal device matches the personal information registered in advance in the inspection management device. The identification information transmitted from the inspection terminal device can be received when it is determined that the inspection terminal device is matched, and the identification information transmitted from the inspection terminal device is disabled when it is determined that they do not match. The safety inspection management system according to claim 7, further comprising a reception control unit configured to perform reception.   The inspection terminal device determines a timer for acquiring a start time and an end time of the inspection work at the safety inspection point, and whether or not the inspection work is performed in a preset inspection time zone. An inspection time discriminating unit, and when the inspection time discriminating unit determines that the inspection work is being performed in the inspection time zone, the identification code read by the information reading unit is taken into the input information storage unit And a reading control unit that disables the reading of the identification code into the input information storage unit when it is determined that the inspection operation is not performed during the inspection time period. The safety inspection management system according to any one of claims 1 to 8.   The inspection management device includes a transmission unit that transmits time update information for updating the time of a timer provided in the inspection terminal device, and the inspection terminal device receives time update information transmitted from the inspection management device. The safety inspection management system according to claim 9, further comprising a receiving unit and a time updating unit that updates the time based on the received time update information.   The inspection management device includes a transmission unit that transmits inspection update information for updating inspection work contents by the inspection terminal device, and the inspection terminal device receives the inspection update information transmitted from the inspection management device. The safety inspection management system according to claim 1, further comprising: an inspection content update unit that updates the inspection operation content based on the inspection update information received by the reception unit. .   An identification code attaching device that is applied to a safety inspection management system that performs inspection by reading the identification code assigned to the safety inspection location and manages the inspection result, and is subject to inspection at the safety inspection location. When the device is in an operable state, the identification code given corresponding to the safety inspection point is configured to be unreadable, and when the inspection target device is in an inoperable state, the safety inspection point An identification code attaching device characterized in that an identification code given corresponding to the above can be read.   The shield plate is moved to a position that covers the power outlet and the identification code provided around the power outlet so that the identification code cannot be read, and the shield plate is moved to a position where the identification code is exposed. And a shielding member that enables the code to be read, and by moving the shielding plate to a position that covers the identification code, the power plug can be inserted into the power outlet, and the shielding plate is identified by the identification code. The identification code adhering device according to claim 12, wherein the plug is made incapable of being inserted into the power outlet by moving it to a position where it is exposed.   The power outlet includes a plate-like cover to which an identification code is assigned, the shielding member includes a support plate fixed to an end of the cover, and the shielding plate is the identification code. 14. The identification code attaching device according to claim 13, wherein the identification code attaching device is supported by the support plate so as to be rotatable between a position where the cover is exposed and a position where the cover is exposed.   A substrate to which the identification code is provided, and a light control glass disposed at a position covering the identification code with respect to the substrate and capable of switching between a transparent state and an opaque state by adjusting the light transmittance. When the inspection target device is in an operable state, the identification code cannot be read by making the light control glass non-transparent, and the inspection target device is in an inoperable state. The identification code adhering device according to claim 12, wherein the identification code can be read by making the light control glass transparent.   The light control glass is configured by filling a liquid crystal between two sheet glasses having an inner surface provided with a transparent conductive film, and a voltage is applied between the two sheet glass transparent conductive films. In this case, the liquid crystal molecular arrangement becomes transparent when light is transmitted, and when no voltage is applied between the transparent conductive films of the two plate glasses, the liquid crystal molecular alignment does not transmit light. The identification code adhering device according to claim 15, wherein the device is in a non-permeability state.

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