KR20180112951A - Inspection system and method - Google Patents

Abstract

The present invention is to construct a systematic system as an inspection system when repetitive inspections on a specific object are required, and to monitor an inspection status collectively even when there are a plurality of objects. Specifically, the present invention includes a service server that generates an inspection set according to an inspection start command inputted from a user, transmits the inspection start command to one or more management terminals, and receives check information from the management terminal, and a management terminal that receives an inspection start command from the service server, generates inspection information for one or more inspection items and transmits the check information to the service server. It is possible to monitor the inspection status of a building or facility.

Description

[0001] Inspection system and method [0002]

In the present invention, when a repetitive inspection of a specific object is required, it is constructed as a systematic system called an inspection system, and in particular, it is possible to monitor the inspection status collectively even when there are a plurality of objects.

More particularly, the present invention relates to a system and method for providing a service to a service terminal, the service server for generating a check set according to a check start command input from a user, transmitting a check start command to one or more management terminals, And generates management information for at least one maintenance item and transmits the maintenance information to the service server as a component.

Recently, serious disasters such as ship sinking, building fire and collapse have occurred continuously, and there is a growing interest in compliance with safety regulations and supervision of facility management.

Especially, in case of such disasters, if the management and supervision of ships, buildings, facilities, etc. had been conducted in advance, it was recognized that the scale of damage could be reduced to a great extent.

On the other hand, in general, a check on a specific object, for example, a building or a facility, is performed by inspecting each corner of the building or facility, checking whether there is a problem or not, . However, such an inspection method is likely to involve subjectivity in the inspection information depending on the personality of the person such as the attendance of the inspectors, the degree of knowledge, personality, etc. Further, in the case of the inspection information recorded by the manual, There is no room for the information to be obtained, which leads to waste of information that is difficult to obtain.

On the other hand, in order to compensate for the disadvantages of the above-mentioned inspection methods, there has recently been developed an inspection method in which a plurality of sensing devices capable of measuring various environments are installed in an object, for example, a building or a facility, .

This inspection method is based on the fact that it is possible to perform effective quality control on the object with a minimum of manpower, to obtain accurate inspection information, to implement inspection at every precise cycle, And it is easy to generate information.

However, in the case of the fully automated inspection method as described above, it is difficult to actively cope with the occurrence of an unexpected situation, and when a new inspection item that can not be covered by the inspection range of the detection device occurs, New problems have begun to emerge from the limitations of mechanical device operation, such as not being easy.

The present invention is designed to compensate for the disadvantages of the above two methods and to take merits in quality control and quality check for a specific object or a plurality of objects.

The present invention relates to an inspection system and method for monitoring the inspection status of an object, in particular, a building or a facility, as described above, and the object of the present invention is to provide an inspection system and a method thereof, It has been invented to provide additional technical elements that can not be easily invented.

Korean Patent Laid-Open Publication No. 2001-0098606 {2012.09.05}

SUMMARY OF THE INVENTION It is an object of the present invention to provide a system and method capable of efficiently performing repetitive and continuous inspections on a specific object.

Further, according to the present invention, the service server is provided with a storage space in the form of a cloud, so that the management terminal uploads the check information irrespective of time and place, and the service server performs a check System and a method thereof.

In addition, the present invention takes advantage of an automatic inspection method by a human and a manual inspection method by a device, thereby making it possible to provide an inspection system with simultaneous capabilities of devices such as active coping capability, accuracy and promptness in a situation requiring human judgment And a method thereof.

In addition, the present invention provides users with secondary information such as a real-time check fulfillment rate based on a pre-created check table and an expected rate of implementation of the check based on accumulated past check histories, And to be able to grasp it.

Further, according to the present invention, a checker who does not have a resident professional management worker can dispatch a checker directly to the user according to the application of the user, and moreover, searches for the surrounding checker based on the position of the checker, The purpose of this system is to establish a system that can instruct the user to check the objects to be checked.

In addition, the present invention collects a plurality of check results for similar check targets and analyzes the collected check results to derive a check guide for the check target, such as a replacement timing, a check cycle, and a check method of the check target, .

The inspection service providing method includes the steps of: (a) receiving a check start command for an arbitrary inspection object by the service server; (b) generating a check set in accordance with the received check start command, and transmitting the check start command to the management terminal; (c) receiving, by the service server, check information for at least one check item generated by the management terminal according to an input of the checker;

.

The inspection service providing method includes the steps of: (a) before the step (a), the service server grasping an object to be checked; Identifying a checker capable of dispatching the service server to the inspection object; Transmitting a dispatch command to the management terminal of the inspector in which the service server is identified; And further comprising:

The method of providing a check service may further include, after step (c), analyzing accumulated check information accumulated by the service server to generate check guide information for the check target.

The inspection guide information includes an average life span of the object to be inspected, an average replacement period of the object to be inspected, or an average malfunction occurrence period of the object to be inspected.

The inspection system includes a service server for generating a check set according to a check start command input from a user, sending a check start command to one or more management terminals, and receiving check information from the management terminal; And a management terminal for receiving a check start command from the service server, generating check information for one or more check items, and transmitting the check information to the service server.

The check set includes a day of the week, an end of the check, a day identifier, a date identifier, or a check form identifier.

The inspection information generated by the management terminal includes input data of a tester, image data, or data received through short-range communication.

The service server includes an input unit for receiving a check start command from a user; An inspection unit for generating a check set upon receipt of the check start command, transmitting the check start command and a part or all of the information included in the check set to the management terminal, and receiving the check information from the management terminal; A database for storing inspection information received from the management terminal; An operation unit for generating additional check information including an expected check fulfillment rate or a real-time check fulfillment rate; And a controller for controlling the input unit, the inspection unit, the database, and the operation unit.

The service server further includes a check guide providing unit for analyzing the check information accumulated in the database and generating check guide information for an arbitrary check target.

The service server further includes a personnel management unit for identifying a check target to be inspected and the check target capable of dispatching to the check target, and sending a dispatch command for dispatching the check target to the check target.

Fig. 1 shows a schematic configuration of a checking system according to the present invention.
2 is a block diagram illustrating a detailed configuration of a service server according to the present invention.
Figure 3 shows an embodiment for selecting a check form and an embodiment for generating a new check form.
FIG. 4 shows an embodiment for inputting an inspection instruction based on the selected inspection form.
5 is a diagram for understanding the day-of-week identifier and the date identifier.
6 shows an embodiment in which the check-in person inputs inspection information.
FIG. 7 shows an example of check information that a user can confirm via a terminal.
FIGS. 8 and 9 show the predicted maintenance execution rate and the real-time maintenance transfer rate calculation process, respectively.
FIG. 10 shows an embodiment of an interface through which a user or an administrator can grasp a problem situation and input instructions for solving a problem.
11 shows still another embodiment of the data generated in the inspection process and the inspection process using the inspection system according to the present invention.
12 shows a modified example of the inspection system according to the present invention.
13 shows an extended example of the inspection system according to the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

The embodiments disclosed herein should not be construed or interpreted as limiting the scope of the present invention. It will be apparent to those of ordinary skill in the art that the description including the embodiments of the present specification has various applications. Accordingly, any embodiment described in the Detailed Description of the Invention is illustrative for a better understanding of the invention and is not intended to limit the scope of the invention to embodiments.

The functional blocks shown in the drawings and described below are merely examples of possible implementations. In other implementations, other functional blocks may be used without departing from the spirit and scope of the following detailed description. Also, although one or more functional blocks of the present invention are represented as discrete blocks, one or more of the functional blocks of the present invention may be a combination of various hardware and software configurations that perform the same function.

Furthermore, the expression "including an element" is merely referred to as an "open" expression, and the element should not be understood as excluding the additional elements.

Further, when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but it should be understood that other elements may be present in between do.

Hereinafter, a check system according to the present invention will be schematically described with reference to FIG.

1, the inspection system according to the present invention includes a service server 100 and at least one management terminal 300 as components. In addition, a user terminal 500 such as a user PC, a smart phone, or the like, which is capable of accessing the service server 100 and checking inspection information about an object to be monitored, for example, may be further included.

First, the service server 100 will be described.

The service server 100 is a core configuration for controlling the overall inspection system. Basically, the service server 100 issues an inspection start command to one or more management terminals 300 and receives inspection information from the management terminals 300 Function.

2 is a block diagram showing a detailed configuration of the service server 100. As shown in FIG. 2, the service server 100 may include an input unit 110, an inspection unit 120, a database 130, and a control unit 190, and may further include an operation unit 140 or a connection management unit 160, A checking guide providing unit 170, and a personnel management unit 180. [

The service server 100 generates i) a check set according to a check start command input from the user, ii) sends a check start command to one or more management terminals 300, and iii) Hereinafter, the details of the service server 100 and the functions i) to iii) will be described in detail.

i) With respect to the function, the service server 100 first receives the check start command from the user, and generates one check set according to the input check start command.

i) function is performed by the input unit 110 and the checking unit 120 of the service server 100. The input unit 110 receives a check start command from the user as input, And generates a check set upon reception of the check start command.

At this time, the user is a person who uses this checking system and has access right to connect to the service server 100 via the network and input a check start command. Then, the check information generated by the management terminal 300 Means those who have access to these inspection information when collected.

Also, the inspection start command input by the user means that the inspection start command inputted by the user using the input device of the user terminal 500 such as PC, smart phone, etc. is transmitted to the service server 100 via the network . In particular, the service server 100 according to the present invention can function as a cloud server through a web, and the user can input a check start command by accessing the cloud server through a wireless or wired network.

However, the check start command is not necessarily input through the user terminal 500 connected to the service server 100 via the network, but may also be input through the input device directly connected to the service server 100 And the like.

On the other hand, the check start command means that the user instructs one or more management terminals 300 to perform an inspection on an object to be monitored, In the case of the second embodiment.

In addition, the check start command basically includes the contents of inputting the " check instruction " based on the 'check form' selected or newly generated by the user. This may include various information such as the identifier of the object to be checked (eg, the identity of the building to be checked, such as the building name, building address, the device name, the serial number, etc.) , An inspection start time and an end time, or a maintenance item.

On the other hand, the check form can also be generated on the basis of information inputted by the user directly, but it is preferable to provide the user terminal 500 with a list showing a plurality of selectable standard check form items, You can select a check form and allow it to enter inspection instructions based on it.

3 (a) shows an embodiment in which a manager receives a list including a plurality of check forms through the user terminal 500 and selects a specific check form from the list. According to the above drawings, the service server 100 can provide the manager with a list including a plurality of inspection forms, for example, a security management checklist, a gas facility check, a sanitary facility check, , And the administrator can select any one from this list.

On the other hand, the service server 100 may provide an interface for the administrator to generate a new check form. FIG. 3 (b) shows an example in which an administrator generates an inspection form for direct CCTV management. According to this, the administrator can directly generate a new check form in the service server 100 by directly inputting the title of the new check form, the details of the check in the check form, and the like.

4 shows an embodiment in which the user selects a specific check form and inputs a check instruction based on the selected check form.

4 (a) shows a user's selection of the CCTV management inspection form created previously. As shown in the drawings, the inspection form includes items to be checked by the inspector, for example, whether the DVR recording function is normally operated, CCTV Management target normal operation status, monitor image quality reception status, and the like are described.

4 (b) shows how the user sets the inspection subject area, the inspector, and the inspection time. The user should perform the inspection items in the selected inspection form in advance for the '9th floor office' (①), the specific person in the specific department will perform the inspection (②), check for the specific day or specific period, (③), etc., and give an inspection order.

The service server 100 allows the user to select or generate an inspection form, inputs an inspection instruction to the selected or generated inspection form, and inputs an inspection start command including the inspection form and the inspection instruction content Can receive.

On the other hand, the service server 100, or more precisely, the checking unit 120 generates a check set corresponding to each check start command upon receipt of a check start command from the user.

The inspection set is an object to be utilized when the service server 100 manages a check corresponding to one check start command in the future, in which various information included in one check start command is generated by grouping into one data It means a bundle of information.

The check set is based on the check start command input by the user, that is, the check form and the check instruction, and includes at least one of an identifier to be checked, a check start time and an end time, a day or date identifier, One piece of information can be included.

That is, the check set corresponds to one check instructed by the user and means that it contains all the information necessary for managing the check.

On the other hand, among the information included in the check set, the day of week identifier and the date identifier are identifiers indicating which day or date the check should be made, and each of them may be represented by one value, And the sum of the individual bit values is given.

Referring to FIG. 5A, for example, a unique bit value may be assigned to each day of the week from Monday to Sunday.

Specifically, unique bit values such as 64 on Sunday, 32 on Monday, 16 on Tuesday, 8 on Wednesday, 4 on Thursday, 2 on Friday, and 1 on Saturday can be assigned unique bit values, If the day of the week is Monday or Wednesday, the day identifier may be 40, which is the sum of the bit value 32 corresponding to Monday and the bit value 8 corresponding to Wednesday.

Since the day identifier can have only one unique value depending on the combination of each day of the week, the day identifier value included in the check set itself has the effect of distinguishing which day of the week the check should be performed . Therefore, even when it is desired to periodically check for a plurality of days, the service server 100 can distinguish a combination of days to be checked as one day identifier instead of separate day information for each.

3 (b), a unique bit value may be assigned to each date from day 1 to day 31, and a date value to be checked by the user Depending on the combination, only one unique value may be obtained and set as a date identifier.

For example, if you want to set 2, 12, and 22 as the check date every month, 537,395,712, which is 536,870,912 / 524,288 / 512, which is the bit value of 2, 12, and 22, .

Next, in connection with ii), the service server 100 transmits the received start-up command received prior to one or more management terminals 300. [

ii) The function is performed by the checking unit 120 in the service server 100.

That is, when the inspection start command is input from the user, the inspection unit 120 in the service server 100 generates a check set for the check based on the check start command, and then the management terminal 300 can perform a full inspection operation The check start command is transmitted.

When the check start command is transmitted to the management terminal 300, the check start command is issued when the checker 50 (e.g., the building manager) carrying the management terminal 300 checks the object (e.g., building) (Hereinafter referred to as a checklist) in the form of a kind of checklist that can be referred to.

For example, in the check table, an identifier to be checked, a check start time and an end time can be displayed, and information that can be referred to when the checker 50 checks can be displayed as the current time, day of week, At least one of the inspection time for each inspection item and the estimated time required for each inspection item may be further included.

In particular, the checklist may be generated to correspond to the identifier of the check form. The check form identifier refers to an identification code for distinguishing a plurality of check forms provided by the service server 100. The service server 100 assigns a check form identifier according to a plurality of previously registered combination of check items So that the user can select and use the optimal inspection form.

That is, each inspection form can include different combinations of inspection items, and the user can select a desired inspection form according to the characteristics, size, etc. of the object to be inspected.

The checklist may be generated in correspondence with such a check form.

6 shows an example in which a check list is displayed on the management terminal 300 carried by the check-in person 50 and an example in which the check-in person 50 creates inspection information with reference to the check list.

FIG. 6 (a) shows an example of a check list displayed on the management terminal 300. In the extension line of the foregoing embodiment, a checklist for 'CCTV management' may be displayed on the management terminal 300 according to a maintenance start command transmitted from the service server 100 by the administrator.

On the other hand, the inspector 50 confirms the inspection items in the corresponding check list one by one and inputs the inspection results. FIG. 6 (b) shows a state in which the checker 50 confirms whether the DVR recording function is normally operating, inputs a result, confirms whether the CCTV control card is operating normally, and inputs the result.

On the other hand, the inspector 50 can input O / X, numerical value, image, video and audio according to the inspection item when inputting the inspection result. FIG. 6 (c) shows an example of inputting the result of checking the 'gas pressure' item in the 'boiler facility management' inspection form, and the corresponding check item indicates that the checker 50 inputs the pressure value after confirming the meter Can be implemented. On the other hand, FIG. 6 (d) shows an example of inputting the check result of the 'CCTV room lock device abnormality' item of the 'CCTV management' check form. And then input the corresponding image after directly shooting.

In this manner, when the maintenance start command is received from the service server 100, the management terminal 300 displays the maintenance form and the maintenance items in the form of a check list, receives the maintenance result from the maintenance person 50, And transmits it to the service server 100 again.

Next, regarding iii), the inspection unit 120 in the service server 100 receives the inspection information generated by one or more management terminals 300, stores the received inspection information in the internal database 130 do.

The inspection information is information that the management terminal 300 directly inputs information input by the inspector 50, an image obtained by the inspector 50 through shooting or the like, And the service server 100 according to the present invention can receive such check information from the management terminal 300 at predetermined intervals or whenever there is a request from a user or an administrator.

Meanwhile, the accumulated inspection information stored in the database 130 may be provided to a user who requests the inquiry. That is, the user can request access to the maintenance information using the user terminal 500 (PC, smart phone, etc.) connected to the service server 100 via the network, and the service server 100 can access the maintenance information And may provide all or part of the maintenance information stored in the database 130 according to the access right after confirming the access right. For example, in the case of providing the inspection system service for a specific building, all the inspection information is provided without limitation on the access right of the building owner, and the access right of the inspection person 50 of the building It can be implemented to provide maintenance information.

FIG. 7 shows an example of check information that can be confirmed through the user terminal 500. 7A shows a state in which the user confirms the individual inspection information received from the management terminal 300 on one screen. Here, the inspection form, the inspection item, the inspection result, and the image, Can be displayed.

Meanwhile, the user can check the accumulated inspection information in the database 130 by setting a predetermined period of time. FIG. 7B shows an example of generation of such a report, which may include an accumulation amount of problems that occurred during the period, inspection contents, an inspection plan, and the like.

Meanwhile, the service server 100 according to the present invention may generate additional information based on the check information, in addition to the check information, and provide the generated additional information to the user. For example, the service server 100 may further provide the user with supplementary check information such as an expected check fulfillment rate and a real-time check fulfillment rate, which will be described with reference to FIG. 8 and FIG.

On the other hand, the additional check information is more accurately generated by the operation unit 140 of the service server 100. [

8 shows a process in which the service server 100 calculates the expected check fulfillment rate.

According to FIG. 8, the service server 100 searches for and obtains past check information corresponding to the same check form, that is, the same check item and the same check time.

As can be seen in FIG. 8, if the currently selected inspection form includes job 1 (1200 start 1300 end), job 2 (1600 start 1650 end), job 3 (1800 start 1805 end) 100) searches the inspection information having the same check items as those of the above operations 1, 2 and 3 in order to calculate the expected inspection execution rate for this inspection form.

Meanwhile, at this time, the service server 100 may search only the maintenance information for the past one month based on a predetermined period, for example, the current time, or may search for all accumulated maintenance information to date.

After acquiring the past check information, the service server 100 extracts the actual time spent for each task, and calculates the average time required to complete the task. For example, the service server 100 refers to the inspection information of the last month to find that the average turnaround time for task 1 is 43 minutes, the average turnaround time for task 2 is 37 minutes, the average turnaround time for task 3 Time can be calculated in three minutes.

Thereafter, the service server 100 calculates the expected check fulfillment rate based on the average time taken for each job calculated previously. For example, for tasks 1, 2, and 3 that are currently scheduled to be checked today, an expected check, such as task 1 (1200 start 1243 end), task 2 (1600 start 1637 end), task 3 (1800 start 1803 end) The transition rate can be calculated and provided to the user.

9 shows a process in which the service server 100 calculates a real-time check fulfillment rate.

Referring to FIG. 9, the service server 100 searches for and obtains a check form currently being performed by the management terminal 300, and calculates a real-time check fulfillment rate by referring to the check information received from the management terminal 300 .

For example, the service server 100 determines whether or not the maintenance form-task 1 (1200 start 1300 end), task 2 (1600 start 1650 end), task 3 (1800 start 1805 end) , And compares the check information received from the management terminal 300 with the check form to calculate a real-time check fulfillment rate. The check information from the management terminal 300 is transmitted to the service server 100 every predetermined period. For example, when the check information is [Task 1 (1201 start 1258 completed), Task 2 (scheduled) ], The service server 100 compares the check form with the check information, and it can be calculated that one of the three tasks is completed and the real-time check execution rate is 1/3, that is, 33% have.

On the other hand, the service server 100 can further provide the manpower allocation information in addition to the expected check fulfillment rate and real-time check fulfillment rate.

The workforce distribution information is obtained by calculating the workload of the inspectors according to the time based on the inspection information received from the management terminal 300 by the service server 100 and then determining how many inspectors are putting in and working at what time The information that is generated by including the contents of

The above personnel allocation information ultimately aims to be a reference when a user, that is, an administrator, makes a judgment as to how much inspection worker to put in at what time of day.

For example, the workforce distribution information may include the number of inspectors in operation and the amount of inspection work for each day of the week. In addition, the above-mentioned workforce distribution information may include information on a worker who is working for a certain area or a certain number of buildings, so that the user can efficiently allocate inspection workers considering the time zone, area, and number of buildings.

On the other hand, the service server 100 according to the present invention may further include a problem solving unit 150. [

The problem solving unit 150 is a functional unit for the service server 100 to receive the check information from the management terminal 300 and to perform a step for solving the problem when a problem is found on the check information.

Preferably, the problem solving unit 150 is configured such that problem solving logic corresponding to each type of problem is set in advance, and when a specific problem occurs, an instruction for problem solving is automatically I can get off.

For example, if the inspection information received from the management terminal 300 includes a problem of 'water meter failure', the problem solving unit 150 may detect a department capable of repairing the water meter according to preset logic Or by passing a message to the vendor.

On the other hand, the problem solving unit 150 may provide a series of guides to the user of the service server 100, that is, the administrator, and direct the administrator to issue an instruction for problem solving.

FIG. 10 shows an example of a guide screen provided by the problem solving unit 150 to an administrator in the presence of a problem.

As one embodiment, the administrator can check the contents of the currently reported problems in the building that have not yet been processed by clicking on the "Problem Status" in the menu on the left side of the guide screen. , A problem report, a description of the problem, and a photograph. (Fig. 10 (a))

On the other hand, the administrator can directly input an instruction for solving the problem on the screen. For example, the administrator may designate a specific department or directly input instructions as shown in FIG. 10 (b).

In addition, the service server 100 according to the present invention further includes a connection management unit 160.

The connection management unit 160 receives a connection request from the user terminal 500 from the outside, and determines whether or not the connection is authorized.

When the user wishes to access the service server or the database 130 in the service server from the outside, the connection management unit 160 confirms the access right of the corresponding user, and only when the user has a proper access right, Allow access to information.

On the other hand, the service server 100 according to the present invention may further include a check guide providing unit 170.

When the inspection information for an arbitrary object is received and accumulated, the inspection guide providing unit 170 analyzes the accumulated inspection information, extracts valid information on the object, and provides the information to the user.

For example, if it is assumed that a plurality of checks are made for the same air conditioner installed in various places (in this case, the air conditioner is understood to include the same kind of air conditioner, not the air conditioner owned by the same user) The service guide server 170 accumulates and stores a plurality of check information. The check guide providing unit 170 statistically analyzes the accumulated check information and extracts valid information related to the air conditioner, that is, check guide information can do. Specifically, the check guide providing unit 170 statistically analyzes the check information to extract valid information such as an average cycle of the air conditioner malfunction, an average replacement cycle of the air conditioner filter, and an average life span of the air conditioner .

In addition, the check guide providing unit 170 may statistically analyze the accumulated check information to extract the check guide information, and may provide the extracted check guide information to the user. For example, the checking guide providing unit 170 notifies the user of the air conditioner of the malfunctioning average cycle of the air conditioner and informs the user in advance of the time at which the malfunction of the current air conditioner is expected, The user can be notified of the filter replacement time of the current air conditioner, informed of the average life time of the air conditioner, and informed of the time when the air conditioner will be exchanged in the future. Thus, the inspection guide providing unit 170 extracts inspection guide information on the object based on the cumulative inspection information related to the inspection object, the so-called big data, and provides the inspection guide information to the user at a necessary point .

On the other hand, the check guide providing unit 170 may change the notification timing according to the criteria previously set by the user when providing the check guide information. For example, a user can set up a service device for his / her air conditioner to be notified about one month before or one week before the filter change time. At this time, the service server can provide a series of interfaces to the user, thereby enabling the user to set a time when the user can directly receive the check guide information, or to set whether or not to receive the check guide information.

Next, the service server 100 according to the present invention may further include a personnel management unit 180 for issuing an instruction to dispatch the checker to an area where an object to be checked exists or is installed.

The main function of the human resource management unit 180 is to grasp the objects to be inspected, identify the inspectors to be dispatched to the objects to be inspected, and commands to the inspectors to dispatch the objects to be inspected.

In connection with grasping the object to be checked, the workforce management unit 180 can grasp an arbitrary object requested by the user to the service server 100. At this time, the user can access the service server 100 on the network using the user terminal, Or may be directly input through an input device provided in the service server 100. [0050] FIG. In addition, the inspection object may include all identifiable objects as already mentioned above, and may include, for example, a specific building, a specific area within a particular building, or specific equipment within a particular building. The user can input an identifier (eg, building address, building name, laced room in a building, device name or identification number of the installed device in the building, etc.) that can identify the check target at the time of the check request.

Also, the workforce management unit 180 may classify a plurality of inspection objects into one inspection target group. When a plurality of users want to receive a check service by using a plurality of check targets as one check target group, the workforce management unit 180 can set the plurality of check targets as one check target group. For example, if the owners (users) of each building desire inspection services for two neighboring buildings, the two building owners can make the above request to the service server 100, and the service server 100 ), More specifically, the workforce management unit 180 can recognize the two buildings as one inspection target group after receiving the above request. Also, at this time, the service server 100 initially provides an interface (web page) to a plurality of users, and shows neighboring inspection objects requested for inspection services together, thereby allowing users to easily form a group to be inspected You may.

On the other hand, in connection with grasping the check-in person to be placed after the check target group or the check target group is grasped, the workforce management unit 180 determines whether or not the available work resources registered in the service server 100, It is possible to grasp the personnel who can dispatch to the inspection object or the inspection target group. Available personnel refers to the personnel registered in advance in the database in order to receive a role as an inspector. When registering in the database, you can input necessary information such as your name, age, address, career, major field .

Meanwhile, the workforce management unit 180 may refer to the addressee of the corresponding checker or the current workplace in order to grasp the checker suitable for the check target group or the check target group. For example, in the case where the addressee or the current workplace (inspection area) among the available manpower is adjacent to the inspection object or inspection target group, the workforce management unit 180 may dispatch a predetermined number of inspection persons based on the nearest personnel It can be grasped by manpower.

In addition, the workforce management unit 180 can grasp not only the address but also the workforce that can be dispatched by referring to the age, career, major field, and the like of the available workforce according to the inspection object or the inspection target group.

On the other hand, after the object to be inspected (or the group to be inspected) and the dispatchable manpower are grasped, the manpower management unit 180 issues a command for instructing the identified available manpower to check. At this time, the command can be transmitted through the telephone number input when the available manpower is pre-registered, or can be delivered through an application installed on the terminal held by the available manpower.

The workforce management unit 180 recommends a specific workforce based on available workforce information. Based on experience and age, the available workforce is recommended. The manpower management unit 180 classifies the manpower into five classes according to a first criterion for recommending manpower in the order of highest career.

Also, the workforce management unit 180 classifies the workforce into five classes according to a second criterion that recommends the workforce as the difference between the age of the workforce and the difference of 40 is small.

The upper 20, 40, 60, 80, and 100 percent are matched to 1, 2, 3, 4, and 5 grades, respectively, according to the above criteria.

In addition, the workforce management unit 180 averages the grades of each criterion and recommends a worker having a small number of grades as a priority.

Finally, the service server 100 according to the present invention may further include a controller 190 for controlling the above-described functional units. At this time, the control unit 190 may include at least one computing unit. The computing unit may be a general central processing unit (CPU), a programmable device device (CPLD, FPGA) May be a semiconductor computing device (ASIC) or a microcontroller chip.

The configuration of the service server 100 among the configuration apparatuses of the anomaly checking system and the functions performed by the service server 100 have been described.

Next, the management terminal 300 among the constituent devices of the inspection system will be described in detail.

The management terminal 300 receives a check start command from the service server 100, generates check information for one or more check items, and transmits the check information to the service server 100 again.

The management terminal 300 needs to be of a small volume so that the inspector 50 can carry it directly and preferably it can be implemented so that the smartphone possessed by the inspector 50 serves as the management terminal 300 have.

For example, the inspector 50, which periodically patrols the building and checks various facilities, can utilize the smartphone received from his smartphone or the inspection system operator as the management terminal 300.

At this time, it is premised that the management terminal 300 is equipped with wireless communication means, and the management terminal 300 receives the check start command and the check list from the service server 100 through the wireless communication means.

On the other hand, the management terminal 300 having received the check list displays it to the check-in person 50 through a display device, for example, a display window of a smart phone, and the check- And checks the operation status.

Specifically, the inspector 50 examines the corresponding inspection items according to the inspection items listed in the check table, inputs the states to the management terminal 300, and causes the management terminal 300 to generate inspection information.

As an embodiment, the checker 50 can generate the check information by inputting the current room temperature value and the room humidity value to the management terminal 300 after confirming the thermometer and the hygrometer at a specific position in the building.

In another embodiment, the inspector 50 may photograph the facilities in the building and then cause the management terminal 300 to generate photographic image data as inspection information and upload the photographic image data to the service server 100 as inspection information. The inspection information of this type is obtained by checking the accurate current state of the facility even when the inspector 50 can not know whether or not there is an abnormality when inspecting the facilities in the building and transmits it to the service server 100, ) To send the image data to other specialists connected to it, so that even if the inspector (50) does not have all the knowledge to inspect the facility and determine whether or not something is wrong, a quick and accurate solution It is effective in that it can be derived.

In another embodiment, the inspector 50 may receive data from the monitoring device 700 by accessing or tagging the management terminal 300 with the monitoring device 700 including the wireless module in the building. In the case where the wireless module is provided in the thermometer and the hygrometer to implement the wireless data transmission / reception with the management terminal 300, the checker 50 may be a thermometer, a hygrometer The indoor temperature value and the indoor humidity value can be obtained only by tagging the management terminal 300 to the indoor temperature value.

1 to 10, the service server 100 and the management terminal 300, which are constituent devices of the inspection system according to the present invention, have been described.

Hereinafter, another exemplary embodiment will be described with reference to FIG. 11, with reference to data generated in the inspection process and the inspection process using the inspection system.

FIG. 11 shows the information generated in the inspection process and the inspection process in order by assuming that the object to be inspected is a building.

11 (a) shows how a user who wishes to check a building using an inspection system inputs an inspection start command for a full inspection.

11A, a user accesses the service server 100 using his or her own smartphone or PC, and inputs a check start command through a cloud web screen provided by the service server 100 . At this time, the information input by the user may include the name of the building to be checked, the day of the inspection, the inspection time, and the inspection style.

A check form is an individual form consisting of various combinations of check items. For example, the user can select one of the predetermined check forms such as "quick check", "standard check", "detailed check"

11 is only one example for facilitating understanding. Instead of the above-mentioned check form, the user can directly select a desired one of a plurality of check items and newly create a check form of the user himself / herself .

On the other hand, after the check start command in Fig. 11 (a) is input, the service server 100 internally generates a check set corresponding to the check start command. In this case, the check set is basically based on the input information in the check start command. As shown in FIG. 11 (b), the check set includes a building identifier, a check start time and an end time, a day identifier or a date identifier, Identifiers, and the like.

After generating the check set, the service server 100 transmits a check list to the management terminal 300. As described above, the management terminal 300 may be a terminal received from the smartphone of the inspector 50 or the operator of the inspection system, and the inspector 50 refers to the inspection table displayed on the terminal display, Patrols specific locations, specific facilities, and collects data necessary for generating inspection information.

FIG. 11 (c) shows an example of the checklist, which shows that the list of tasks to be performed by the checker 50 is listed in time order.

The check list 50 corresponds to the check form entered by the user in the check start command. The checker 50 clicks each job, enters the detailed menu, checks the check items corresponding to the job, .

11 (d) shows an example of generation of check information that the management terminal 300 transmits to the service server 100. FIG. 11 (d), the inspection information is information that the inspector 50 inputs directly through the input device (smart phone touch panel, keypad, etc.), image data acquired by photographing, And information received from the mobile terminal 700.

On the other hand, Fig. 12 shows a modified embodiment of the inspection system according to the present invention.

12, the checking system further includes a monitoring device 700 connected to the service server 100 and the management terminal 300 as well as the wired or wireless network.

The monitoring device 700 is installed at a specific location in the building to be inspected, for example, to acquire a state value at the corresponding point, converts the acquired state into a data format such as inspection information, and transmits the data to the service server 100 Transmission.

The monitoring device 700 performs the same function as the management terminal 300 in that it generates inspection information and transmits the inspection information to the service server 100. The management terminal 300 is connected to the active information input of the inspector 50 The monitoring device 700 differs from the management terminal 300 in that the monitoring device 700 acquires the peripheral status value according to a predetermined time and a predetermined period and converts the peripheral status value into the inspection information according to an automated protocol.

In the case where the management terminal 300 and the monitoring device 700 are used at the same time as described above, the maintenance terminal 300 needs to have a separate judgment ability It is possible to increase the efficiency of the inspection work because it is possible to generate the respective inspection information by the automated monitoring apparatus 700 for the inspection items which are not required.

Meanwhile, FIG. 13 shows an extended embodiment of the inspection system according to the present invention.

According to FIG. 13, the checking system further includes a management server 1000 for monitoring the service server 100 in addition to the service server 100 and the management terminal 300.

In general, the service server 100 is installed in a plurality of sites and manages inspection information for each site. The management server 1000 is a plurality of service servers 100 ) To monitor the entire system.

The management server 1000 can collectively inquire the check status of each site and further transmit the instructions to the service server 100 installed in each site.

For example, when the objects to be inspected are a plurality of buildings, service servers 100 are installed in each building. The management server 1000 receives inspection data for each building from the service servers 100, It is possible to inquire about the status of inspection or grasp of the inspection status of each building and also to transmit the guidance to the manager who manages each building, that is, the operator of the service server 100.

On the other hand, when it is assumed that the inspection system according to the present invention is layered to the management server, the service server 100, and the management terminal 300 as shown in FIG. 13, each server or terminal has authority . ≪ / RTI >

This permission restriction can be implemented by restricting the information that can be inquired by an account (ID) used by each server or a user who uses the terminal to access the server or terminal, or by restricting the functions that can be used.

For example, in the case of the management terminal 300, the checker 50 using it can be authorized only to perform the check according to the check start command received from the service server 100. Accordingly, the management terminal 300 may be limited in authority to perform functions such as receiving an item value for an object to be inspected, or photographing a picture of the object to be inspected.

In the case of the service server 100, a user who uses the service server 100, for example, a building owner managing the building can inquire only the result of the inspection for the building, or can manage the management terminal 300, , A checklist editing, and the like, to perform maintenance work on the inspectors 50 in the building and the building.

Meanwhile, in the case of the managing server 1000, a user who uses the managing server 1000, for example, a total manager who manages a plurality of buildings, can identify the status of the plurality of buildings, grasp the status of individual buildings, And all the buildings in which they are installed, and the landlord who manages the building.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention.

50: Manager
100: service server
110: input unit
120:
130: Database
140:
150:
160:
190:
300: management terminal
500: User terminal
700: Monitoring device

Claims (10)

(a) the service server receiving a check start command for an arbitrary check target;
(b) generating a check set in accordance with the received check start command, and transmitting the check start command to the management terminal;
(c) receiving, by the service server, check information for at least one check item generated by the management terminal according to an input of the checker;
The method comprising the steps of:
The method according to claim 1,
Before step (a)
The service server recognizing the check target;
Identifying a checker capable of dispatching the service server to the inspection object;
Transmitting a dispatch command to the management terminal of the inspector in which the service server is identified;
Further comprising the steps of:
The method according to claim 1,
After step (c)
The service server analyzing the cumulative stored inspection information to generate inspection guide information for the inspection target;
Further comprising the steps of:
The method of claim 3,
The inspection guide information includes:
An average life span of the object to be inspected, an average replacement period of the object to be inspected, or an average malfunction occurrence period of the object to be inspected.
A service server for generating a check set according to a check start command input from a user, transmitting a check start command to one or more management terminals, and receiving check information from the management terminal; And
A management terminal for receiving a check start command from the service server, generating check information for one or more check items, and transmitting the check information to the service server;
.
The method according to claim 1,
The check set includes:
At the beginning of the check, at the end of the check, the day of the week identifier, the date identifier or the check form identifier.
6. The method of claim 5,
Wherein the maintenance information generated by the management terminal comprises:
Wherein the inspection system includes input data of the inspector, image data, or data received via short-range communication.
An input unit for receiving a check start command from a user;
An inspection unit for generating a check set upon receipt of the check start command, transmitting the check start command and a part or all of the information included in the check set to the management terminal, and receiving the check information from the management terminal;
A database for storing inspection information received from the management terminal;
An operation unit for generating additional check information including an expected check fulfillment rate or a real-time check fulfillment rate; And
A control unit for controlling the input unit, the inspection unit, the database, and the operation unit;
/ RTI >
9. The method of claim 8,
An inspection guide providing unit for analyzing the inspection information accumulated in the database and generating inspection guide information for an arbitrary inspection object;
The service server further comprising:
9. The method of claim 8,
A personnel management section for identifying a check target and a checker capable of being dispatched to the check target and transmitting a dispatch command for dispatching the check target to the check target;
The service server further comprising:

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