JP2002288269A - System for managing information about nonconformities occurring in multiple dwelling houses - Google Patents

Abstract

PROBLEM TO BE SOLVED: To carry out superior management of multiple dwelling houses. SOLUTION: The system, for managing information about nonconformities occurring in a multiple dwelling house, is provided with an information-storing means which stores information about the non-conformities due to deterioration from aging inspected in the multiple dwelling house, and a calculating means which aggregately calculates and draws a diagram about the kind of nonconformities and the degree of deterioration corresponding to the geographical conditions of the multiple dwelling houses, the position where a member of the house is constructed or the like, on the basis of the information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a defect information management system for an apartment house for supporting maintenance, inspection, repair and repair of a building such as an apartment house.

[0002]

2. Description of the Related Art There are various types of troubles caused by the deterioration of apartment buildings over time. In addition, multi-family housing is composed of a large number of individual owners, and generally has low awareness of maintenance and management of common areas, and is currently left to the management company. Problems caused by aging are often found by residents, managers, and cleaning staff. However, they are usually ignored unless they are serious and urgent.
Information is rarely provided to management unions and management companies.
On the other hand, even if the management union or management service company does not respond individually or can respond,
Due to limited management commissions, there are many cases in which personnel and expenses must be covered, and there are no criteria for determining what treatment should be taken for a certain problem. In many cases, they could not respond or required a long time.

[0003] In addition, upon to develop a long-term repair plan of the apartment house, a conventional, divide the repair is necessary sites for each material,
The repair time was decided uniformly. For example, repaint every 5 years for gates (iron) and 15 for balcony railings (aluminum).
In the year, replacement is decided uniformly, and repair work is carried out in accordance with it. The location conditions of the apartment house (seaside area, industrial area, rural area, installation parts of members, vertical parts such as outer walls, etc.
Depending on the type of exposed area, such as the back of eaves, which is exposed in the horizontal and ground directions, or the roof surface, etc., which is exposed in the horizontal and sky directions, etc.), the way of receiving external force such as sunlight, wind and rain, and sea salt particles differs. It did not reflect the difference in the degradation environment.

[0004]

Conventionally, even if a defect is found, it is often left in the early stage of deterioration, and is repaired after progressing to the end of its useful life, so that high repair costs are incurred. Was. Since the troubles are left until the deterioration progresses, the residents have become uneasy and dissatisfied, especially when aesthetics are required.

[0005] By centrally managing the defect inspection information and the coping information of the apartment house by a computer, it is possible to provide a quick and reliable maintenance service to residents.

[0006]

In order to solve the above problems, the present invention uses the following means. A number of means for the management mechanism to obtain the defect information are set, and the defect information is arranged on a daily inspection sheet after checking the site. For example, a patrol route is set, and an inspector performs an inspection. The trouble information collected in this way is arranged in a daily inspection sheet. Further, urgent troubles, troubles that can be recovered immediately, and the like are processed on the spot and input to the database. Items processed after confirmation at the time of periodic inspection are also input to the database. Then, a periodic inspection report is created from the items recognized in the periodic inspection, and the items processed after the union consultation are also input to the database.

[0007] That is, as described in claim 1, information storage means for accumulating trouble check information due to aging deterioration of an apartment house, based on the accumulated information, location conditions of the apartment house, mounting portions of members and the like. A fault information management system for a condominium, which comprises a calculating means for calculating the tallying / drawing of the type and progress of the fault according to the above, is to maintain and manage the condominium.

According to a second aspect of the present invention, there is provided an information storage means for accumulating trouble check information due to aging deterioration of an apartment house, and based on the information, a location condition of the apartment house, a mounting portion of members and the like. A computing means is provided for calculating the tallying / drawing of the type and progress of the defect, and the location information, the location, the material, the phenomenon, and the cause are coded and input for the state information of the apartment house.

Further, as described in claim 3, the state of each part of the apartment complex is acquired as image data, the status of each part of the apartment complex is determined based on the image data, and the determination result is stored as inspection information of the apartment complex. And store it in an information storage device.

[0010]

Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram showing the overall configuration of a defect information management system for an apartment house, FIG. 2 is a diagram showing the flow of a repair plan calculation system for an apartment house, FIG. 3 is a diagram showing a storage configuration of management data, and FIG. FIG. 5 is a diagram showing an example of an inspection sheet, FIG. 5 is a diagram showing an appearance inspection sheet code table for building names, etc., FIG. 6 is a diagram showing an appearance inspection sheet code table for place names, FIG. FIG. 9 is a diagram showing an appearance inspection sheet code table of small parts and materials, FIG. 9 is a diagram showing an appearance inspection sheet code table of phenomena and assumed causes, FIG. 10 is a diagram showing a configuration example of a daily inspection data input screen, and FIG. Is a diagram showing an example of a message transmitted to the apartment house user, FIG. 12 is a diagram showing a part of an appearance inspection sheet totaling table, FIG. 13 is a diagram showing another part of the same, and FIG. FIG. 15 shows an example of a graph created from a table, and FIG. FIG. 16 is a diagram showing another example, FIG. 16 is a diagram showing an example in which the phenomena of each building is displayed in a graph from the appearance inspection sheet tabulation table, FIG. 17 is a diagram showing a display example of a survey result by a technician, and FIG. 18 is an image evaluation method It is a figure showing an example of.

Next, the overall configuration of the present invention will be described with reference to FIG. The present invention is a system that can provide a quick and reliable maintenance service to residents by centrally managing defect inspection information and coping information of an apartment house with a computer. In the defect information management system for an apartment house according to the present invention, the apartment house is inspected daily using a management system of a management company or the like, and information recognized by the daily inspection is stored in a database. Then, based on the accumulated information, the state of the apartment house is visualized by tabulating, plotting, etc., regarding the type and progress of the defect according to the location condition of the apartment house, the installation site of the member, and the like. Note that this visualization work is performed by arithmetic means connected to the database. further,
The repair / repair procedure is presented based on the accumulated information. Furthermore, after repairs / repairs, daily inspections are performed, and based on the information accumulated from the daily inspections, daily inspections and repairs / repairs are presented according to the location conditions of the housing complex, the location of the members, etc. Is what you do.

The configuration of the repair plan calculation system for an apartment house will be described below with reference to an example. In the management mechanism 1, daily inspection is performed on the apartment house 2. As a method of performing an inspection, in an apartment house,
An inspection route is set, and an inspector inspects the apartment house along the inspection route. In addition, it is also possible to arrange a camera or a sensor for inspecting the apartment house 2 in the apartment house, and to perform a daily inspection using the sensor. That is, it is only necessary that the inspection information of the apartment house can be collected, and there is no particular limitation.

An inspector 11 conducts a daily inspection of the apartment house 2. The inspection is performed on a predetermined route of the apartment house 2. The inspection route is
The inspection staff 11 inspects the inspection points that have been set in advance and are set. The result of the inspection performed by the inspector 11 is transmitted to the database 3 and stored in the database 3. Then, based on the inspection data accumulated for a certain period, a diagnosis result and a tendency of deterioration of the apartment house 4 are calculated by an arithmetic processing unit 4 such as a server connected to the database 3.

At this time, the accumulated data is tabulated, plotted, and visualized to facilitate evaluation. Then, in the arithmetic processing unit 4, the deterioration evaluation method is reviewed, the inspection location and the inspection frequency are reviewed, and needs are confirmed. In addition, database 3
In the multi-family housing 2, information such as the configuration, location conditions, materials of each part, and the number of users is also held. The result, report, plan, and the like calculated by the arithmetic processing unit are presented to the management association 12 and the like.

An instruction is presented from the management association 12 to the plan and the like presented by the arithmetic processing unit 4. In the plans and the like presented by the arithmetic processing unit 4, a plurality of plans can be presented or a combination of plans can be presented. When the management union 12 agrees with the plan presented by the arithmetic processing unit 4, the plan is presented to the inspector, and inspection, repair, and repair are performed according to the plan. From the management union 12,
When the plan is modified, the plan is stored in the database 3, the plan is calculated again in the arithmetic processing unit 4 along with the plan, and presented to the management association 12.

According to the present invention, over a period of one year or more, the degraded environment of the location is grasped and reflected in a repair plan. At the lowest cost, it is possible to make a plan based on daily management and repair specifications that can maintain the quality of an apartment house such as an apartment house. For example, every two weeks, a specialist inspector with a checklist for building inspection checks the damage of each part such as exterior walls, rooftop waterproofing, metal exterior members, etc. accumulate.
Based on this information, a monthly inspection patrol will be conducted to examine changes in daily management. This allows
The quality maintenance and management of the building can be realized with high quality.

In addition, the expenditure category is clarified in the repair / repair plan. The plans and amounts presented in the repair / repair plan are to be made to the investor and need to reflect the intentions of the investor. For this reason, by accumulating inspection information and making it possible to disclose the information and expenditure categories to the residents of the housing complex or the management association by using a terminal, etc., it is possible to raise awareness of repair / repair plans, It can be a plan that incorporates the needs of This allows
It is possible to calculate a repair / repair plan according to the needs of the residents. In the case of an iron painted part, the painted part is subdivided according to its environmental conditions to hold data. By storing the data of the discharge test of the battery of the community phone and the battery of the common part in the database, it is possible to easily grasp the life of the battery by using the voltage and the like at the time of checking the battery, The replacement period can be extended.

Further, when work such as waterproofing of the upper part of the building is performed not for replacement but for repair, such as overcoating, the durability of the portion is increased. By making a plan such as a plan and an inspection, it is possible to save labor for repair and repair, labor for inspection, and the like, and to reduce costs for management and maintenance. When the waterproofing treatment is performed on the upper part of the building, it is determined that the durability of the waterproofing part has been improved, and the period until the next repair is long. That is,
By changing the durability parameters of the repaired member in the database according to the site, type, and repair method, it is possible to make a repair / repair plan in accordance with the actual building.

The classification of repair and the like can be classified as refresh, replace, repair and others. Refreshing includes repainting of a coating film, additional sticking of members, and the like. Recoating of the paint film includes wood (wood deck, exterior fence), iron (external fence, gate, entrance door, grid, etc.), state board (thin roof material), wood chip cement board (siding material) And repainting of parts such as aluminum painted products (balcony handrails, surface lattice window sashes). In the repainting of the coating film, the durability parameters and the like of the coating film are returned to the initial values.
As additional attachment of members, there is a stacking of a waterproof layer (a vinyl chloride sheet, asphalt, a coating film) and a roofing material (a slate plate). In this case, for example, the durability parameter of the additionally attached member or the like can be added to the durability parameter of the member to be used as the durability parameter of the added portion.

Replacement is a replacement of a member, such as an aluminum member (balcony handrail, surface grid, window sash, etc.), glass (balcony, window, etc.), resin member (color change of artificial turf).
Broken, discoloration of the balcony deck material), it is intended to be replaced or the replacement of ceramic building materials (cracking, peeling or the like of the tile). In the case of replacement, replacement, or the like, the processing of the information in the database 3 can return the durability of each member to the initial set value. In repair and other classification, concrete shrinkage crack resin injection and waterproof joints (silicone rubber,
The filling of the cut of urethane rubber) is performed.

In a repair planning system for an apartment house,
The refresh, replace, repair, other, etc. are classified, and these repairs are appropriately performed. And
When these repairs are performed, information corresponding to the durability of each part of the building is updated in the database 3. A constant value is calculated and processed with respect to numerical data such as the durability of each part that has been repaired. That is, in the repair planning system for an apartment house, the repairs performed for each section are quantified, and stored in the database in association with the repaired part. As a result, it is possible to calculate the inspection items according to the repair history of each part, the repair schedule, and the repair schedule based on the information held in the database.

Next, the flow of the repair plan calculation system for an apartment house will be described with reference to FIG. In the daily inspection, information is reported from the building maintenance committee, residents or users to the manager of the apartment house, and is reported as a result of the manager's daily inspection patrol. In addition, cleaning staff information, one in which the central monitoring information, also planting management information, and the like are reported as a result of daily inspection patrols. The report of each daily inspection patrol is reported to the management section which is a management mechanism, and is input to the daily appearance inspection sheet 5. In addition, surveys and after-sales service information is also reported to the management unit, is intended to be input to the daily appearance inspection sheet 5.

The patrol route in the daily inspection of the collective housing manager is set in advance, and the manager performs inspection along the patrol route. When an abnormality is found, the place, location, and state are entered in a check sheet corresponding to the daily appearance inspection sheet 5 and reported to the management unit. The input to the daily appearance inspection sheet 5 is mainly for inputting the information reported through the daily inspection by the manager as described above. Daily appearance check sheet 5
Is input by a terminal such as a computer provided in the management unit. In the computer, a program for inputting data to the daily appearance inspection sheet 5 is held, and the input to the daily appearance inspection sheet 5 can be smoothly performed by the computer.

In the information input to the daily appearance inspection sheet 5, those which need immediate attention are given priority. The performed action is stored as information in the database 3 and is input to the periodic inspection report 6.

The information on the daily appearance inspection sheet 5 is stored in the building maintenance database 3 and stored in the database 3. The accumulated information on the daily appearance inspection sheet 5 is processed and tabulated by a computer or the like. Then, a report is made to the management unit based on the total result. At this time, a tally table and a graph of the tally result are created, and a report to the management unit is stored in the database 3 described above. In the report to the management department, re-inspections are performed for events judged to require re-inspections. That is,
If the event is determined to require a recheck, the manager will recheck the event.

As a result of the re-inspection, if it is determined that an action is required immediately, the necessary action is taken after a report is made to the management association. The action taken is entered in the periodic inspection report 6. If no immediate action is required as a result of the recheck, a judgment is made in the periodic check and maintenance check. If it is determined in the periodic inspection / maintenance inspection that a measure is necessary, the measure is taken, and the performed measure is stored in the database 3. The results of the periodic inspection / maintenance inspection are input to the periodic inspection report 6. The periodic inspection report 6 is stored in the database 3 and can be output as needed.

Next, the building diagnosis 7 will be described. The building diagnosis 7 is performed by a specialized engineer. At this time, by referring to the periodic inspection report 6 and the like, it is possible to accurately inform the technician of the condition of the apartment house, and it is possible to reduce the time required for the building diagnosis 7. In the case of a building diagnosis 7, if a site that requires treatment is found immediately, the necessary treatment is taken after reporting to the management union. When the building diagnosis 7 is performed, a building diagnosis report 8 is created.
Here, the performed treatment is input to the database 3 together with the building diagnosis report 8 and is accumulated.

Then, a building / facility / equipment maintenance plan is created based on the building diagnosis report 8. At this time, the information accumulated in the aforementioned periodic inspection report 6 and the daily appearance inspection sheet 5 is also referred to. building·
In the facility / equipment maintenance plan, a medium- to long-term building repair plan is presented, and preventive maintenance measures for building maintenance are presented. Preventive maintenance measures are performed in daily management, and are intended not to repair or repair, but to suppress deterioration and corrosion of buildings by cleaning and the like. In carrying out repairs, the degree of deterioration is determined scientifically, and the repair time and repair method are examined. Also,
Cleaning is positioned as a means of repair, and cleaning is also performed as a means of reducing deterioration.
As a result, the period for repair and repair is lengthened, and the cost for maintenance is reduced. Further, since information as to whether or not the treatment is appropriate is also accumulated, know-how is fed back and it is easy to utilize the same for the treatment for the same trouble. The proposed medium- to long-term building repair plan will be a large-scale repair, etc. after the approval of the general assembly of the management union. The large-scale repairs and the like performed are stored in the database 3.

Next, the flow of the daily inspection will be described with reference to FIG. Daily inspection is performed by inspection means such as an inspector. A daily patrol is performed by the inspection means.
Is created. Information on the appearance inspection sheet 5
A certain amount is accumulated and the management unit reports. The management unit makes a certain judgment on the information on the appearance inspection sheet 5.

At the report stage of the management unit, the accumulated information of the appearance inspection sheet 5 is examined, and if necessary, a reinspection or an instruction to a specialist is performed.
When an instruction for repair or the like is issued from the management unit, after the instruction is confirmed, the result of the instruction or the like is referred to in a periodic appearance inspection, maintenance inspection, and the like. When a re-check is instructed, the re-check is performed by a manager or the like, and then, depending on the result of the re-check, a command is issued from the management unit. If there is no abnormality as a result of the recheck, the fact is recorded in the database 3. Periodic appearance inspections, maintenance inspections, etc. are performed, and if an abnormality is found, instructions such as repair and repair are issued, and the results of the instructions are confirmed by the management unit. Then, the result is stored in the database 3.

Next, an example of the appearance inspection sheet used in the daily inspection will be described with reference to FIGS. The appearance inspection sheet is provided with columns for inputting (inputting) an inspection date and time, an inspection range, an inspection writer, a confirmer, and a confirmation date and time. Each item is provided with a column for entering (inputting) a location, a site, and a phenomenon (state). The appearance inspection sheet has a list of places and parts, a list of phenomena, and a list of countermeasures. As a result, a certain degree of accuracy can be maintained in the inspection, and the judgment at the time of the inspection is facilitated. Places, parts, phenomena, and countermeasures to be entered or entered in the appearance inspection sheet are performed by numerical codes.

As shown in FIG. 5 to FIG. 9, input locations, parts, phenomena and countermeasures are subdivided and corresponding codes are set. For example, as shown in FIG. 5, a district, a ridge, a place, and a part are coded, and codes corresponding to a receptionist, a management category, an expense category, a repair time, and a responsible party are described. Also in FIGS. 6 and 7, the corresponding part of the apartment house is subdivided and coded. Next, as shown in FIG.
The relevant part is further subdivided, and its material and finish state are also coded. further,
The content of the phenomenon occurring for the part where the abnormality has occurred, the assumed cause, and the countermeasures are subdivided and coded.

By coding the place and state, the occurring phenomenon, and the countermeasures, a code table as shown in FIGS. 5 to 9 is created, and based on the code table, written in an appearance inspection sheet. The labor of description can be saved and the input operation can be easily performed. Next, a configuration of a display screen when performing daily inspection data input will be described with reference to FIG. In the daily inspection data input, a code described on the appearance inspection sheet is input. The daily inspection data is input using a terminal such as a computer, and the terminal holds data corresponding to the code table described above.

When a code is entered in a corresponding column on the daily inspection data input screen shown in FIG. 10, an item corresponding to the code is displayed in each corresponding column. As a result, the input operation can be simplified, and the description mistake of the code and the input mistake can be avoided. Certain codes (codes for places, parts, etc.) are associated with certain phenomena and countermeasures. If a code for a phenomenon that cannot occur in a specific part is entered, a code entry error The display is shown to indicate a code entry error.

In the repair plan calculation system for an apartment house, in addition to the daily inspection data,
Questionnaires and the like for building maintenance are collected, and the results are stored in a database. The results of the questionnaire and the like are also used as data for repair / repair planning and data for daily inspection. As shown in FIG. 7, the questionnaire has a column for entering (inputting) a date, a name, a telephone number, and the like. Then, it investigates damaged parts of buildings and facilities. (Or input) information according to the questionnaire, as well as the daily inspection sheets described above are intended to be entered into the database 3. As a result, a repair / repair plan that reflects the needs of the residents can be created, and daily inspection can be performed according to the needs of the residents.

Further, it is also possible to take the drawing information of the apartment house into the database 3 and specify the position of the trouble occurrence part in the virtual space. The specification of the position in the virtual space can be used not only for displaying the accumulated defect information but also for inputting daily inspection information. Thus, it is possible to easily input the defect information, and it is easy for the engineer to recognize the inspection location at the time of the periodic inspection.

The information obtained by the appearance check sheet, the questionnaire, and the like are collected and stored in the database 3 as described above. The information on the building is tabulated in the database 3 and is used for preparing and correcting a repair / repair plan, a periodic inspection, and a daily inspection. The display configuration of the aggregated data will be described with reference to FIGS. Daily inspection information is stored in the database 3, and the information can be processed into a format in which the state of the building can be easily recognized by the arithmetic means connected to the database 3. That is, based on the information stored in the database 3, it is possible to calculate the tallying / drawing of the type and the degree of progress of the defect according to the location condition of the apartment house, the attachment site of the member, and the like.

Next, a method for evaluating the daily inspection information will be described. This is a method of performing a priority evaluation in performing repair / repair, and is determined by a deterioration evaluation, a functional impact evaluation, and an appearance evaluation. These evaluations are entered into the database 3 together with information on daily inspections,
This is displayed in an aggregation table or the like.

First, the deterioration evaluation is divided into three stages. First, urgent repairs are required (deterioration is significant); second, partial repairs are required over a wide area (deterioration is noticeable); However, it is necessary to observe the condition (deterioration has progressed a little). In the deterioration assessment, replacement and update are associated as actions to be determined as the first state, repairs are associated with the second state, and inspection and cleaning are associated with the third state. .

In the functional impact assessment, first, there is a risk of threatening the safety of human life (danger if left unchecked). Second, there is a risk of causing serious teachers and damaging property in human activities and lives. Are classified into three stages: a state in which there is a problem (if left unchecked, the deterioration will be hindered and daily life is hindered); and a third state in which a comfortable and hygienic environment may not be maintained (daily management).

Appearance evaluation is also divided into three stages. First, there is a risk that the building will become obsolete due to an increase in the required level, second, there will be disruption in social order, and third, there will be concerns about daily life. I feel stress in my life.
In the deterioration evaluation, the functional influence evaluation, and the appearance evaluation, the characteristics of each member are taken into consideration. For example, in a painted portion, when rust appears, the degree of rust in the surrounding area is increased, so that priority evaluation can be performed so that rust is removed and touch-up painting is performed early.

Furthermore, the evaluation criteria for the appearance evaluation can be divided into two points, namely, the frequency of use and stress (discomfort) of the resident, and the overall evaluation of the appearance can be performed. The usage frequency evaluation standard is that, first of all, residents always pass and use. Second, residents pass and use irregularly. Third, there are few resident traffic. There are three stages as described above. And the stress evaluation standard has a great influence on a comfortable life, first of all, feeling uncomfortable. Secondly, the accumulation of daily life may cause occupants to feel uncomfortable. Third, when viewed objectively, it does not cause much discomfort. There are three stages as described above.

As the evaluation criterion for the appearance evaluation, both the use frequency and the stress evaluation criterion can be used, or only one of them can be used. In addition, it is possible to use the evaluation criteria of the frequency of use and the stress not only for the appearance evaluation but also for other evaluations. For example, a case where a use frequency evaluation criterion is adopted will be described. In a frequently used location, even when the degree of deterioration is small, more information is input to the database 3 by daily inspection or questionnaire. For this reason, it may be difficult to objectively judge the deterioration state of the entire apartment house. At this time, by determining or calculating the ratio of the information input to the database according to the frequency of use, it is possible to perform a table or a drawing in which it is easy to objectively determine the deterioration state of the entire apartment house. .

The priority order evaluation is performed based on the deterioration evaluation and the functional influence evaluation as main criteria, and adopts the appearance evaluation in a portion where the appearance is important. The priority is divided into three stages,
First, urgent repairs, secondly, repairs are required in the next fiscal year, and thirdly, repairs are required within three years. These priorities are set based on the above evaluation. In addition, a category has been set for the funding for repair and repair expenses,
Whether to use the reserve fund for repairs by building, ordinary repair expenses, or insurance is also set.

The accumulated daily inspection information and the evaluation thereof are performed by the management unit. Then, as shown in FIGS. 12 and 13, for example, the management unit makes a list of the information accumulated in the database 3 and performs a study. In addition, these tables can be displayed for each building, or can be created according to the attachment site of the member. Further, as shown in FIG. 14 to FIG. 16, it is also possible to display a circle graph, a bar graph, and a line graph. Thus, since the data of the daily inspection down to the details can be visually recognized, it is possible to easily grasp the state of the building, and even when requesting a building diagnosis to an expert, an abnormality is likely to occur. The part can be pointed out in advance.

When requesting a professional engineer to carry out a survey, the database 3 is used to evaluate the accumulated daily inspection information and designate a site to be investigated. The form of the survey request can be output from a terminal connected to the database 3. For example, as shown in FIG.
A survey table is created, the survey results are entered or input, and the results can be stored in the database 3. As a result, it is possible to improve efficiency at the time of requesting a survey, and to surely conduct a survey of a part that requires a survey.

Next, an inspection configuration using an image will be described. It is possible to take a picture of the inspection unit in daily inspection, periodic inspection, and the like, and determine the state of each part from the image. At the time of inspection of each part, a predetermined portion is photographed, and the photographed image is compared with an image serving as an index. As a result, it is possible to accurately recognize a state that is difficult to describe, and to perform a diagnosis of the building by inspection substantially accurately. Chalking, cracking, checking, blistering, rust, and the like of the coating film are determined by the image.

In each part for checking for choking, cracking, checking, blistering of the coating film, rust, etc., a photograph is taken at the time of checking. As a method of photographing, a place where photographing is performed is set, and photographing of the corresponding place is performed. For example, marking is performed on the inspection site, and each part is photographed together with the marking. This makes it possible to reliably photograph the inspection unit. In addition, as a wavelength range in which imaging is performed, imaging can be performed in a visible light range, an ultraviolet range, and an infrared range. These wavelength ranges are selected according to the inspection mode.

As a medium for holding an image, a photograph using a film, a digital camera or the like can be used. In addition to this, there is no particular limitation as long as the means can recognize the state of the surface. It is also possible to attach an adhesive film to a wall surface or the like, and to use the adhesive film itself to which the exfoliated material on the wall surface adheres as an image. The photographed images are stored in the database 3 described above. When introducing an image into the database 3, the image can be read by a scanner or the like and input to the database 3 as image data. When a digital camera is used, image data stored in the digital camera can be directly input to the database 3.

As another example of the image data input method, the image data is input to a terminal connected to the database 3 via a communication network or the like. The terminal may be any terminal having a display unit, an arithmetic processing unit, and an information holding unit. Image data is scanned by a scanner, etc.
It is possible to capture the image once in the terminal, convert the image into a format that can be easily held in the database 3 in the terminal, and then input the image into the database 3.

As a method of converting image data, only a necessary portion of the input image is extracted. As a result, unnecessary image data can be reduced, and the load on the database 3 can be reduced. For example, marking is performed on a shooting location, and image conversion is performed so that the marking is in a prescribed state. That is, the image data is converted so that the distance between the markings becomes a specified value or the markings become horizontal and vertical. Thereby, the processing in the database 3 can be easily performed. Furthermore, it is also possible to extract only a portion of the image data that is different from the last time and use it as image data for inspection. By holding only the changed portion in this way, the amount of data held can be reduced, and the load on the database 3 can be reduced.

The above image processing is performed at a terminal connected to the database 3 so that the database 3
And the burden on the information holding amount can be reduced. Further, these image processings can be performed by an arithmetic processing unit connected to the database 3. In this case, the load on the terminal connected to the database 3 can be reduced, and the terminal can be simplified.

Next, an image evaluation method will be described with reference to FIG. The evaluation of the image is to compare and determine the image acquired by the inspection with the index. As an example of the evaluation method, as shown in FIG. 18, an image acquired by inspection and an index for evaluating the image can be displayed on the display unit, and the image acquired by inspection can be evaluated. it is intended. The display unit of the terminal connected to the database 3 is provided with an index display column 15 for displaying an index for determining an image, and an image display column 16 for displaying an image photographed by inspection. It is provided. Then, an input field 18 for inputting the place and date and time when the image was taken, a status field 19 for inputting the status of the inspection site, and a determination field 17 for displaying the determination result
Is provided.

In the judgment, the inspector recognizes the display section of the terminal,
The inspector can also make the determination. In this case, the acquired image data, the determination result, and the input field 1
8 and the information entered in the status column 19 are stored in the database 3
And stored in the database 3. Since the image for which the index is to be determined and displayed is displayed on the same display unit, the determination of the image can be facilitated, and the determination is performed based on the image data which is digitized and held. . Further, the above determination can be made by arithmetic processing. Based on the brightness and hue of the acquired image data, it is possible to determine which sample of the index image is closer to the sample. In this case, it is not necessary for the inspector to make a determination, and the image evaluation can be unified.

As described above, by using the inspection result as image data, residents of the apartment house can easily recognize the state of the house visually. Further, by accumulating the image data, the progress of the deterioration can be easily visualized, and the calculation of the progress speed of the crack and the deterioration state that is difficult to document can be easily grasped.

Degradation diagnosis is first performed on iron coating in an apartment house by a manager, and a diagnosis method will be described. The evaluation of the iron painted part is about three items,
Points are given in three stages. The three items are rust, discoloration, and peeling. About rust, "not rusted"
The score is 0 point, "Putting rust is visible" is 1 point, and "Rust covers the surface, remarkable rust" is 3 points. About discoloration, "No discoloration / fading"
0 points, 1 point for "I can see the difference from the original color", and 3 points for "White powder". Regarding hagare, "no hagare-mukure" has 0 points, "there seems to have a crack on the surface", 1 point, and "pla-paratome" has 3 points. Further, the items are weighted for each item, and the deterioration state is evaluated based on the total points. The weighting is 0.8 for "rust", 0.1 for "discoloration", and 0.1 for "hard".

For example, as the state of the iron coating, when the manager sees the rust, the difference from the original color is clearly understood, and it is judged that the rust is turned off, the rust point is 1 and the discoloration point is 1. , Hagare's point is 2. Then, these points are weighted to calculate a total point. The total score is (1 × 0.8) + (1 × 0.1)
+ (2 × 0.1) = 1.1. The state of deterioration is diagnosed based on this total point. For example, when the total point is less than 0.8, “the deterioration state has not progressed and it is in a good state”; are those diagnosed as "deteriorated significantly, it requires immediate painting" if. In this case, since the total point is 1.1, the iron-coated portion is diagnosed as "deterioration has progressed, and preparation for coating is necessary".

The calculation of the total points can be performed using a terminal such as a computer. The management committee evaluates each item in three steps and inputs the results.
The diagnostic result is displayed. Alternatively, as described above, it is also possible to perform an evaluation of the video in the arithmetic processing and make a diagnosis.

[0059]

According to the present system using a computer, defect information of an apartment house can be managed in a unified manner, and details of when, what part, what kind of defect was found, and what kind of action was taken can be obtained. The results are recorded in a database, and the results obtained by summarizing and showing the trouble information as needed can be obtained. In addition, it is possible to deal with the generated trouble at a relatively early stage, and to take a correct and precise treatment without fail. Further, since information as to whether or not the treatment is appropriate is also accumulated, know-how is fed back and it is easy to utilize the same for the treatment for the same trouble. As a result, high quality maintenance services can be provided to the residents.

According to a second aspect of the present invention, there is provided an information storage means for storing defect inspection information due to aging of the apartment house,
Based on the information, location means of the apartment house, calculating means for calculating the type and degree of progress according to the type and degree of progress of the defect according to the mounting portion of the member, etc., and for the state information of the apartment house, location, site, Since the materials, phenomena, and causes are coded and input, the input operation can be easily performed, and the defect information of the apartment house can be reliably recognized in detail. Further, a description error can be easily found, and the reliability of the database can be improved.

According to the third aspect, the state of each part of the apartment house is acquired as image data, and
Since the status of each part of the apartment complex is determined and the result of the determination is stored in the information storage device that holds the inspection information of the apartment complex, it is possible to easily determine the deterioration of the wall and the painted part, and Labor saving in maintenance can be realized. In addition, the repair / repair company and the management association can make objective judgments.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing the overall configuration of a defect information management system for an apartment house.

FIG. 2 is a diagram showing a flow of a repair plan calculation system for an apartment house.

FIG. 3 is a diagram showing a storage configuration of management data.

FIG. 4 is a diagram showing an example of an appearance inspection sheet.

FIG. 5 is a view showing an appearance inspection sheet code table for building names and the like.

FIG. 6 is a view showing an appearance inspection sheet code table of place names.

FIG. 7 is a diagram showing another example.

FIG. 8 is a diagram showing an appearance inspection sheet code table for small parts and materials.

[9] phenomenon contents and view showing an appearance inspection sheet code table of the assumed cause.

FIG. 10 is a diagram showing a configuration example of a daily inspection data input screen.

FIG. 11 is a diagram showing an example of a communication sent to a collective housing user.

FIG. 12 is a diagram showing a part of a tabulation sheet for an appearance inspection sheet.

FIG. 13 is a diagram showing another part.

FIG. 14 is a diagram showing an example of a graph created from an appearance inspection sheet total table.

FIG. 15 is a diagram showing another example.

FIG. 16 is a diagram showing an example in which the contents of phenomena by ridge are displayed in a graph from an appearance inspection sheet total table.

FIG. 17 is a diagram showing a display example of a survey result by a technician.

FIG. 18 is a diagram showing an example of an image evaluation method.

[Explanation of symbols]

 3 Database 5 Daily appearance inspection sheet 6 Periodic inspection report 7 Building diagnosis 8 Building certificate

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tosumi Kubota 1-88-1, Oyodonaka, Kita-ku, Osaka-shi, Osaka Sekisui House Co., Ltd. (72) Inventor Mamoru Kamiya 1-chome, Oyodonaka, Kita-ku, Osaka, Osaka No. 88 Sekisui House Co., Ltd. (72) Inventor Toru Takai 4-14-3-101 Nishinomiyahama, Nishinomiya City Inside SMG M Operation Co., Ltd. (72) Inventor Tatsuhiko Yagi 4-14-3 Nishimiyahama, Nishinomiya City −101 Inside SG M Operation Co., Ltd. (72) Inventor Ryuichi Kubo 4-14-3-101 Inside SG M Operation Co., Ltd. (72) Inventor Motohisa Ishigami 4-14-3 Nishimiyahama, Nishinomiya City −101 SMG M Operation Co., Ltd. (72) Inventor Yuka Kanazawa 4-14-3-101 Nishinomiyahama, Nishinomiya City (72) Inventor, Juichi Nagahama 1-1-88 Oyodonaka, Kita-ku, Osaka-shi, Osaka Prefecture Sekisui House Co., Ltd. (72) Inventor, Kazushi Nagashi 1 Oyodonaka, Kita-ku, Osaka, Osaka F-term (reference) 1-88 No. 1 in Sekisui House Co., Ltd. 2E176 BB00 BB38

Claims (3)

[Claims] 1. An information storage means for accumulating trouble check information due to aging deterioration of an apartment house, and, based on the information, a type and a degree of progress of the trouble according to a location condition of the apartment house, a mounting portion of a member, and the like. A defect information management system for an apartment house, comprising: a calculating means for calculating the drawing. 2. An information storage means for accumulating trouble check information due to aging deterioration of an apartment house, and based on the information, tabulates the type and degree of progress of the malfunction according to the location conditions of the apartment house, the mounting portion of the member, and the like. - a calculating means for calculating a drawing, the state information of the collective housing, location, site, materials, phenomena, defect information management system housing, characterized in that the input encoding the cause. 3. Acquiring the state of each part of the apartment complex as image data, judging the status of each part of the apartment complex based on the image data, and storing the determination result in an information storage device that holds inspection information of the apartment complex. Repair of apartment houses characterized by
Repair plan formulation support system.