JP7075688B1 - Space maintenance management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a space maintenance management system for maintaining space comfort, cleanliness or safety, which can take appropriate measures more positively. SOLUTION: In a space maintenance management system 1 for maintaining comfort, cleanliness, or safety of a space, virus information, bacterial information, temperature information, humidity information, volatile organic compound (VOC) concentration, carbon dioxide concentration, etc. Information detection units 11, 21, 31 that acquire environmental information such as gas concentration information, particulate matter (PM) information, odor component information, smoke information, fire information, or gas leak information, and the environment via network line 2. Information is received, risk level trend data indicating the risk of occurrence of a virus or the like in the measurement target spaces 10, 20, and 30 is generated based on the received environmental information, and treatment instruction information is generated based on the generated risk level trend data. , A server 40 that generates treatment standby information or treatment unnecessary information and outputs the information to the output terminals 50, 60, 70. [Selection diagram] Fig. 1

Description

The present invention relates to a space maintenance management system that performs measures such as cleaning and sterilization in a predetermined space as necessary, and maintains the comfort, cleanliness, or safety of the space.

Conventionally, for example, as in the personnel dispatch communication system disclosed in Patent Document 1, by using a portable terminal and accessing the dispatch source management server according to the selection operation of the home supplier according to the customer's request. , It is already known that useful information is provided to the customer and the dispatching source management server side accepts reservations and orders for products and services desired by the customer.

Further, for example, Patent Document 2 discloses an in-facility monitoring system that monitors the environmental state in the facility and grasps the risk of the occurrence of a disease caused by the environmental state.

Japanese Unexamined Patent Publication No. 2001-331722 Japanese Unexamined Patent Publication No. 2019-79136

Currently, a monitoring system that organically connects information on indoor air quality, harmful substances, comfort, fire, gas leak, etc. in a predetermined space owned by a customer is practically provided. do not have. There is a system that manages this information individually, but since each managed information is independent, there is a limit to the utilization of the information, and measures within a limited range are ex post facto. You can only hit. In addition, even if one of the information factors increases and it becomes necessary to deal with it, only the person staying in the space or the person concerned will hear the sound based on the judgment of human beings or the judgment of the independent facility management system. It is only notified by warnings and warnings, and only ex post facto measures can be taken.

It is an object of the present invention to provide a space maintenance management system capable of taking appropriate measures more positively and proactively, thereby maintaining the comfort, cleanliness, or safety of the space. ..

The present invention is a space maintenance management system using a predetermined network line, and is an information detection unit that is arranged in a predetermined measurement target space and acquires environmental information of the measurement target space, and is acquired by the information detection unit. A main control unit that receives environmental information via the network line, generates predetermined output information based on the received environmental information, and transmits the generated output information via the network line, and the main control. The main control unit includes an output terminal unit that receives output information transmitted by the unit and outputs the content of the output information in a predetermined manner based on the received output information, and the main control unit is used for the received environmental information. Based on the above, risk degree tendency data indicating the outbreak risk of at least one of the virus and the fungus in the measurement target space is generated, and based on the risk degree tendency data, the treatment instruction information and the treatment are used as the output information. It has a control content that generates at least one of the standby information and the treatment unnecessary information, and outputs at least one of the generated treatment instruction information, the treatment standby information, and the treatment unnecessary information to the output terminal unit. It is a space maintenance management system characterized by this.

That is, the present invention is a space maintenance management system for maintaining the comfort, cleanliness, or safety of a space, and air quality information (air component information) or harmful information as environmental information in the measurement target space. Etc. are acquired, the acquired air quality information, harmful information, etc. are converted into output information, and the converted output information is transmitted to, for example, a database on the cloud via the network line, and the information stored in the database. Output information is newly generated (updated) based on the threshold value set from the correlation and causality of the above, and the risk tendency value in the measurement target space is calculated and calculated based on the air quality information and the like. It generates risk trend data corresponding to the risk trend value, and based on the generated risk trend data, generates at least one of treatment instruction information, treatment standby information, and treatment unnecessary information, and then a predetermined value. These information are output to the output terminal section. It should be noted that the output includes displaying the risk level tendency value in a predetermined mode on a WEB screen or the like, and due to such a configuration, the comfort, cleanliness, or safety of the space is not a post-measure but a proactive measure. It is possible to provide a space maintenance management system that maintains sex.

In addition, by applying such a system, for example, air quality in a predetermined space (including gas such as CO ₂ , temperature, humidity, or VOC, odorous components, or particulate matter), harmful substances (viruses, fungi, or It is possible to provide a method for collecting and analyzing data obtained from a detection system that detects any of (mold, etc.) and disaster information such as fire and gas leakage, or a processing method. In addition, it will be possible to provide IoT systems and services that enable the generation of the above-mentioned harmful substances and early preventive measures using the accumulated data.

The environmental information includes air quality information and harmful information that is not included in the air quality information, and the air quality information includes temperature information, humidity information, and volatile organic compound concentration information. Or, air component information as the quality of air in a predetermined measurement target space such as carbon dioxide concentration information is exemplified, and the harmful information includes other harmful substance information, fire information, gas leakage information and the like. Then, the risk degree tendency data corresponding to the risk degree tendency value includes any of a virus and a fungus in the measurement target space.

To restate, it is appropriate to have the output terminal unit according to the treatment instruction information, the treatment standby information, or the treatment unnecessary information output to the output terminal unit according to the configuration of the present invention. Can be dealt with. Then, for example, a management company having a main control unit requested by a customer having a predetermined measurement target space issues an instruction to a subcontractor company having an output terminal unit according to the degree of necessity of measures such as cleaning and sterilization. Will be able to. It should be noted that the management company may have an output terminal unit, and the management company may directly deal with it. In addition, as countermeasures, actions such as cleaning, sterilization, disinfection, ventilation, or fire extinguishing in a predetermined measurement target space, prevention of harmful information, and the like are exemplified.

By the way, the treatment instruction information, the treatment standby information, or the treatment unnecessary information is information necessary for the treatment generated based on the environmental information acquired by the information detection unit, and includes preventive treatment. In this way, since the treatment includes preventive preventive measures, it is possible to take early measures, and the output data is directly linked with an external treatment service to own a predetermined measurement target space. What you do does not have to spend the effort of collecting and arranging the information necessary to maintain the environment.

Further, a plurality of output terminal units are provided, and the main control unit selects which of the plurality of output terminal units to output the treatment instruction information, the treatment standby information, or the treatment unnecessary information. A configuration having control contents to be performed is proposed.

With such a configuration, it is possible to assign an appropriate contractor according to the necessary measures. That is, for example, it is possible to assign a cleaning company when cleaning is required, a sterilizing company when disinfection is required, or a deodorizing company when deodorization is required.

The present invention has an excellent effect of maintaining a predetermined measurement target space in a comfortable, clean, or safe environment. Further, the present invention has an excellent effect of being able to prevent the possibility of impairing the comfort and safety of the measurement target space. In addition, the present invention has an excellent effect of being able to promptly deal with the impaired comfort and safety of the measurement target space.

It is a schematic diagram of a space maintenance management system. The first display mode of the output information displayed on the output terminal unit is shown, (a) is treatment unnecessary information, (b) is treatment standby information, and (c) is treatment instruction information. It is a schematic diagram which showed the transmission of the information about the risk of mold occurrence. A second display mode of the output information displayed on the output terminal unit is shown, (a) is treatment unnecessary information, (b) is treatment standby information, and (c) is treatment instruction information. It is a schematic diagram which showed the transmission of the information concerning the risk degree of a VOC concentration. A third display mode of the output information displayed on the output terminal unit is shown, (a) is treatment unnecessary information, (b) is treatment standby information, and (c) is treatment instruction information. It is a schematic diagram which showed the transmission of the information about the risk of carbon dioxide concentration.

An embodiment of the space maintenance management system, which is a management system for maintaining the comfort, cleanliness, or safety of the space according to the present invention, will be described in detail. The present invention is not limited to the examples shown below, and the design can be changed as appropriate.

As shown in FIG. 1, the space maintenance management system 1 is operated by using a network line 2 composed of an Internet line, a telephone line, or other lines.

Further, the space maintenance management system 1 is applied to the measurement target spaces 10, 20, 30 such as a room in a general detached house or a commercial building, or a warehouse, and each measurement target space 10, 20, 30. The information detection units 11, 21, and 31 connected to the network line 2 are arranged in the space.

In addition, the information detection unit 11,21,31 has the virus information, the fungus information, the temperature information, the humidity information, the volatile organic compound (VOC) concentration, the carbon dioxide concentration, etc. of the arranged measurement target spaces 10, 20, and 30. Acquires environmental information such as gas concentration information, particulate matter (PM) information, odor component information, smoke information, fire information, or gas leak information.

Further, the space maintenance management system 1 includes a server 40 which is a main control unit. Then, the environment information acquired by the information detection units 11, 21, and 31 is received by the server 40 via the network line 2.

Next, the server 40 generates predetermined output information, which will be described later, based on the received environmental information, and transmits the information via the network line 2. The server 40 is managed by the management company 41.

In addition, the space maintenance management system 1 includes output terminal units 50, 60, and 70 that receive output information transmitted by the server 40. Then, the output terminal units 50, 60, and 70 output the contents of the output information in a predetermined mode based on the received output information. The output terminal unit 50 is owned or managed by the cleaning company 51, the output terminal unit 60 is owned or managed by the decontamination company 61, and the output terminal unit 70 is owned by the client 71. It is possible for each person to confirm the information within the range according to their respective management authority.

Here, a mode in which the server 40 generates risk level tendency data indicating, for example, the risk of mold occurrence will be described below based on the environmental information acquired by the information detection unit 11 and transmitted to the server 40.

The server 40 is based on the risk degree tendency data, for example, when the temperature is equal to or higher than the predetermined first value and the humidity is equal to or higher than the predetermined first value for a predetermined first time. Determines that mold may have occurred, and generates treatment wait information as output information so that it can be dealt with at any time.

Similarly, for example, when the temperature is equal to or higher than the predetermined second value and the humidity is equal to or higher than the predetermined second value for a predetermined second time, not only mold is generated but also mold is generated. , It is judged that there is an extremely high possibility that it is breeding in a wide range, and treatment instruction information is generated as output information in order to take positive measures.

On the contrary, when the temperature is less than a predetermined third value and the humidity is less than a predetermined third value, it is determined that the risk of mold formation is small, and treatment-free information is generated as output information.

The output information generated in this way is transmitted to the corresponding output terminal units 50, 60, 70 and is output in the output terminal units 50, 60, 70 in a predetermined mode.

For example, as shown in FIG. 2, the output information regarding mold is output and displayed on the output terminal unit 50 by selecting the output terminal unit 50 possessed by the cleaning company 51.

Specifically, when the treatment unnecessary information is generated, as shown in FIG. 2A, the environment of the measurement target space 10 is clean as the treatment unnecessary information 56 on the display unit 55 of the output terminal unit 50. A message to that effect is made.

Similarly, when the treatment standby information is generated, as shown in FIG. 2B, the environment of the measurement target space 10 prepares for the countermeasure as the treatment standby information 57 on the display unit 55 of the output terminal unit 50. It will be displayed that it is in a state that needs to be done.

Then, when the treatment instruction information is generated, as shown in FIG. 2C, the environment of the measurement target space 10 should immediately deal with the treatment instruction information 58 on the display unit 55 of the output terminal unit 50. An indication that the state is in effect is made.

After confirming these output information, the cleaning company 51 takes appropriate measures. For example, when the treatment instruction information 58 is displayed, the cleaning company 51 cleans the measurement target space 10. Further, when the treatment standby information 57 is displayed, the cleaning company 51 contacts the person who possesses or manages the measurement target space 10 and makes a proposal to proceed with the need for countermeasures.

To restate the above-mentioned flow of information, as shown in FIG. 3, the environmental information acquired by the information detection unit 11 is transmitted to the server 40, and the danger of indicating the degree of mold occurrence from the environmental information received by the server 40 is shown. The degree tendency data is generated, and one of the treatment instruction information, the treatment waiting information, and the treatment unnecessary information is generated based on the risk degree tendency data. Then, any one of the generated treatment instruction information, treatment standby information, and treatment unnecessary information is transmitted to the output terminal unit 50 and displayed. Then, the cleaning company 51 takes appropriate measures based on the displayed output information.

Here, the risk degree tendency data generated by the server 40 corresponds to the risk corresponding to the treatment instruction information when, for example, the state where the temperature is equal to or higher than the second value and the humidity is equal to or higher than the second value reaches the second cumulative time. When the temperature is less than the third value and the humidity is less than the third value, the data of the degree is used as the data of the degree of danger corresponding to the information requiring no treatment. On the other hand, if the risk level is between these, the risk level data corresponding to the treatment waiting information is used.

Further, for example, when the temperature is less than the predetermined value and the humidity is maintained below the predetermined value for a predetermined time or longer, each cumulative time counted so far is subtracted or reset (set to zero). You can also do it.

With the configuration described above, it is possible to take early measures such as effectively removing mold and preventing the generation of mold. In this case, it is not necessary for the person who possesses or manages the measurement target space 10 to monitor the environment of the measurement target space 10, and it does not take time and effort.

Next, a mode in which the server 40 generates risk level tendency data indicating, for example, the risk level of the VOC concentration based on the environmental information acquired by the information detection unit 21 and transmitted to the server 40 will be described below.

Based on the risk degree tendency data, the server 40 generates treatment standby information as output information so that, for example, when the VOC concentration is equal to or higher than a predetermined first value, it can be dealt with at any time.

Similarly, for example, when the VOC concentration is equal to or higher than a predetermined second value, it is determined that countermeasures should be positively taken, and treatment instruction information is generated as output information.

On the contrary, when the VOC concentration is less than a predetermined third value, it is determined that the danger is low and no action-free information is generated as output information.

The output information generated in this way is transmitted to the corresponding output terminal units 50, 60, 70 and is output in the output terminal units 50, 60, 70 in a predetermined mode.

For example, as shown in FIG. 4, the output information regarding the VOC concentration is output and displayed on the output terminal unit 60 in which the output terminal unit 60 possessed by the decontamination company 61 is selected.

Specifically, when the treatment unnecessary information is generated, as shown in FIG. 4A, the display unit 65 of the output terminal unit 60 indicates that the environment of the measurement target space 20 is clean as the treatment unnecessary information 66. Is displayed.

Similarly, when the treatment standby information is generated, as shown in FIG. 4B, the environment of the measurement target space 20 prepares for the countermeasure as the treatment standby information 67 on the display unit 65 of the output terminal unit 60. It will be displayed that it is in a state that needs to be done.

Then, when the treatment instruction information is generated, as shown in FIG. 4C, the environment of the measurement target space 20 should immediately deal with the display unit 65 of the output terminal unit 60 as the treatment instruction information 68. An indication that the state is in effect is made.

Then, the decontamination company 61 that has confirmed these output information takes appropriate measures. For example, when the treatment instruction information 68 is displayed, the decontamination company 61 decontaminates the measurement target space 20. Further, when the treatment standby information 67 is displayed, the decontamination company 61 contacts the person who possesses or manages the measurement target space 20 and makes a proposal to proceed with the need for countermeasures.

To restate the above flow, as shown in FIG. 5, the environmental information acquired by the information detection unit 21 is transmitted to the server 40, and the server 40 tends to indicate the risk level of the VOC concentration from the received environmental information. Data is generated, and one of treatment instruction information, treatment standby information, and treatment unnecessary information is generated based on the risk level trend data. Then, any one of the generated treatment instruction information, treatment standby information, and treatment unnecessary information is transmitted to the output terminal unit 60 and displayed. Then, the decontamination company 61 takes appropriate measures based on the displayed output information.

Here, the risk tendency data generated by the server 40 is, for example, the risk data corresponding to the treatment instruction information when the VOC concentration is the second value or more, and when the VOC concentration is less than the third value. The risk level data corresponds to the information that does not require treatment. On the other hand, if the risk level is between these, the risk level data corresponding to the treatment waiting information is used.

With the configuration described above, it is possible to deal with the VOC concentration before it reaches the dangerous zone. In this case, it is not necessary for the person who possesses or manages the measurement target space 20 to monitor the environment of the measurement target space 20, and it does not take time and effort.

Next, a mode in which the server 40 generates risk level tendency data indicating, for example, the risk level of carbon dioxide concentration based on the environmental information acquired by the information detection unit 31 and transmitted to the server 40 will be described below.

Based on the risk degree tendency data, the server 40 generates treatment standby information as output information so that, for example, when the carbon dioxide concentration is equal to or higher than a predetermined first value, it can be dealt with at any time.

Similarly, for example, when the carbon dioxide concentration is equal to or higher than a predetermined second value, it is determined that measures should be taken positively, and treatment instruction information is generated as output information.

On the contrary, when the carbon dioxide concentration is less than the predetermined third value, it is determined that the danger is small and the treatment-unnecessary information is generated as the output information.

The output information generated in this way is transmitted to the corresponding output terminal units 50, 60, 70 and is output in the output terminal units 50, 60, 70 in a predetermined mode.

For example, as shown in FIG. 6, the output information regarding the carbon dioxide concentration is output and displayed on the output terminal unit 70 after the output terminal unit 70 possessed by the client 71 is selected.

Specifically, when the treatment unnecessary information is generated, as shown in FIG. 6A, the display unit 75 of the output terminal unit 70 indicates that the environment of the measurement target space 30 is clean as the treatment unnecessary information 76. Is displayed.

Similarly, when the treatment standby information is generated, as shown in FIG. 6B, the environment of the measurement target space 30 prepares for the treatment as the treatment standby information 77 on the display unit 75 of the output terminal unit 70. An indication that it is in a state that needs to be kept is displayed.

Then, when the treatment instruction information is generated, as shown in FIG. 6C, the environment of the measurement target space 30 should immediately deal with the display unit 75 of the output terminal unit 70 as the treatment instruction information 78. An indication that the state is in effect is made.

Then, the requester 71 who confirmed these output information takes appropriate measures. For example, when the treatment instruction information 78 is displayed, the requester 71 ventilates the measurement target space 30. Further, when the treatment standby information 77 is displayed, the requester 71 ventilates the measurement target space 30 and the like.

To restate the above flow, as shown in FIG. 7, the environmental information acquired by the information detection unit 31 is transmitted to the server 40, and the risk level indicating the risk level of the carbon dioxide concentration from the environmental information received by the server 40 is shown. Trend data is generated, and one of treatment instruction information, treatment standby information, and treatment unnecessary information is generated based on the risk level trend data. Then, any one of the generated treatment instruction information, treatment standby information, and treatment unnecessary information is transmitted to the output terminal unit 70 and displayed. Then, the requester 71 takes appropriate measures based on the displayed output information.

Here, the risk degree tendency data generated by the server 40 is, for example, the risk degree data corresponding to the treatment instruction information when the carbon dioxide concentration is the second value or more, and the carbon dioxide concentration is less than the third value. In some cases, the risk level data corresponds to the information that does not require treatment. On the other hand, if the risk level is between these, the risk level data corresponding to the treatment waiting information is used.

With the configuration described above, it is possible to respond before the carbon dioxide concentration reaches the dangerous area. In addition, it is possible to request a professional contractor to deal with it as needed.

What should be noted here is that the contents of the output information output by the output terminal units 50, 60, 70 are different. That is, the output terminal unit 50 possessed by the cleaning company 51 outputs output information according to the degree of mold generation risk related to cleaning, and the output terminal unit 60 possessed by the decontamination company 61 needs to be decontaminated. The output information according to is output. As a result, the information necessary for the industry of each trader can be accurately obtained, and it is possible to respond positively and promptly.

The contents of the environmental information acquired by the information detection units 10, 20, and 30 may be different or the same as described above. That is, based on the environmental information acquired by the information detection unit 10, the server 40 generates not only the risk of mold generation but also the risk tendency data of VOC concentration and carbon dioxide concentration, and responds to each based on them. It may be configured to output treatment instruction information, treatment standby information, or treatment unnecessary information.

Further, for example, even if the environmental information corresponds to the treatment unnecessary information, if it is determined based on the accumulated data that the information is likely to correspond to the contents of the treatment waiting information in the near future, a notification to that effect is given. It may be configured to be output as warning information separately. Further, it is proposed that the warning information is output to the output terminal units 50, 60, 70, for example, which corresponds to the contents of the treatment standby information and the treatment unnecessary information after one week as it is. With such a configuration, it becomes easier to prepare in advance, and it becomes possible to accurately prevent various dangers.

In addition, the viewing authority for the output information can be set as appropriate. For example, the authority held by the sales agent C who has operated in the retail store that develops the chain A, the authority owned by the head office of A, the authority owned by the manager of the B store in A, and the B store are included. The authority held by the area manager or the like may be distributed (distributed) on the Web screen within an appropriate range. With such a configuration, for example, the store manager can see all the information of his own store, the area manager can see all the information of all the stores in charge, and the head office of A can see all the information about all area managers. You can see everything, and the agency can see all the information about the store it sold.

In addition, the information that can be confirmed can be displayed in different colors at the time of output, and may be immediately confirmed by a person at each level according to the speed and importance.

Further, again, the target of the occurrence risk applicable to the present invention is exemplified by viruses, bacteria, carbon dioxide, VOC, odor, PM, fire, smoke, toxic gas leak, mold and the like in the measurement target space. ..

1 Space maintenance management system 2 Network line 10, 20, 30 Measurement target space 11,21,31 Information detection unit 40 Server 50, 60, 70 Output terminal unit 51 Cleaning company 55, 65, 75 Display unit 56, 66, 76 No treatment required information 57,67,77 Treatment standby information 58,68,78 Treatment instruction information 61 Decontamination contractor 71 Requester

Claims (2)

It is a space maintenance management system that enables quick measures by vendors using a predetermined network line.
An information detection unit that is placed in the measurement target space owned by the client who requests the treatment service, which is a treatment for maintaining the desired environment in the predetermined measurement target space, and acquires the environmental information of the measurement target space. When,
Mainly, the environment information acquired by the information detection unit is received via the network line, predetermined output information is generated based on the received environment information, and the generated output information is transmitted via the network line. Control unit and
It is owned by a company that provides a predetermined treatment service in the measurement target space based on the request of the requester, receives the output information transmitted by the main control unit, and outputs the output based on the received output information. An output terminal unit that outputs the contents of information in a predetermined mode,
Equipped with
The main control unit
Based on the received environmental information, risk trend data indicating the risk of occurrence of a harmful substance including at least one of a virus and a fungus in the measurement target space is generated, and based on the risk trend data. , At least one of the treatment instruction information, the treatment waiting information, and the treatment unnecessary information is generated as the output information, and at least one of the generated treatment instruction information, the treatment waiting information, and the treatment unnecessary information is output. It is equipped with control contents to be output to the terminal unit for use.
The treatment instruction information indicates that the trader needs to execute the treatment service in the measurement target space.
The treatment waiting information indicates that the trader needs to prepare in advance to execute the treatment service in the measurement target space.
The treatment unnecessary information indicates that the trader does not need to execute the treatment service in the measurement target space.
When the main control unit generates risk degree tendency data indicating the risk of occurrence of a harmful substance in the measurement target space and generates treatment instruction information based on the risk degree tendency data, the treatment instruction information is obtained by a trader. Indicates that it is necessary to execute the removal service of harmful substances in the measurement target space, and when the treatment waiting information is generated based on the risk degree tendency data, the treatment waiting information is The trader indicates that it is necessary to prepare in advance to execute the harmful substance removal service in the measurement target space, or when the treatment unnecessary information is generated based on the risk degree tendency data. The treatment-free information indicates that it is not necessary for the trader to perform a harmful substance removal service in the measurement target space.
A space maintenance management system characterized by this. A plurality of output terminal units are provided.
The space maintenance according to claim 1, wherein the main control unit includes control content for selecting which of the plurality of output terminal units the treatment instruction information, the treatment standby information, or the treatment unnecessary information is to be output. Management system.

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