JP2023004879A - Space maintenance management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a space maintenance management system capable of taking appropriate measures more proactively, which maintains space comfort, cleanliness, or safety.

SOLUTION: A space maintenance management system 1 that maintains comfort, cleanliness, or safety of a space causes a server 40 to receive environment information acquired by information detection units 11, 21, 31 via a network line 2; generates risk trend data indicating the risk of virus outbreaks in measurement target spaces 10, 20, 30 based on the received environmental information; and generates treatment instruction information, treatment standby information, or no-treatment information to output it to an output terminal unit based on the generated risk tendency data.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2023,JPO&INPIT

Description

TECHNICAL FIELD The present invention relates to a space maintenance management system that performs cleaning, sterilization, or other measures in a predetermined space as necessary to maintain the comfort, cleanliness, or safety of the space.

Conventionally, for example, like the personnel dispatching communication system disclosed in Patent Document 1, using a mobile terminal, according to the selection operation of the home supplier according to the customer's request, by accessing the dispatch source management server , which provides useful information to the customer and allows the dispatcher management server to accept reservations and orders for products and services desired by the customer.

Further, for example, Patent Literature 2 discloses an in-facility monitoring system that monitors the environmental conditions in the institution and grasps the risk of disease outbreaks caused by the environmental conditions.

JP-A-2001-331722 JP 2019-79136 A

Currently, there is virtually no monitoring system provided that organically links information such as indoor air quality, harmful substances, comfort, fires, or gas leaks in a given space owned by a customer. Absent. Although there are systems that manage these types of information individually, since each piece of information is managed independently, there is a limit to how much information can be used. I can only hit it. In addition, even if any of the factors of information increases and it becomes necessary to deal with it, the sound will be directed only to the people staying in the space and related parties based on human judgment and the judgment of an independent facility management system. It is limited to notifying with , alarms, etc., and after all, only ex-post measures can be taken.

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

The present invention is a space maintenance management system using a predetermined network line, comprising: an information detection unit arranged in a predetermined measurement target space for acquiring environmental information of the measurement target space; a main controller 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 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, wherein the main control unit receives the received environment information. risk trend data indicating the risk of occurrence of at least one of viruses and bacteria in the space to be measured; and based on the risk trend data, treatment instruction information, treatment At least one of standby information and no-treatment information is generated, and at least one of the generated treatment instruction information, treatment standby information, and no-treatment information is output to the output terminal unit. It is a space maintenance management system characterized by

That is, the present invention is a space maintenance management system for maintaining the comfort, cleanliness, or safety of a space, and includes air quality information (information on air components) and harmful information as environmental information in the space to be measured. etc., converts the acquired air quality information, harmful information, etc. into output information, transmits the converted output information to, for example, a database on the cloud via the network line, and stores the information in the database New output information is generated (updated) based on the threshold set from the correlation and causality of the air quality information, etc., and the risk trend value in the measurement target space is calculated and calculated. generating risk trend data corresponding to the risk trend value; generating at least one of action instruction information, action standby information, and no action information based on the generated risk trend data; Output this information to the output terminal. In addition, outputting includes displaying the risk tendency value in a predetermined manner on a web screen or the like. It is possible to provide a space maintenance management system that maintains the property.

In addition, by applying such a system, for example, air quality in a predetermined space (including gases such as CO ₂ , temperature, humidity, or VOC, odor components, or particulate matter), harmful substances (viruses, bacteria, or It is possible to provide a method of collecting and analyzing data obtained from a detection system that detects any one of information such as mold, etc., and disaster information such as fires and gas leaks, or a processing method. It is also possible to provide an IoT system and services that use the accumulated data to prevent the occurrence of the above-described harmful substances and take preventive measures at an early stage.

The environmental information includes air quality information and harmful information that is not included in the air quality information. The air quality information includes temperature information, humidity information, and volatile organic compound concentration information. , or air component information as the air quality in a predetermined measurement target space, such as carbon dioxide concentration information, etc., and harmful information includes other harmful substance information, fire information, gas leak information, and the like. The risk trend data corresponding to the risk trend value includes either viruses or bacteria in the space to be measured.

To reiterate, according to the configuration of the present invention, according to the treatment instruction information, the treatment standby information, or the treatment unnecessary information output to the output terminal, it is appropriate to have the output terminal. can be dealt with. Then, for example, a management company having a main control unit that receives a request from a customer who has a predetermined space to be measured 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 Note that the management company may have an output terminal unit, and the management company may directly deal with the problem. Examples of countermeasures include actions such as cleaning, sterilization, disinfection, ventilation, or fire extinguishing in a predetermined space to be measured, prevention of harmful information, and the like.

By the way, the treatment instruction information, the treatment standby information, or the no-treatment information is information required for treatment generated based on the environment information acquired by the information detection unit, and includes preventive treatment. In this way, preventive measures are also included in treatment, so it is possible to respond early, and by directly linking the output data with external treatment services, it is possible to own a predetermined measurement target space. Those who do so do not need to expend efforts such as collecting information and making arrangements necessary to maintain the environment.

Further, a plurality of output terminal units are provided, and the main control unit selects to which one of the plurality of output terminal units the treatment instruction information, treatment standby information, or no-treatment information is to be output. A configuration is proposed that has control contents to be performed.

With such a configuration, it becomes possible to allocate an appropriate trader according to the necessary measures. That is, for example, when cleaning is required, a cleaning company can be assigned, when disinfection is required, a sterilization company can be assigned, and when deodorization is required, a deodorizing company can be assigned.

Advantageous Effects of Invention The present invention has an excellent effect of maintaining a predetermined measurement target space in a comfortable, clean, or safe environment. Moreover, the present invention has an excellent effect of preventing the possibility of impairing the comfort and safety of the space to be measured. In addition, the present invention has an excellent effect of being able to quickly deal with loss of comfort and safety in the space to be measured.

1 is a schematic diagram of a space maintenance system; FIG. 1 shows a first display mode of output information displayed on an output terminal unit, where (a) is treatment unnecessary information, (b) is treatment standby information, and (c) is treatment instruction information. FIG. 4 is a schematic diagram showing transmission of information regarding the degree of risk of mold growth. A second display mode of the output information displayed on the output terminal unit is shown, where (a) is treatment unnecessary information, (b) is treatment standby information, and (c) is treatment instruction information. FIG. 4 is a schematic diagram showing transmission of information regarding the degree of risk of VOC concentration; 3 shows a third display mode of output information displayed on the output terminal unit, where (a) is treatment unnecessary information, (b) is treatment standby information, and (c) is treatment instruction information. FIG. 4 is a schematic diagram showing transmission of information regarding the degree of risk of carbon dioxide concentration;

An embodiment embodying a space maintenance management system, which is a management system for maintaining the comfort, cleanliness, or safety of a space according to the present invention, will be described in detail. It should be noted that the present invention is not limited to the embodiments shown below, and design changes can be made as appropriate.

The space maintenance management system 1, as shown in FIG. 1, is operated using a network line 2 composed of an internet line, a telephone line, or other lines.

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

The information detection units 11, 21, 31 detect virus information, bacteria information, temperature information, humidity information, volatile organic compound (VOC) concentration, carbon dioxide concentration, etc. Acquire environmental information such as gas concentration information, particulate matter (PM) information, odor component information, smoke information, fire information, or gas leak information.

Furthermore, the space maintenance management system 1 has a server 40 which is a main control unit. 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 output information via the network line 2 . It is assumed that the server 40 is managed by a management company 41 .

In addition, the space maintenance system 1 includes output terminals 50 , 60 and 70 for receiving output information sent by the server 40 . Based on the received output information, the output terminal units 50, 60 and 70 output the content of the output information in a predetermined manner. 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, the output terminal unit 70 is owned by the client 71, and each output information It is possible for each person to check the information within the scope according to their management authority.

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

Based on the risk trend data, the server 40 determines, for example, when a state in which the temperature is equal to or higher than a predetermined first value and the humidity is equal to or higher than a predetermined first value is accumulated for a predetermined first time. judges that there is a possibility that mold has occurred, and generates treatment standby 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 second predetermined value and the humidity is equal to or higher than the predetermined second value for a predetermined second time, not only is mold occurring, but also , it is determined that there is an extremely high possibility that the disease has propagated over a wide area, and treatment instruction information is generated as output information in order to proactively deal with it.

Conversely, when the temperature is less than the predetermined third value and the humidity is less than the predetermined third value, it is determined that the risk of mold growth is low, and no-treatment information is generated as output information.

The output information generated in this manner is sent to the corresponding output terminals 50, 60, 70 and output in a predetermined manner from the output terminals 50, 60, 70. FIG.

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

Specifically, when the no-treatment information is generated, as shown in FIG. A message is displayed to that effect.

Similarly, when treatment standby information is generated, as shown in FIG. A display is made to the effect that it is in a state where it is necessary to keep

Then, when the treatment instruction information is generated, as shown in FIG. A message is displayed to the effect that it is in this state.

After that, the cleaning company 51 confirms the output information and takes appropriate measures. For example, when the treatment instruction information 58 is displayed, the cleaning company 51 cleans the measurement target space 10 . Also, when the treatment standby information 57 is displayed, the cleaning company 51 contacts the person who owns or manages the space 10 to be measured, and makes a proposal to advance the need for countermeasures.

To reiterate the flow of information described above, as shown in FIG. Degree trend data is generated, and any one of treatment instruction information, treatment standby information, and no-treatment information is generated based on the risk trend data. Then, one of the generated treatment instruction information, treatment standby information, and no-treatment 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 tendency data generated by the server 40 is, for example, a risk corresponding to the action instruction information when the temperature is equal to or higher than the second value and the humidity is equal to or higher than the second value for a second cumulative time. data of the degree of risk corresponding to no-treatment information when the temperature is less than the third value and the humidity is less than the third value. On the other hand, if the degree of risk is between these, the data of the degree of risk corresponding to the treatment waiting information is used.

Further, for example, if the state in which the temperature is less than a predetermined value and the humidity is less than a predetermined value is maintained for a predetermined time or longer, each cumulative time counted so far is subtracted or reset (set to zero). can also

By adopting the configuration described above, it is possible to take early action such as effectively removing mold or preventing the generation of mold. In this case, the person who owns or manages the space 10 to be measured does not need to monitor the environment of the space 10 to be measured, which saves time and effort.

Next, a manner in which the server 40 generates, for example, risk trend data indicating the risk of 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 trend data, for example, when the VOC concentration is equal to or higher than a predetermined first value, the server 40 generates treatment standby information as output information so that countermeasures can be taken at any time.

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

Conversely, if the VOC concentration is less than the predetermined third value, it is determined that the danger is low, and no-treatment information is generated as output information.

The output information generated in this manner is sent to the corresponding output terminals 50, 60, 70 and output in a predetermined manner from the output terminals 50, 60, 70. FIG.

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

Specifically, when the no-treatment information is generated, as shown in FIG. 4A, the display unit 65 of the output terminal unit 60 displays the no-treatment information 66 indicating that the environment of the measurement target space 20 is clean. is displayed.

Similarly, when treatment standby information is generated, as shown in FIG. A display is made to the effect that it is in a state where it is necessary to keep

Then, when treatment instruction information is generated, as shown in FIG. 4(c), the display unit 65 of the output terminal unit 60 displays treatment instruction information 68 indicating that the environment of the measurement target space 20 should be immediately dealt with. A message is displayed to the effect that it is in this state.

After confirming the output information, the decontamination contractor 61 takes appropriate measures. For example, when the treatment instruction information 68 is displayed, the decontamination contractor 61 decontaminates the measurement target space 20 . Also, when the treatment standby information 67 is displayed, the decontamination contractor 61 contacts the person who owns or manages the space 20 to be measured and makes a proposal to advance the need for countermeasures.

To reiterate the above-described 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 uses the received environmental information to determine the risk trend of the VOC concentration. Data is generated, and one of treatment instruction information, treatment standby information, and no-treatment information is generated based on the risk trend data. Then, any one of the generated treatment instruction information, treatment standby information, and no-treatment information is transmitted to the output terminal unit 60 and displayed. Then, the decontamination contractor 61 takes appropriate measures based on the displayed output information.

Here, the risk trend data generated by the server 40 is, for example, risk data corresponding to the treatment instruction information when the VOC concentration is equal to or higher than the second value, and when the VOC concentration is less than the third value, It is data of the degree of risk corresponding to information requiring no action. On the other hand, if the degree of risk is between these, the data of the degree of risk corresponding to the treatment waiting information is used.

With the configuration described above, it is possible to take measures before the VOC concentration reaches a dangerous range. In this case, the person who owns or manages the space 20 to be measured does not need to monitor the environment of the space 20 to be measured, which saves time and effort.

Next, a manner in which the server 40 generates risk trend data indicating, for example, the risk 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 trend data, the server 40 generates treatment standby information as output information so that it can be dealt with at any time, for example, when the carbon dioxide concentration is equal to or higher than a predetermined first value.

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

Conversely, when the carbon dioxide concentration is less than the predetermined third value, it is determined that the danger is low, and no-treatment information is generated as output information.

The output information generated in this manner is sent to the corresponding output terminals 50, 60, 70 and output in a predetermined manner from the output terminals 50, 60, 70. FIG.

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

Specifically, when the no-treatment information is generated, as shown in FIG. 6A, the display unit 75 of the output terminal unit 70 displays the no-treatment information 76 indicating that the environment of the measurement target space 30 is clean. is displayed.

Similarly, when treatment standby information is generated, as shown in FIG. A display is made to the effect that it is in a state in which it is necessary to leave.

Then, when treatment instruction information is generated, as shown in FIG. 6(c), the display unit 75 of the output terminal unit 70 displays treatment instruction information 78 indicating that the environment of the measurement target space 30 should be dealt with immediately. A message is displayed to the effect that it is in this state.

After that, the client 71 who has confirmed the output information takes appropriate measures. For example, when the treatment instruction information 78 is displayed, the client 71 ventilates the space 30 to be measured. Further, when the treatment standby information 77 is displayed, the client 71 ventilates the space 30 to be measured.

To reiterate the flow described above, as shown in FIG. Trend data is generated, and one of action instruction information, action standby information, and no action information is generated based on the risk trend data. Then, any one of the generated treatment instruction information, treatment standby information, and no-treatment information is transmitted to the output terminal unit 70 and displayed. Then, the client 71 takes appropriate measures based on the displayed output information.

Here, the risk tendency data generated by the server 40 is, for example, risk data corresponding to the treatment instruction information when the carbon dioxide concentration is equal to or higher than the second value, and the carbon dioxide concentration is less than the third value. In this case, the risk level data corresponding to the no-action information is used. On the other hand, if the degree of risk is between these, the data of the degree of risk corresponding to the treatment waiting information is used.

With the configuration described above, it is possible to take measures before the carbon dioxide concentration reaches a dangerous range. In addition, if necessary, it is possible to request a specialized trader to deal with the problem.

What should be noted here is that the contents of the output information output by the output terminals 50, 60 and 70 are different. That is, the output terminal unit 50 possessed by the cleaning company 51 outputs output information corresponding to the degree of risk of mold occurrence related to cleaning, and the output terminal unit 60 possessed by the decontamination company 61 outputs the necessity of decontamination. Output information corresponding to is output. As a result, the necessary information for each trader's industry can be obtained accurately, and it is possible to respond positively and quickly.

The contents of the environment information acquired by the information detection units 10, 20, and 30 may be different from each other as described above, or may be the same. That is, based on the environmental information acquired by the information detection unit 10, the server 40 generates not only the risk of fungal growth, but also the risk trend data of the VOC concentration and the carbon dioxide concentration, and responds accordingly. It may be configured to output treatment instruction information, treatment standby information, or no-treatment information.

Also, for example, even if the environmental information corresponds to the action-unnecessary information, if it is determined that it is likely to correspond to the content of the action-waiting information based on the accumulated data in the near future, the Separately, it may be configured to output as warning information. In addition, a configuration is proposed in which the content of the warning information corresponds to the content of the action waiting information or the action not required information, for example, one week later, from the output terminals 50, 60, and 70. FIG. By adopting such a configuration, advance preparation becomes easier, and various dangers can be accurately prevented.

Also, the viewing authority for the information to be output can be set as appropriate. For example, it encompasses the authority held by a sales agent C that operated a chain retail store A, the authority held by A's head office, the authority held by the manager of B store in A, and B store. The authority held by the area manager or the like may be used to distribute (distribute) 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 he supervises, and the head office of A can see the information about all the area managers. You can see everything, and agents can see all the information about the stores they sell to.

In addition, the information that can be confirmed can be displayed in different colors at the time of output, and can be immediately confirmed by people in each hierarchy according to promptness and importance.

In addition, to reiterate, the target of occurrence risk applicable to the present invention is exemplified by viruses, bacteria, carbon dioxide, VOC, odor, PM, fire, smoke, toxic gas leak, mold, etc. in the space to be measured. .

1 Space maintenance and management system 2 Network lines 10, 20, 30 Measurement target space 11, 21, 31 Information detection unit 40 Servers 50, 60, 70 Output terminal unit 51 Cleaning companies 55, 65, 75 Display units 56, 66, 76 Treatment unnecessary information 57, 67, 77 Treatment waiting information 58, 68, 78 Treatment instruction information 61 Decontamination contractor 71 Requester

The present invention is a space maintenance and management system that uses a predetermined network line to enable a trader to take prompt measures, and is a measure to maintain a desired environment in a predetermined space to be measured. an information detection unit that is arranged in the measurement target space owned by the client requesting the treatment service and acquires environmental information of the measurement target space; a main control unit that receives, generates predetermined output information based on the received environmental information, and transmits the generated output information via the network line; An output terminal that receives the output information transmitted by the main control unit and outputs the content of the output information in a predetermined manner based on the received output information. and wherein the main control unit generates risk trend data indicating the risk of occurrence of hazardous substances in the space to be measured based on the received environmental information, and based on the risk trend data generating at least one of treatment instruction information, treatment standby information, and no-treatment information as the output information, and outputting at least one of the generated treatment instruction information, treatment standby information, and no-treatment information; The treatment instruction information indicates that it is necessary for the provider to perform the treatment service in the space to be measured, and the treatment waiting information is , the trader needs to prepare in advance for executing the treatment service in the space to be measured, and the no-treatment information indicates that the trader is to perform the treatment service in the space to be measured. The main control unit generates risk trend data indicating the risk of occurrence of hazardous substances in the space to be measured, and generates treatment instruction information based on the risk trend data. is generated, the treatment instruction information indicates that the contractor needs to perform a hazardous substance removal service in the space to be measured, and waiting for treatment based on the risk tendency data When the information is generated, the action standby information indicates that the contractor needs to prepare in advance for performing a hazardous substance removal service in the space to be measured, or the risk trend When the no-treatment information is generated based on the data, A space maintenance system characterized by indicating that it is not necessary to perform a hazardous substance removal service within the space.

Claims (2)

A space maintenance management system using a predetermined network line,
an information detection unit arranged in a predetermined measurement target space and acquiring environmental information of the measurement target space;
A master that receives the environmental information acquired by the information detection unit via the network line, generates predetermined output information based on the received environmental information, and transmits the generated output information via the network line. a control unit;
an output terminal unit that receives the output information transmitted by the main control unit and outputs the content of the output information in a predetermined manner based on the received output information;
and
The main control unit
generating risk trend data indicating the risk of occurrence of at least one of viruses and bacteria in the space to be measured based on the received environmental information, and outputting the output information based on the risk trend data , at least one of treatment instruction information, treatment standby information, and no-treatment information, and outputting at least one of the generated treatment instruction information, treatment standby information, and no-treatment information to the output terminal unit A space maintenance management system characterized by comprising control content for A plurality of the output terminal units are provided,
2. The space maintenance according to claim 1, wherein the main control unit has control contents for selecting to which one of the plurality of output terminal units the treatment instruction information, treatment standby information, or no-treatment information is to be output. management system.

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