KR20170087412A - Maintenance support system and maintenance support method - Google Patents

Abstract

The air conditioning equipment which may require maintenance without extracting additional sensors for maintenance is extracted.
The monitoring center 3 of the maintenance support system includes a schedule creating unit 30 for creating a schedule of a maintenance mode operation of the air conditioning equipment 2-1 to 2-N, a maintenance mode for determining whether or not the maintenance mode operation can be performed, When the execution possibility judgment unit 31 and the maintenance mode execution possibility judgment unit 31 judge that the maintenance mode operation is executable, the execution of the maintenance mode operation for the air conditioning equipments 2-1 to 2-N , An operation data collecting unit 33 for collecting operation data from the air conditioning equipment 2-1 to 2-N, and an operation data collecting unit 33 for collecting operation data from the air conditioning equipment 2-1 And a maintenance necessity judging section 34 for judging whether or not the maintenance of the vehicle 1 is required.

Description

[0001] MAINTENANCE SUPPORT SYSTEM AND MAINTENANCE SUPPORT METHOD [0002]

The present invention relates to a maintenance support system and method for supporting the maintenance work of air conditioning equipment such as a VAV unit, FCU, AHU, and building multi.

Due to the decrease in the working population in Japan, the shortage of personnel of the building manager who maintains the facilities of the building has become remarkable. However, for the building manager, the number of air conditioner equipments installed in one building is large, There is a problem that it takes time to check the deterioration or the abnormality.

Meanwhile, with the development of Information and Communication Technology (ICT), BEMS (Building and Energy Management System) has been introduced to large-scale buildings in addition to BAS (Building Automation System) ) Is introduced, and effective utilization of the data collected by these systems is expected.

Therefore, as disclosed in Patent Document 1, after collecting various operation information of the air conditioner in the remote monitoring center and checking the performance deterioration or failure of the air conditioner from the data analysis result, A method of performing the maintenance operation of the identified air conditioner has been proposed.

Patent Document 1: JP-A-2001-357113

The number of buildings to be changed from the management form of the building residence to the management form by the non-repetition inspection is increasing, and therefore an efficient method of detecting deterioration or abnormality in the performance of the equipment is required .

In the method disclosed in Patent Document 1, the air-conditioning equipment maker collects the operation data of the air-conditioning equipment, which is the product of the air-conditioning equipment, at its remote monitoring center to judge deterioration or abnormality of the performance of the air- At this time, it is assumed that the data necessary for determining whether or not the maintenance is necessary is measured in detail for each air conditioner, and all the data are transmitted from the site to the remote monitoring center and collected.

However, in the actual field, it is rare that the necessary data are completely measured and the air conditioner maker is made available to the outside by releasing the data to the outside. As a result, there has been a problem that a building to which the method disclosed in Patent Document 1 can be applied has a limited range of application.

Further, in the method disclosed in Patent Document 1, it is determined whether or not maintenance of the air conditioner is necessary by using the operation data of the normal operating time zone. Therefore, there is a restriction on the operation data that can be obtained, There was a possibility that it could not be judged. In order to accurately determine whether or not the maintenance of the air-conditioning equipment is necessary, it is necessary to acquire operation data suitable for determining whether or not maintenance is required. However, in order to acquire such operation data at a normal operation time, There is a problem that the cost required for maintenance increases.

Therefore, the operation data (such as device oscillation / stop, room temperature, humidity, air volume, supply temperature, inverter rotation speed, power consumption Power, valve opening, etc.), and it is preferable to extract the air conditioner which may require maintenance because of performance deterioration or abnormality.

In this manner, when the air conditioner having a possibility of requiring maintenance is extracted in advance, since the service person enters the site after narrowing down the maintenance target, the time required for the service person to carry out the maintenance work in the field can be greatly reduced.

However, when evaluating the performance of each air conditioner per unit, data such as control temperature, operating condition, and control valve of the air conditioner by BEMS are used. In many cases, it is affected by solar radiation or the like.

Therefore, there has been a problem that it is difficult to perform the performance evaluation of the individual air conditioner from the operation data of the air conditioner as usual.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a maintenance support system and method capable of extracting an air conditioner which may require maintenance without additionally providing a sensor for maintenance do.

The maintenance support system of the present invention includes a schedule creation means for creating a schedule for a maintenance mode operation of the air conditioner and a determination means for determining whether or not the maintenance mode operation can be performed based on the operation state of the air conditioner to be operated in the maintenance mode operation A device operation instruction means for instructing execution of the maintenance mode operation to the target air conditioner device when the execution possibility determination means determines that the maintenance mode operation is executable; An operation data collection means for collecting operation data from one air conditioner and a maintenance necessity determination means for determining whether maintenance of the air conditioner is necessary based on the behavior of the operation data.

In addition, an example of the construction of the maintenance support system of the present invention is characterized by further comprising maintenance device list output means for generating and outputting a list of air conditioner devices requiring maintenance.

Further, in one configuration example of the maintenance support system of the present invention, the device operation instruction means may give the set value of the air-conditioning control corresponding to the operation data to the air conditioner to be subjected to the maintenance mode operation, .

In the construction example of the maintenance support system of the present invention, the maintenance necessity determination means determines whether or not maintenance of the air conditioner is necessary based on the deviation between the measured values of the collected operation data and the set values corresponding thereto And judges whether or not it is possible.

In one example of the maintenance support system of the present invention, the maintenance necessity determining means determines whether or not the maintenance of the air conditioner is necessary based on a change in the initial value of the measured value of the collected operation data It is characterized by.

The maintenance support system according to the present invention may further include operation data storage means for storing operation data collected in a past maintenance mode operation, Based on the difference between the change in the measured value of the operation data and the change in the measured value of the corresponding operation data in the past maintenance mode operation.

In the construction example of the maintenance support system according to the present invention, the execution possibility judging means judges whether or not the air conditioner operating as the target of the maintenance mode operation is in operation When there is no air conditioner and the environmental condition of the space to be air conditioned is within a predetermined range, it is determined that the maintenance mode operation is executable. If there is an air conditioner in operation among the air conditioners to be operated, The control unit determines that the maintenance mode operation can not be executed when the environmental condition of the space to be set is not within the predetermined range.

In addition, an example of the construction of the maintenance support system of the present invention may further include an external environment condition storage means for storing external environment conditions at a time of execution of the past maintenance mode operation, There is no airconditioning equipment in operation in the air conditioning equipment to be subjected to the maintenance mode operation at the time immediately before the execution time of the execution of the maintenance mode operation and the present external environment condition for executing the maintenance mode operation is It is determined that the maintenance mode operation is executable when the external environment condition of the execution time of the maintenance mode operation is substantially the same as the execution time of the maintenance mode operation, Outside circle of execution time of conduct day of maintenance mode operation If not substantially the same conditions, it is characterized in that the determination by the maintenance operation mode can not be executed.

In addition, an example of the construction of the maintenance support system of the present invention may further include an external environment condition storage means for storing external environment conditions at a time of execution of the past maintenance mode operation, There is no operating air conditioner in the air conditioner that is the subject of the maintenance mode operation at the time immediately before the execution time of the day of the maintenance mode operation and the environmental condition of the space to be air conditioned is within a predetermined range, It is determined that the maintenance mode operation is executable when the current external environment condition for executing the maintenance mode operation is substantially equal to the external environment condition for the execution time period of the past maintenance mode operation, If there is an air conditioner in operation, or if the air conditioner Or when the current external environmental condition is not substantially equal to the external environmental condition at the execution time of the past maintenance mode operation, it is determined that the maintenance mode operation can not be executed .

In the construction example of the maintenance support system of the present invention, the schedule creation means may set the time zone in which the resident is absent in the space to be air-conditioned by the air-conditioning equipment as the time zone in which the maintenance mode operation is performed It is characterized by.

Further, in one configuration example of the maintenance support system of the present invention, the schedule creation means may exclude a plurality of air conditioner devices, in which the operation of the air conditioner device affects mutual operation data, from the objects of simultaneous operation, In the maintenance mode operation so as to make a plurality of air conditioner devices, which do not affect the operation data of each other, as objects of simultaneous operation.

In the construction example of the maintenance support system according to the present invention, the schedule creation means may be configured such that the time period during which the maintenance mode operation is performed is set immediately before the normal operation time period of the air- And the like.

In one configuration example of the maintenance support system of the present invention, the air conditioner is at least one of a VAV unit, an FCU, an AHU, and a building multi.

The maintenance support method of the present invention includes a schedule creation step of creating a schedule of a maintenance mode operation of the air conditioner, and a maintenance execution step of executing the maintenance mode operation based on the operation state of the air conditioner, An operation instruction instruction step of instructing execution of the maintenance mode operation to the target air conditioner device when it is determined that the maintenance mode operation is executable in the execution possibility determination step; And a maintenance necessity determination step of determining whether or not maintenance of the air conditioner is necessary based on the behavior of the operation data.

According to the present invention, by providing the schedule creation means, the execution possibility determination means, the device operation instruction means, the operation data collection means, and the maintenance necessity determination means, It is possible to extract air conditioning equipment that may require maintenance, by using only the operation data normally collected in the majority of buildings for the control.

Further, in the present invention, by giving the set value of the air-conditioning control corresponding to the operation data to the air-conditioning apparatus as the target of the maintenance mode operation, the air conditioning apparatus can execute the maintenance mode operation specialized for determining whether maintenance is necessary .

Further, in the present invention, the deterioration or abnormality of the performance of the air conditioner can be judged by using the deviation between the measured value of the collected operation data and the set value corresponding thereto as an indicator.

Further, in the present invention, deterioration in performance or abnormality of the air conditioner can be judged by employing, as an indicator, a change in the measured value of the collected operation data with respect to the initial value.

Further, in the present invention, by employing, as an index, the difference between the measured value of the collected operation data and the measured value of the corresponding operation data in the past maintenance mode operation as an index, the performance deterioration or abnormality of the air- can do.

Further, in the present invention, by performing the maintenance mode operation when the environmental condition of the space to be air-conditioned is within the predetermined range, the influence of the room temperature, humidity, etc. can be judged.

Further, in the present invention, when the current external environmental condition is substantially equal to the external environmental condition at the execution time of the past maintenance mode operation, the maintenance mode operation is executed so that the judgment excluding the influence of the outside air temperature, It becomes possible.

Further, in the present invention, by setting the time zone of the residents in the space to be air-conditioned by the air-conditioning equipment as the time zone in which the maintenance mode operation is carried out, it is possible to determine whether the maintenance of the air- It is possible to collect the operation data specialized for the determination of the operation.

In the present invention, it is also possible to exclude a plurality of air conditioner devices, which are operated by the air conditioner, from influencing mutual operation data, from a simultaneous operation target, The maintenance mode operation can be executed in a state in which the air conditioning equipment is not affected by the operation of other air conditioning equipment by creating a schedule of the maintenance mode operation so that the air conditioning equipment is subjected to the simultaneous operation, .

Further, in the present invention, the effect of pre-cooling or pre-heating can be obtained by creating a schedule for the maintenance mode operation so that the time period during which the maintenance mode operation is performed is set immediately before the normal operation time period of the air- Waste of energy can be minimized.

1 is a block diagram showing a configuration of a maintenance support system according to an embodiment of the present invention.
2 is a flowchart for explaining the operation of the maintenance support system according to the embodiment of the present invention.
3 is a diagram showing an example of a schedule of the maintenance mode operation in the embodiment of the present invention.
4 is a diagram showing an example of a change schedule of a maintenance mode operation set value in the embodiment of the present invention.
5 is a view for explaining a method for determining whether or not the air conditioning equipment needs to be maintained in the embodiment of the present invention.

[Principle of the invention]

In order to solve the above problems, the inventor of the present invention has proposed a maintenance mode operation in which individual air conditioners are independently operated in a time zone during which the resident environment is not affected, It is possible to acquire.

Since the method of the present invention makes it unnecessary for the air conditioner to operate only in order to acquire the maintenance data at a time when it is not necessary to start the air conditioner, it is necessary for the customer to increase the energy, It is a difficult method to accept for the building manager.

However, since the maintenance mode operation of the air conditioner is limited to several hours per year at most, it is considered that the disadvantage caused by the influence of the increased energy of the maintenance mode operation is such that the understanding of the building manager can be obtained.

[Embodiment Mode]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 is a block diagram showing a configuration of a maintenance support system according to an embodiment of the present invention. The maintenance support system collects operation data from the air conditioner devices 2-1 to 2-N installed in the building 1 to be managed and the air conditioner devices 2-1 to 2-N, 1 to 2-N), and a management system or network 4 for connecting the air conditioning equipment 2-1 to 2-N and the monitoring center 3 do.

The air conditioning equipment 2-1 to 2-N may be any of a VAV (Variable Air Volume) unit, an FCU (Fan Coil Unit), an AHU (Air Handling Unit), and a building multi It is good.

The monitoring center 3 includes a schedule creating unit 30 for creating a schedule of a maintenance mode operation of the air conditioning equipment 2-1 to 2-N, and air conditioning equipment 2-1 to 2- N), and a maintenance mode execution possibility determination unit (31) for determining whether or not the maintenance mode operation can be executed based on the operation state of the maintenance mode execution unit A device operation command section 32 for instructing the execution of the maintenance mode operation for the air conditioning equipment 2-1 to 2-N to be operated, and an air conditioner 2-1 to 2-N for executing the maintenance mode operation A maintenance necessity judging unit 34 for judging whether maintenance of the air conditioning equipment 2-1 to 2-N is required based on the behavior of the operation data, List of air conditioner equipment that needs An external environment condition storage unit 36 for storing the external environment conditions of the execution time of the past maintenance mode operation; And an operation data storage section 37 for storing operation data.

The monitoring center 3 is installed in the inside of the building 1 to be managed or outside the building 1 And extracts the air conditioners 2-1 to 2-N that are likely to require maintenance due to performance deterioration or abnormality.

At this time, the operation data for controlling the air conditioning (device oscillation / stop, room temperature, humidity, air flow rate, supply air temperature, temperature of the air conditioner 2-1 to 2-N) Inverter speed, power, valve opening, etc.). Thus, the monitoring center 3 executes the maintenance mode operation in which the individual air conditioning equipment 2-1 to 2-N are sequentially and independently operated in a time zone in which the resident is absent, Thereby obtaining independent input / output data for each air conditioner.

Fig. 2 is a flowchart for explaining the operation of the maintenance support system of the present embodiment. Initially, the schedule creating unit 30 creates a schedule for the maintenance mode operation of each of the air conditioner devices 2-1 to 2-N in the building 1 to be managed for each air conditioner (FIG. 2, step S1).

The schedule creating unit 30 sets the time period for performing the maintenance mode operation of the air conditioner on the basis of the resident's schedule information provided in advance from the customer (manager or resident of the building 1) (E.g., nighttime, early morning, holiday) in which no influence is given to the user. In the time period during which the maintenance mode operation is performed, normally all of the air-conditioning equipment 2-1 to 2-N are stopped. In the resident schedule information, the date and time when the resident is absent is described in each space in the building 1, to which the air conditioners 2-1 to 2-N are to be air-conditioned.

The schedule creating section 30 creates the schedule information of the maintenance mode operation so that the individual air conditioner devices 2-1 to 2-N can be operated independently and sequentially to obtain independent input / output data for each air conditioner device . The schedule information of the maintenance mode operation is made up of the start date and time information of the air conditioning equipment 2-1 to 2-N and the stop date and time information.

At this time, the schedule creating unit 30 is installed in another room partitioned by a wall, even in the same floor of the air-conditioning equipment installed in another floor among the air-conditioning equipment 2-1 to 2-N in the building 1 The schedule information of the maintenance mode operation may be created so that the air conditioner can be operated at the same time with respect to the air conditioner or the air conditioner which is installed in a place away from the same space and can judge that the mutual influence is not given.

In the schedule creating section 30, corresponding information indicating the correspondence relationship between the air conditioners 2-1 to 2-N and the space to be air-conditioned is registered in advance. When the space to be air conditioned is on a different floor for a plurality of air conditioners that need to create the schedule information based on the corresponding information, the schedule creating unit (30) It is determined that no influence is given to the data, and it is determined that simultaneous operation of a plurality of air-conditioning units is possible.

The schedule creating unit 30 determines whether or not the spaces to be air conditioned are the same for a plurality of air conditioners that need to create the schedule information based on the corresponding information, When the space is different, it is determined that the operation of the air conditioner does not affect the operation data of each other, and it may be determined that the plurality of air conditioners can be operated simultaneously.

Information indicating the presence or absence of thermal interference between a plurality of spaces may be added to the corresponding information. Further, for a plurality of air conditioners that need to create schedule information, when there is no thermal interference between the spaces to be air-conditioned, the schedule creating unit 30 determines whether the operation of the air conditioner affects each other's operation data It may be determined that simultaneous operation of a plurality of air conditioner devices is possible.

The schedule creating unit 30 may create the schedule information so that the maintenance mode operation is divided into a plurality of days when there are a plurality of air conditioners 2-1 to 2-N in the building 1. [

The schedule creating unit 30 may create the schedule information so that the time period during which the maintenance mode operation is performed is set just before the normal operation time period of the air conditioning equipment 2-1 to 2-N. By performing the maintenance mode operation, the effect of pre-cooling or pre-heating can be obtained, so that waste of energy can be minimized. The information of the normal operation time of each air conditioning equipment 2-1 to 2-N can be acquired from the normal operation schedule information provided in advance from the customer.

An example of the schedule of the maintenance mode operation is shown in Fig. In the example of Fig. 3, for example, the FCU as the air-conditioning equipment installed in the zone 1 (1F-1) on the first floor of the building 1 is operated from 3 o'clock to 3:30 o'clock, -2), the schedule of the maintenance mode operation is made as if the FCU installed in the FCU-2 is operated from 4:00 to 4:30. Further, a maintenance mode operation schedule is created so that the FCU installed in the zone 1 (2F-1) of the second layer is operated simultaneously with the FCU of the 1F-1.

The schedule creating unit 30 also creates a schedule for the maintenance mode operation so that a predetermined time interval is shortened after the air conditioner is started / stopped in the maintenance mode operation and the other air conditioner is started up. Thereby, it is possible to provide a waiting time until the indoor environment returns to its original state to be stabilized to some extent. In the example of Fig. 3, the FCU of the first zone 1 (1F-1) and the FCU of the zone 1 (2F-1) of the second layer are started at 3:00 and stopped at 3:30, The FCU of the first zone 2 (1F-2) and the zone 2 (2F-2) of the second layer are started at 4:00, and an interval of 30 minutes is provided.

Next, the maintenance mode execution permission judgment unit 31 judges whether or not the maintenance mode operation can be executed (S2 and S3 in Fig. 2). More specifically, the maintenance mode execution availability determination unit 31 determines whether or not the target of the maintenance mode operation is the time when the time immediately before the execution time of the day of the maintenance mode operation determined by the schedule created by the schedule creation unit 30 If there is no air conditioner in operation, it is determined that the maintenance mode operation is executable. If there is an air conditioner in operation, it is determined that the maintenance mode operation can not be executed. If it is determined that execution is impossible, the execution of the maintenance mode operation is postponed until the next candidate date.

3, for example, at 2:50, all the FCUs in which the execution schedule of the maintenance mode operation is set in the time zone from the current time to the normal operation time zone, specifically, the FCUs of 1F- FCU of 1F-2 and FCU of 2F-2 starting at 4 o'clock, FCU of 1F-3 and FCU of 2F-3 starting at 5 o'clock, and these six FCUs are subject to the maintenance mode operation do. The maintenance mode execution possibility judging section 31 judges that the maintenance mode operation is executable when all of the six FCUs are not in operation. If at least one of the six FCUs is in operation, the maintenance mode operation permission execution section 31 judges that maintenance mode operation can not be executed .

The maintenance mode execution possibility determination unit 31 may determine whether or not the room temperature or the humidity is within a predetermined range predetermined as the diagnosis condition in the judgment of the execution of the maintenance mode operation.

More specifically, the maintenance mode execution availability determination unit 31 determines whether or not the operation state of all the air conditioning equipments to be subjected to the maintenance mode operation and the operation state of the air conditioning equipments When the indoor temperature of the space to be air-conditioned is checked by the device, and there is no air-conditioning device in operation among the air-conditioning devices, and the indoor temperature of the space to be air-conditioned is within the predetermined room temperature range, It is determined that the maintenance mode operation can not be executed when the room temperature of the air conditioner in operation or the room to be air conditioned is outside the room temperature range.

The maintenance mode execution availability determination unit 31 determines whether or not the operation state of all the air conditioner devices that are the targets of the maintenance mode operation and the operation state of all the air conditioner devices It is determined that the maintenance mode operation is executable when the humidity of the space to be air-conditioned is checked and there is no air-conditioning apparatus in operation among these air-conditioning apparatuses and the humidity of the space to be air- , It is determined that the maintenance mode operation can not be executed when there is an air conditioner in operation or the humidity of the space to be air conditioned is outside the humidity range.

As described above, since the corresponding information indicating the correspondence relationship between the air conditioners 2-1 to 2-N and the space to be air-conditioned is registered in advance in the schedule creating unit 30, It is possible to recognize the space to be the object of the maintenance mode operation. The maintenance mode execution permission judgment unit 31 acquires the information on the room temperature from the room temperature sensor installed in the space to be air conditioned and acquires the humidity information from the humidity sensor installed in the space good. Both the room temperature and the humidity may be checked or only one of them may be checked.

Whether or not the execution of the maintenance mode operation in the past and whether the external environmental conditions (outside air temperature, outside air humidity, weather, etc.) are substantially the same or not is judged in the judgment of whether or not the maintenance mode operation can be executed May be added.

For example, the maintenance mode execution permission judgment unit 31 judges whether or not the operation state of all the air conditioning equipments to be subjected to the maintenance mode operation and the operation state of all the air conditioning equipments The outside air temperature at the same time of the execution of the maintenance mode operation in the past and the current outside air temperature are checked to find that there is no air conditioner in operation among these air conditioners, If it is determined that the maintenance mode operation is executable when there is a predetermined outside air temperature range centered on the outside air temperature in the same time zone and if the current air conditioner temperature is outside the outside air temperature range , It is determined that the maintenance mode operation can not be executed.

The maintenance mode execution possibility determining unit 31 determines whether or not the operation state of all the air conditioning equipments to be subjected to the maintenance mode operation and the operation state of all the air conditioning equipments The outside air humidity at the same time of the execution of the maintenance mode operation in the past and the present outside air humidity are checked to find that there is no air conditioner in operation among these air conditioners, When it is determined that the maintenance mode operation is executable when there is a predetermined outside air humidity range centered on the outside air humidity in the same time zone, or if there is an air conditioner in operation or the current outside air humidity is outside the outside air humidity range , It is determined that the maintenance mode operation can not be executed.

The maintenance mode execution possibility determining unit 31 determines whether or not the operation state of all the air conditioning equipments to be subjected to the maintenance mode operation and the operation state of all the air conditioning equipments (Weather, flow, rain, etc.) at the same time of the execution of the maintenance mode operation in the past, and the current weather, and there is no air conditioning apparatus in operation among these air conditioning apparatuses, It is determined that the maintenance mode operation is executable when there is the air conditioner in operation or the current weather is different from the weather in the same time period of the execution day of the maintenance mode operation in the past , It is determined that the maintenance mode operation can not be executed.

In the external environmental condition storage unit 36, external environmental conditions (outside air temperature, outside air humidity, weather, etc.) of the execution time of the past maintenance mode operation are recorded for each building. The maintenance mode execution possibility judging section 31 acquires from the external environment condition storage section 36 the information of the external environmental conditions at the execution time of the past maintenance mode operation of the air conditioner to be the maintenance mode operation can do.

Among the present external environmental conditions, the outside air temperature and the outside air humidity may be acquired from the sensor installed in the building 1, or the latest observation data may be obtained from an external observation system via the network. In addition, as for the weather, the latest weather data may be acquired from an external observation system. The outside air temperature, the outside air humidity and the weather can be checked by checking at least one of them.

The maintenance mode execution availability determination unit 31 determines whether the execution of the maintenance mode operation is permitted or not by checking whether the room temperature or humidity is within a predetermined range predetermined as a diagnosis condition in advance, It may be added such that confirmation of whether or not the operation execution date and the external environmental conditions (outside air temperature, outside air humidity, weather, etc.) are substantially the same is executed at the same time. At this time, the maintenance mode operation can be executed only when it is determined that the maintenance mode operation is executable for both of the checks. If it is determined that the maintenance mode operation can not be executed by at least one confirmation, the maintenance mode operation is disabled.

The maintenance mode execution possibility judgment unit 31 judges whether or not the maintenance mode operation as described above is judged to be the time immediately before the execution time period of the execution day of the maintenance mode operation determined by the schedule created by the schedule preparation unit 30 I do it every time.

Subsequently, when the maintenance mode execution permission judgment unit 31 judges that the maintenance mode operation is executable, the equipment operation instruction unit 32 judges that maintenance of the air conditioning equipment 2-1 to 2-N in the building 1 The execution of the maintenance mode operation is instructed through the management system or the network 4 to each of the air-conditioners to be subjected to the mode operation (Fig. 2, Step S4). The management system includes, for example, BEMS, and the network includes, for example, the Internet.

At this time, the device operation instructing unit 32 not only instructs the start / stop based on the schedule of the maintenance mode operation created by the schedule creating unit 30, but also sets the predetermined maintenance mode operation set value (for example, the set temperature) To the air conditioner that is the subject of

The air conditioning equipment, which is the object of the maintenance mode operation, executes the maintenance mode operation in accordance with an instruction from the equipment operation instruction unit 32. [ Specifically, the air-conditioning equipment starts when an instruction to start operation is given from the equipment operation instruction unit 32, and controls so that the room temperature of the space to be air-conditioned coincides with the set temperature instructed from the equipment operation instruction unit 32 And stops when an instruction to stop the operation is given from the device operation instruction unit 32. [

Also, the maintenance mode operation set value (set temperature) may be changed during the maintenance mode operation. Specifically, for example, in the summer maintenance mode operation, the set temperature is changed in the direction of the temperature lower than the standard set temperature at the time of starting the air conditioner, and the maintenance mode operation is continued until the stop time of the air conditioner reaches the set temperature A change schedule of the maintenance mode operation set value for returning to the standard set temperature and stopping the air conditioner is registered in the device operation instruction unit 32 in advance.

In the winter maintenance mode operation, when the air conditioner is started, the set temperature is changed in the temperature increasing direction from the standard set temperature, the maintenance mode operation is continued until the stop time of the air conditioner is reached at the set temperature, The change schedule of the maintenance mode operation set value for returning to the standard set temperature and stopping the air conditioner is registered in the device operation instruction unit 32 in advance.

Fig. 4 shows an example of a schedule for changing the maintenance mode operation set value. The example of Fig. 4 shows an example of the summer, in which the standard set temperature is set at 26 占 폚, the air conditioner is turned on at 3 o'clock, the set temperature is changed to 25 占 폚, After the operation is continued, the air conditioner is turned off at 3:30 and the set temperature is returned to the standard value.

In the above example, the set temperature as the target value of the room temperature is described as an example of the maintenance mode operation set value given to the air conditioner by the appliance operation instruction unit 32. However, the present invention is not limited to this, Which is a target value of the air supply amount of the air supply supplied to the space to be subjected to the air conditioner, a set air supply temperature which is a target value of the air supply temperature, and a target value of the number of rotations of the inverter of the air conditioner The air-conditioning equipment may be provided with a value such as the number of revolutions and the set opening degree which is a target value of the opening degree of the valve for controlling the amount of the heating medium supplied to the heat exchanger of the air conditioner.

Next, the operation data collecting unit 33 collects the operation data from the individual air conditioner devices in the maintenance mode operation through the management system or the network 4 (Fig. 2, step S5). More specifically, the operation data collecting unit 33 acquires, as the operation data of the air conditioner, device oscillation / stop data (data of start date and time, date and time of the start), room temperature data, room humidity data, , The number of revolutions of the inverter, the data of the power consumed by the air conditioner, and the valve opening degree data. The operation data collected by the operation data collection unit 33 is stored in the operation data storage unit 37. [

Simultaneously with the collection of the operation data, the operation data collecting unit 33 collects external environmental conditions (outside air temperature, outside air humidity, weather, etc.) during the maintenance mode operation. Outside environmental conditions, the outside air temperature and the outside air humidity may be acquired from a sensor installed in the building 1, or may be acquired from an external observation system via a network. In addition, as for the weather, the latest weather data may be acquired from an external observation system. The information of the external environmental conditions collected by the operation data collecting unit 33 is stored in the external environmental condition storage unit 36 together with the information of the execution date and time of the maintenance mode operation.

Next, based on the latest operation data collected by the operation data collecting unit 33, the maintenance necessity determining unit 34 determines whether or not the maintenance of the air conditioner is necessary for each air conditioner apparatus that has performed the maintenance mode operation (Step S6 in Fig. 2). Specifically, the maintenance necessity judging section 34 observes the behavior of the operation data, compares the difference in precision with the set value of the air-conditioning control, the change speed or the like with the threshold value, To determine whether the performance of the air conditioning equipment (2-1 to 2-N) is deteriorated or abnormal.

5A is a diagram for explaining a method for determining whether or not the maintenance of the air conditioner is necessary based on the deviation of the measured value PV of the operation data and the set value SP corresponding thereto. The maintenance necessity determining unit 34 starts the air conditioning equipment and starts the maintenance mode operation at the set value SP within a predetermined period of time and calculates the absolute value of the deviation of the measured value PV and the set value SP PV-SP |) becomes equal to or smaller than a predetermined constant threshold value? 1, the air conditioner is determined to be normal and maintenance is unnecessary, and even when a predetermined time has elapsed, Is larger than the threshold value delta 1, there is a high possibility that the air conditioner has performance deterioration or abnormality, and it is determined that maintenance is necessary.

5B is a diagram for explaining a method for determining whether or not the maintenance of the air conditioner is necessary based on a change from the initial value PV0 of the measured value PV of the operation data. The maintenance necessity determining unit 34 determines whether or not the absolute value of the change amount with respect to the initial value PV0 at the start of the measurement value PV within a predetermined time from when the air conditioner is started to start the maintenance mode operation with the set value SP PV-PV0 | is equal to or greater than a predetermined constant threshold value? 2, it is determined that the air conditioner is normal and maintenance is unnecessary, and even when a predetermined time has elapsed, PV0 |) is smaller than the threshold value? 2, it is highly likely that the air conditioner has performance deterioration or abnormality, and it is determined that maintenance is necessary.

5C shows the change from the initial value PVnew0 of the measured value PVnew of the operation data in the current maintenance mode operation and the change in the measured value PVold of the corresponding operation data in the past maintenance mode operation. (PVold0) of the air-conditioner to determine whether maintenance of the air-conditioning equipment is necessary or not.

The maintenance necessity judging section 34 judges whether or not n points (n is an integer of 2 or more) measured values PVnew from the time when the air conditioner is started to start the maintenance mode operation at the set value SP to a predetermined time later (X1i = PVnew-PVnew0) with respect to the startup initial value (PVnew0) for each point (i is an integer from 1 to n), and starts the air conditioner in the past maintenance mode operation, (X2i = PVold-PVold0) with respect to the initial value (PVold) at the time of starting the measurement value (PVold) of n points from the start of the maintenance mode operation to the predetermined time, x2i) is calculated according to the following equation.

When the calculated square-root mean square error rmse becomes equal to or smaller than a predetermined constant threshold value 3, the maintenance necessity determining unit 34 determines that the air conditioner is normal and maintenance is unnecessary, and the square- (rmse) is larger than the threshold value? 3, it is highly likely that the air conditioner has performance deterioration or abnormality, and it is determined that maintenance is necessary. Corresponding operation data in the past maintenance mode operation can be obtained from the operation data storage unit 37. [

5C is used, it is determined whether or not the execution date of the past maintenance mode operation and the external environmental conditions are substantially the same in the judgment of whether or not the maintenance mode operation can be executed, as described above, (Steps S2 and S3). This makes it possible to judge, for example, the influence of the outside air temperature, the solar radiation, and the like.

5A, 5B, and 5C, the operation data to be subjected may include at least one of an indoor temperature, an indoor humidity, an air supply air volume, an air supply temperature, an inverter rotation number, . It may be determined whether maintenance of the air conditioner is necessary by using at least one of these operation data. When a plurality of operation data are used, it is determined that maintenance is unnecessary when the air-conditioner is normal due to all the judgments for each operation data, and the air conditioner is judged to be deteriorated in performance based on at least one operation data It can be judged that maintenance is necessary when a result that the possibility of abnormality is high is obtained.

It is also possible to determine whether maintenance of the air conditioner is necessary or not by using all the methods described in Figs. 5A, 5B, and 5C, or by using at least one method, May be determined. In a case where a plurality of methods are used, it is determined that maintenance is unnecessary when all the judgments of each method are successful, and it is highly likely that there is performance deterioration or abnormality in the air conditioner in at least one method It is judged that the maintenance is necessary.

Next, the maintenance device list output section 35 generates and outputs a list of air conditioner devices requiring maintenance based on the determination result of the maintenance necessity determination section 34 (FIG. 2, step S7). The list of the air-conditioning equipment is provided to the service man who carries out the maintenance work in the field, but the method of outputting the list is not limited.

For example, the maintenance device list output section 35 may print the list of the air conditioner devices as a report so that the report may be distributed to the service person. The maintenance device list output section 35 uploads the list of air conditioner devices on the Web , And the serviceman may be able to confirm the list of the air conditioner devices on the screen of the Web page. The maintenance device list output section 35 sends the list of air conditioner devices to the service person's mail address as an e-mail, It is also possible to make it possible to confirm.

Thus, the operation of the maintenance support system ends.

As described above, in the present embodiment, only the operation data, which are generally collected in a large number of buildings, are used for air conditioning control without installing additional sensors for maintenance, and maintenance is required due to performance deterioration or abnormality Possible air conditioning equipment can be extracted.

In the method disclosed in Patent Document 1, there is a limitation on the operation data that can be acquired in order to determine whether maintenance of the air conditioner needs to be performed by using the operation data of the normal operating time zone. There was a possibility that it could not be. On the other hand, in the present embodiment, because the occupant is absent, the maintenance data is collected by performing the maintenance mode operation in a time zone in which no influence is given to the dwelling environment, so that the operation data specialized for determining whether the maintenance of the air- It is possible to more accurately determine whether or not the maintenance of the air conditioner is necessary.

The configuration of the monitoring center 3 described in the present embodiment can be realized by a computer having a CPU (Central Processing Unit), a storage device and an interface, and a program for controlling these hardware resources. The CPU executes the processing described in this embodiment in accordance with the program stored in the storage device.

The present invention can be applied to an air conditioning system installed in a building.

One… Building, 2-1 to 2-N ... Air conditioning equipment, 3 ... Monitoring center, 4 ... Management system or network, 30 ... A schedule creating unit, 31 ... A maintenance mode execution possibility judging unit 32, Device operation directive, 33 ... An operation data collecting unit, 34 ... A maintenance necessity determination unit 35, Maintenance device list output section, 36 ... External environment condition storage unit, 37 ... Operation data storage section.

Claims (14)

Schedule creation means for creating a schedule of a maintenance mode operation of the air conditioner,
An execution possibility judging means for judging whether or not the maintenance mode operation can be executed based on the operation state of the air conditioner to be subjected to the maintenance mode operation;
A device operation instruction means for instructing the execution of the maintenance mode operation for the target air conditioner device when the execution possibility determination means determines that the maintenance mode operation is executable,
An operation data collecting means for collecting operation data from the air conditioner that has performed the maintenance mode operation,
And maintenance necessity determining means for determining whether maintenance of the air conditioner is necessary based on the behavior of the operation data. The method according to claim 1,
Further comprising a maintenance device list output means for generating and outputting a list of air conditioning equipment that needs maintenance. 3. The method according to claim 1 or 2,
Wherein the device operation instruction means gives the set value of the air conditioning control corresponding to the operation data to the air conditioner to be subjected to the maintenance mode operation. 3. The method according to claim 1 or 2,
Wherein the maintenance necessity determining means determines whether or not maintenance of the air conditioner is necessary based on a deviation between a measured value of the collected operation data and a set value corresponding thereto. 3. The method according to claim 1 or 2,
Wherein the maintenance necessity determining means determines whether maintenance of the air conditioner is necessary based on a change in the initial value of the measured value of the collected operation data. 3. The method according to claim 1 or 2,
Further comprising operation data storage means for storing operation data collected in the past maintenance mode operation,
The maintenance necessity determining means determines whether or not the maintenance of the air conditioner is necessary based on the difference between the measured value of the collected operation data and the measured value of the corresponding operation data in the past maintenance mode operation Features maintenance support system. 3. The method according to claim 1 or 2,
The execution possibility judging means judges that there is no air conditioner operating in the air conditioner to be the target of the maintenance mode operation at the time immediately before the execution time period of the execution of the maintenance mode operation, When the condition is within the predetermined range, it is determined that the maintenance mode operation is executable. If there is an air conditioner in operation among the air conditioners to be operated, or if the environmental condition of the space to be air conditioned is not within a predetermined range , It is determined that the maintenance mode operation can not be executed. 3. The method according to claim 1 or 2,
Further comprising external environment condition storage means for storing external environment conditions of the execution time period of the execution date of the past maintenance mode operation,
Wherein the execution permission judgment means judges that there is no air conditioning apparatus which is in operation in the air conditioning apparatus to be subjected to the maintenance mode operation at the time immediately before the execution time period of the execution of the maintenance mode operation, It is determined that the maintenance mode operation is executable when the current external environment condition is the same as the external environment condition at the execution time of the past maintenance mode operation and if there is an air conditioner in operation among the air conditioner devices, When the external environmental condition of the maintenance mode is not the same as the external environmental condition of the execution time of the past maintenance mode operation, it is determined that the maintenance mode operation is not executable. 3. The method according to claim 1 or 2,
Further comprising external environment condition storage means for storing external environment conditions of the execution time period of the execution date of the past maintenance mode operation,
Wherein the execution possibility judging means judges that there is no air conditioner operating in the air conditioner that is the subject of the maintenance mode operation at the time immediately before the execution time period of the execution of the maintenance mode operation and the environmental condition Is within the predetermined range and the current external environmental condition for executing the maintenance mode operation is the same as the external environmental condition for the execution time period of the past maintenance mode operation, it is determined that the maintenance mode operation is executable , When there is an air conditioner in operation as the target air conditioner, or when the environmental condition of the space to be air conditioned is not within the predetermined range, or when the current external condition is the execution date of the past maintenance mode operation If it is not the same as the external environmental condition of the time zone, And determines that the maintenance mode operation is not executable. 3. The method according to claim 1 or 2,
Wherein the schedule creating means sets the time zone in which the resident is absent in the space to be air-conditioned by the air conditioner as the time zone in which the maintenance mode operation is performed. 3. The method according to claim 1 or 2,
Wherein said schedule creating means is configured to remove a plurality of air-conditioning equipments to which mutual influence of operation of the air-conditioning equipment on mutual operation data from objects of simultaneous operation, Wherein said schedule generating means creates a schedule of said maintenance mode operation so as to make said air conditioner device an object of simultaneous operation. 3. The method according to claim 1 or 2,
Wherein the schedule creating means creates the maintenance mode operation schedule such that the time period during which the maintenance mode operation is performed is set immediately before the normal operation time period of the air conditioner. 3. The method according to claim 1 or 2,
Wherein the air conditioning apparatus is at least one of a VAV unit, an FCU, an AHU, and a building multi. A schedule creation step of creating a schedule of a maintenance mode operation of the air conditioner,
An execution possibility judging step of judging whether or not the maintenance mode operation can be executed on the basis of the operation state of the air conditioner to be subjected to the maintenance mode operation;
A device operation instruction step of instructing execution of the maintenance mode operation to the target air conditioner device when it is determined that the maintenance mode operation is executable in the execution possibility determination step;
An operation data collecting step of collecting operation data from the air conditioner that has performed the maintenance mode operation,
And a maintenance necessity determination step of determining whether maintenance of the air conditioner is necessary based on the behavior of the operation data.

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