JP2008252617A - Cold remote monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cold remote monitoring system capable of fetching anomalous occurrence, in refrigerating air-conditioning equipment. <P>SOLUTION: The cold remote monitoring system is provided with a data acquisition device for fetching status data of a refrigerating air-conditioning equipment, and a management equipment for requesting data from the data acquisition device by a wireless communication and periodically extracting the status data. The data acquisition device transmits the value of state flag changing between two values according to switching state of contact, to be contacted when the refrigerating air-conditioning equipment is abnormal and state change flag changing to one value, when the contact is closed and changing to the other value, when data is transmitted to the management device in response to the data request from the management equipment. The management device determines that the refrigerating air-conditioning equipment is abnormal, at least when the value of the state flag is the corresponding value, when the contact is closed or the value of the state change flag is either one of other values. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a cold / hot remote monitoring system for remotely monitoring a refrigeration air conditioner.

The current cold / hot remote monitoring system integrates the data of refrigeration and air conditioning equipment, calculates and processes it, and captures the temperature, pressure, abnormal signal, etc. of the refrigeration and air conditioning equipment with each sensor, and wirelessly communicates after A / D conversion. And an A / D conversion device that transmits digital data to the management device.
In radio communication, the radio wave condition temporarily deteriorates rarely due to the influence of the surrounding environment, and communication may be interrupted for about several minutes.
The management device requests data transmission to the A / D conversion device at a predetermined cycle and receives data from the A / D conversion device. However, if communication is interrupted, a communication error occurs immediately in order to prevent multiple reports. Is detected, and a communication abnormality is detected when the predetermined mask time does not return.
In addition, even when detecting abnormalities in refrigeration and air-conditioning equipment, if data that is considered abnormal is captured, in order to prevent false detection, it is not immediately detected as abnormal, and even if the specified mask time has elapsed, it is considered abnormal. Is detected as abnormal when the data to be read is imported.

JP 2005-315466 A

  However, when the management device is not taking in data from the A / D conversion device due to a communication error, if the main unit of the refrigeration / air conditioning equipment recovers after an error has occurred, the communication will return to normal. The data of the abnormality signal transmitted from the A / D converter has already been changed to data having no abnormality, and there is a problem that the management device overlooks the occurrence of abnormality in the refrigeration air conditioning equipment.

  An object of the present invention is to provide a cold / hot remote monitoring system that can capture the occurrence of an abnormality in a cold / hot air conditioner without omission.

  A cold / hot remote monitoring system according to the present invention includes a data collection device that captures state data of refrigeration and air conditioning equipment, and a management device that requests data from the data collection device by wireless communication and periodically sucks up the state data. In the cold / hot remote monitoring system, the data collection device changes to one value when the contact is closed, and a status flag that changes between two values according to the open / close status of the contact that closes when the refrigeration and air conditioning equipment is abnormal, When the data is transmitted to the management device, the status change flag value that changes to the other value is transmitted in response to the data request from the management device. When the value corresponding to the closing or the value of the status change flag is one of the above values, the refrigeration / air conditioning equipment is judged to be abnormal. To.

  The effect of the cold / hot remote monitoring system according to the present invention is that the situation change flag setting changes from “1” to “0” when the response signal is generated. Is stored, and it is possible to detect anomalies that occur while the radio wave condition is poor and wireless communication is not possible.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing the configuration of a cold / hot remote monitoring system according to Embodiment 1 of the present invention.
The cold / hot remote monitoring system according to the first embodiment of the present invention centrally monitors a plurality of refrigeration equipment or air-conditioning equipment (hereinafter referred to as refrigeration / air-conditioning equipment) 1 placed at various positions at a monitoring center. Sometimes used. In the following description, a case where one refrigeration air-conditioning apparatus 1 is monitored will be described for easy understanding.
The refrigerating and air-conditioning equipment 1 is provided with a state sensor including a temperature sensor, a pressure sensor, and the like for monitoring the state. The refrigerating and air-conditioning equipment 1 is provided with a contact 2 that closes when it is abnormal.

The cold / hot remote monitoring system according to the first embodiment of the present invention includes a data collection device 4 attached to the refrigeration air conditioner 1 and a management device 5 that takes in data from the data collection device 4 and determines the state of the refrigeration air conditioner 1. The monitoring server 7 is provided in a monitoring center that communicates with the management device 5 via the network 6.
The data collection device 4 and the management device 5 communicate with each other via a wireless LAN. An access point 8 constituting a wireless LAN is connected to the management device 5, and a wireless LAN card 9 constituting a wireless LAN is provided to the data collection device 4, and wireless communication is performed between the access point 8 and the wireless LAN card 9. Is done.

The data collection device 4 includes an A / D conversion unit 11 that converts analog state data from the state sensor of the refrigeration air conditioner 1 into digital state data, and the state of the refrigeration air conditioner 1 based on the opening / closing state and changes of the contacts 2. In response to a request for data from the management device 5, that is, transmission of a request message, a status detection unit 12 that requests data, and a wireless LAN card 9 that responds with a response message, that is, status data and status data.
The wireless LAN card 9 issues a response signal when a response message is transmitted.

The abnormality of the refrigerating and air-conditioning equipment 1 captures the opening / closing status of the contact 2 by the data collection device 4. Then, the status detection unit 12 sets a status flag according to the opening / closing status of the contact 2, and sets the status change flag according to the status flag change and the response signal.
The status flag is set to a value “0” when the contact 2 is open and a value “1” when the contact 2 is closed. That is, the value “0” is set when the refrigeration air-conditioning equipment 1 is normal, and the value “1” is set when the refrigeration air-conditioning equipment 1 is abnormal.
The status change flag is set to the value “1” when the status flag setting changes from the value “0” to the value “1”, and is set to the value “0” when the response signal is issued.

  The management device 5 polls the refrigeration / air-conditioning equipment 1 to request data periodically, and receives the status data and status data from the refrigeration / air-conditioning equipment 1 and received by the wireless communication section 15. An anomaly detector 16 that analyzes the status data to detect an anomaly in the refrigeration and air-conditioning equipment 1, a data storage unit 17 that stores status data and the status of occurrence of the anomaly for a predetermined period, for example, 24 hours, and polling from the monitoring server 7 In response, the network communication unit 18 for transmitting daily report creation data stored in the data storage unit 17 to the monitoring server 7 is provided.

  The abnormality detection unit 16 analyzes the setting of the status flag and the status change flag received from the data collection device 4 according to the determination condition, and detects whether or not an abnormality has occurred. As shown in FIG. 2, the judgment condition is normal when both the status flag and the status change flag are set to “0”, and abnormal otherwise.

  The monitoring server 7 collects the daily report creation data stored in the management device 5 via the network 6 by automatic polling once a day, and stores it in the database of the monitoring server 7.

Next, the change of the status flag and the status change flag when the contact 2 is once closed when the radio wave condition between the data collection device 4 and the management device 5 is good and wireless communication is possible and then opened is illustrated. This will be described with reference to FIG.
The management device 5 measures the electric field strength at the access point 8 at time t ₁ , determines that the radio wave condition is good, and transmits a request message to the data collection device 4. The data collection device 4 sends the status data of the refrigeration / air conditioning equipment 1, the status flag setting “0”, and the status change flag setting “0” to the management device 5 at time t ₂ . The management device 5 determines that the refrigeration / air-conditioning equipment 1 is normal based on the status flag setting “0” and the status change flag setting “0”.
At t ₃ during the time t ₄ when from time t ₁ to a predetermined period has elapsed, the contact 2 of the refrigeration and air conditioning apparatus 1 is closed, setting the status flag is changed to "1", also set the condition change flag It changes to “1”.
Management apparatus 5, the radio wave state measuring electric field strength at the access point 8 at time t ₄ sends a request message to the data collection device 4 is determined to be good. Then, the data collection device 4 sends the status data of the refrigeration air conditioner 1, the status flag setting “1”, and the status change flag setting “1” to the management device 5 at time t ₅ . The management device 5 determines that the refrigerating and air-conditioning apparatus 1 is abnormal based on the status flag setting “1” and the status change flag setting “1”.

The contact point 2 remains closed during a time period t ₇ after a predetermined period from the time point t ₄ , so that the status flag setting remains “1”. However, the status change flag is set according to the response signal at the time point t ₆ changes from “1” to “0”.
The management device 5 measures the electric field strength at the access point 8 at time t ₇ , determines that the radio wave condition is good, and transmits a request message to the data collection device 4. Then, the data collection device 4 sends the status data of the refrigeration air conditioner 1, the status flag setting “1”, and the status change flag setting “0” to the management device 5 at time t ₈ . The management device 5 determines that the refrigerating and air-conditioning equipment 1 is abnormal from the status flag setting “1” and the status change flag setting “0”.

Setting status flag because the between time t ₇ at the time t ₉ to a predetermined period elapses remains contact 2 is closed remains "1", setting the status change flag also remains at "0" .
Management apparatus 5, the radio wave state measuring electric field strength at the access point 8 at t ₉ sends a request message to the data collection device 4 is determined to be good. Then, the data collection device 4 sends the status data of the refrigeration air conditioner 1, the status flag setting “1”, and the status change flag setting “0” to the management device 5 at time t ₁₀ . The management device 5 determines that the refrigerating and air-conditioning equipment 1 is abnormal from the status flag setting “1” and the status change flag setting “0”.

At t ₁₁ between the time t ₁₂ to a predetermined period has elapsed from the time t _9, since the contact 2 of the refrigeration and air conditioning apparatus 1 is opened, the setting of the status flag is changed to "0", the setting of conditions change flag It remains “0”.
Management apparatus 5, the radio wave state measuring electric field strength at the access point 8 at t ₁₂ sends a request message to the data collection device 4 is determined to be good. Then, the data collection device 4 sends the status data of the refrigeration / air conditioning equipment 1, the status flag setting “0”, and the status change flag setting “0” to the management device 5 at time t ₁₃ . The management device 5 determines that the refrigeration / air-conditioning equipment 1 is normal based on the status flag setting “0” and the status change flag setting “0”.

  As described above, when the radio wave condition is good and the management device 5 takes in the state data, the setting of the status flag and the setting of the status change flag from the data collection device 4 at a predetermined cycle, it is possible to detect an abnormality in the refrigeration and air conditioning equipment 1. it can.

Next, a status flag when the state of the radio wave between the data collection device 4 and the management device 5 changes from a good state to a bad state, and the contact 2 is once closed while wireless communication cannot be performed, and then opened. The change of the status change flag will be described with reference to FIG.
The management device 5 measures the electric field strength at the access point 8 at time t ₂₁ , determines that the radio wave condition is good, and transmits a request message to the data collection device 4. Data acquisition device 4, the state data of the refrigerating air-conditioning apparatus 1 at the time point t _22, and sends Setting "0" and condition change flag in the status flag to "0" to the management device 5. The management device 5 determines that the refrigeration / air-conditioning equipment 1 is normal based on the status flag setting “0” and the status change flag setting “0”.

Since the contacts 2 of the refrigeration and air conditioning apparatus 1 is closed at time t _23, set the status flag is changed to "1", setting the status change flag is also changed to "1".
Although the management apparatus 5 tries to transmit a request message at a predetermined cycle, the request message is not transmitted and a response message is not responded because the radio wave condition is poor. Therefore, since no response signal is issued, the setting of the status change flag remains “1”.
Since the contacts 2 of the refrigeration and air conditioning apparatus 1 is opened at time t _24, but set the status flag is changed from "1" to "0", setting the status change flag remains "1".
The management device 5 measures the electric field strength at the access point 8 at time t ₂₅ , determines that the radio wave state has been recovered, and transmits a request message to the data collection device 4. Data collecting device 4 sends status data of the refrigerating air-conditioning apparatus 1 at time t _26, Setting "0" and condition change flag in the status flag to "1" to the management device. The management device 5 determines that the refrigerating and air-conditioning equipment 1 is abnormal from the status flag setting “0” and the status change flag setting “1”.

At this time, a response signal is issued, and the setting of the status change flag changes from “1” to “0” at time t ₂₇ .
Then, the management device 5 transmits the request message to the data collection device 4 at the time t ₂₈ to a predetermined period elapses from the time point t _25. The data collection device 4 sends the status data of the refrigeration / air conditioning equipment 1, the status flag setting “0”, and the status change flag setting “0” to the management device 5 at time t ₂₉ . The management device 5 determines that the refrigeration / air-conditioning equipment 1 is normal based on the status flag setting “0” and the status change flag setting “0”.

  Thus, since the setting of the status change flag changes from “1” to “0” by the generation of the response signal, the setting of the status change flag is saved when the wireless communication cannot be performed and no response signal is generated. Therefore, it is possible to detect even an abnormality that occurs while the radio wave condition is bad and wireless communication is not possible.

Next, changes in the status flag and the status change flag when a short abnormality occurs in which the radio wave condition is good but the opening / closing of the contact 2 is completed within a predetermined period will be described with reference to FIG.
Management apparatus 5, the radio wave condition the electric field intensity is measured at the access point 8 at t ₃₁ sends a request message to the data collection device 4 is determined to be good. The data collection device 4 sends the status data of the refrigeration air conditioner 1, the status flag setting “0”, and the status change flag setting “0” to the management device 5 at time t ₃₂ . The management device 5 determines that the refrigeration / air-conditioning equipment 1 is normal based on the status flag setting “0” and the status change flag setting “0”.
At t ₃₃ between the time t ₃₅ to the time t ₃₁ to a predetermined period has elapsed, the contact 2 of the refrigeration and air conditioning apparatus 1 is closed, setting the status flag is changed to "1", also set the condition change flag It changes to “1”.
Further, before the time t ₃₄ the time t _35, the contacts 2 of the refrigeration and air conditioning apparatus 1 is so opened, setting the status flag is changed to "0". However, since no response signal is generated, the setting of the status change flag is maintained at “1”.
Management apparatus 5, the radio wave condition the electric field intensity is measured at the access point 8 at time t ₃₅ sends a request message to the data collection device 4 is determined to be good. The data acquisition device 4, the state data of the refrigerating air-conditioning apparatus 1 at the time point t _36, and sends Setting "0" and condition change flag in the status flag to "1" to the management device 5. The management device 5 determines that the refrigerating and air-conditioning equipment 1 is abnormal from the status flag setting “0” and the status change flag setting “1”.

Once t _37, set the status change flag is changed from "1" to "0".
Management apparatus 5, the radio wave condition the electric field intensity is measured at the access point 8 at time t ₃₈ sends a request message to the data collection device 4 is determined to be good. Then, the data collection device 4 sends the status data of the refrigeration air conditioner 1, the status flag setting “0”, and the status change flag setting “0” to the management device 5 at time t ₃₉ . The management device 5 determines that the refrigeration / air-conditioning equipment 1 is normal based on the status flag setting “0” and the status change flag setting “0”.
The rest is the same as the point in time _{t 38.}

  As described above, since the setting of the status change flag changes from “1” to “0” by the generation of the response signal, the setting of the status change flag does not change until a predetermined period elapses. Therefore, an abnormality occurring in the refrigerating and air-conditioning apparatus 1 that is shorter than a predetermined period is reflected in the next response message and can be detected.

Embodiment 2. FIG.
FIG. 6 is a block diagram showing a configuration of a cold / hot remote monitoring system according to Embodiment 2 of the present invention.
The cold / hot remote monitoring system according to the second embodiment of the present invention differs from the cold / hot remote monitoring system according to the first embodiment with the abnormality detection unit 16B of the management device 5B, and the other parts are the same. The description is omitted.
The abnormality detection unit 16B analyzes the setting of the status flag and the status change flag received from the data collection device 4 according to the determination condition, and detects whether or not an abnormality has occurred. As shown in FIG. 7, the determination condition is determined as abnormal when one of the setting of the status flag and the status change flag is “0” and the other is “1”.

The manner in which an abnormality is detected when the contact 2 opens and closes as shown in FIGS. 3 and 8 will be described.
In time t ₁ in FIG. 3, the management device 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag set to '0' and status change flag of "0" is determined to be normal.
At t ₄ in FIG. 3, the management device 5, the refrigerating air-conditioning apparatus 1 from Setting "1" and the status change flag status flag "1" is determined to be normal.
At t ₇ in FIG. 3, the management device 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag "1" and status changes setting of the flag "0" is determined to be abnormal.
At t ₉ in FIG. 3, the management device 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag "1" and status changes setting of the flag "0" is determined to be abnormal.
At t ₁₂ in FIG. 3, the management device 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag set to '0' and status change flag of "0" is determined to be normal.

At t ₅₁ in FIG. 8, the management apparatus 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag set to '0' and status change flag of "0" is determined to be normal.
At t ₅₄ in FIG. 8, the management apparatus 5, the refrigerating air-conditioning apparatus 1 from Setting "1" and the status change flag status flag "1" is determined to be normal.
At t ₅₈ in FIG. 8, the management apparatus 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag set to '0' and status change flag of "0" is determined to be normal.
At t ₆₀ in FIG. 8, the management apparatus 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag set to '0' and status change flag of "0" is determined to be normal.
At t ₆₂ in FIG. 8, the management apparatus 5, the refrigerating air-conditioning apparatus 1 from the setting of the status flag set to '0' and status change flag of "0" is determined to be normal.

As described above, when both the setting of the status flag and the status change flag are “0” or “1”, it is determined to be normal, so that it is possible to mask detection of an abnormality that recovers until the setting of the status change flag changes. By providing the mask time in this way, it is possible to eliminate the influence such as malfunction of the contact 2.
In the cold / hot remote monitoring system according to the second embodiment, the setting of the status change flag is changed at the time when one response is completed, but it is changed at the time when a plurality of responses are completed with a counter. Also good. In this way, the masking time can be lengthened, and influences such as contact malfunctions can be eliminated more completely.

It is a block diagram which shows the structure of the cold / hot remote monitoring system by Embodiment 1 which concerns on this invention. This is a criterion used by the management device according to Embodiment 1 of the present invention to determine abnormality. It is an example of the timing chart regarding the operation | movement of the cold / hot remote monitoring system by Embodiment 1 which concerns on this invention. It is another example of the timing chart regarding operation | movement of the cold / hot remote monitoring system by Embodiment 1 which concerns on this invention. It is another example of the timing chart regarding operation | movement of the cold / hot remote monitoring system by Embodiment 1 which concerns on this invention. It is a block diagram which shows the structure of the cold / hot remote monitoring system by Embodiment 2 which concerns on this invention. This is a criterion used by the management device according to the second embodiment of the present invention to determine abnormality. It is an example of the timing chart regarding operation | movement of the cold / hot remote monitoring system by Embodiment 2 which concerns on this invention.

Explanation of symbols

  1 Refrigeration and air-conditioning equipment, 2 contacts, 4 data collection device, 5 and 5B management device, 6 network, 7 monitoring server, 8 access point, 9 wireless LAN card, 11 A / D conversion unit, 12 status detection unit, 15 wireless communication 16, 16B Anomaly detection unit, 17 data storage unit, 18 network communication unit.

Claims (2)

In a cold and remote monitoring system comprising a data collection device that captures status data of a refrigeration air conditioner and a management device that requests data by wireless communication with the data collection device and periodically sucks up the status data,
The data collection device changes the status flag that changes between two values according to the open / close status of the contact that closes when the refrigeration and air-conditioning equipment is abnormal, and changes to one value when the contact closes. The value of the status change flag that changes to the other value when transmitted is transmitted in response to the data request from the management device,
The management device determines that the refrigerating and air-conditioning equipment is abnormal when at least one of the status flag values corresponds to the value when the contact is closed or the status change flag value is one of the one values. A cold remote monitoring system characterized by In a cold and remote monitoring system comprising a data collection device that captures status data of a refrigeration air conditioner and a management device that requests data by wireless communication with the data collection device and periodically sucks up the status data,
The data collection device changes the status flag that changes between two values according to the open / close status of the contact that closes when the refrigeration and air-conditioning equipment is abnormal, and changes to one value when the contact closes. The value of the status change flag that changes to the other value when transmitted is transmitted in response to the data request from the management device,
The management device is configured such that the value of the status flag corresponds to the value when the contact is closed and the value of the status change flag is the other value, or the value of the status flag is when the contact is opened. A cold / hot remote monitoring system, wherein the refrigeration / air-conditioning apparatus determines that the corresponding value and the value of the status change flag are abnormal when the value is one of the above values.

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