JP6548623B2 - Air conditioning control device and program - Google Patents

Description

  The present invention relates to an air conditioning control device that controls the operation of an air conditioner based on measurement data from temperature measurement means disposed in a space that is air conditioned by the air conditioner, and a program for operating the air conditioning control device.

  The direct digital controller (DDC) controls the operation of the air conditioner on the basis of measurement data from temperature sensors disposed in the vicinity of the air supply port in the room. If the connection with the temperature sensor is broken during operation control of the air conditioner, DDC considers the temperature data, the upper limit value or the lower limit value, the preset value, etc. stored most recently as the temperature data measured by the temperature sensor Air conditioning control is continuing.

  In recent years, when an abnormality is detected in one of two sensors, one with a remote control built-in temperature sensor and one with a room built-in temperature sensor, air conditioning control is performed using a sensor that operates normally, and the abnormality is detected in both sensors When it is done, the average value of the temperature data stored in a predetermined cycle is determined, and a technique for operating the air conditioner temporarily using the average value is proposed (for example, Patent Document 1).

JP, 2008-286460, A JP 2008-045810 A JP 2002-243239 A

  However, in the related art, the air conditioning control with a fixed value is continuously performed until the connection with the temperature sensor is restored, and therefore the room may be too hot or too cold.

  An object of the present invention is to suppress unpleasantness of a space to be air-conditioned even when measurement data by temperature measurement means required for air-conditioning control can not be obtained.

The air conditioning control device according to the present invention comprises the above-mentioned measurement data receiving means for receiving measurement data from temperature measurement means disposed in a space conditioned by an air conditioner, and the above-mentioned measurement data received by the measurement data receiving means. and operation control means for controlling the operation of the air conditioner, and the outside air temperature data receiving means for receiving measurement data as the outside air temperature data due to the installed temperature measuring means outside ya, received within the last 24 hours by the measurement data receiving means Data recording means for recording the outside air temperature data received within the last 24 hours by the outside air temperature data receiving means together with the measurement time in the storage means, the operation control means including the measurement data When the measurement data is not received by the receiving means, the outside air temperature data at the same time as the current time stored in the storage means and the outside air The measurement data at the same time as the current time stored in the storage means is corrected based on the current outside air temperature data received by the data reception means, and the corrected measurement data is received by the measurement data reception means It is characterized in that operation control of the air conditioner is performed considering it as measurement data.

A program according to the present invention includes a computer incorporated in a controller, measurement data receiving means for receiving measurement data by temperature measurement means disposed in a space conditioned by an air conditioner, and the measurement data receiving means received by the measurement data receiving means operation control means for controlling the operation of the air conditioner based on the measured data, the outside air temperature data receiving means for receiving measurement data obtained by installing temperature measuring means outside ya as outside air temperature data, the most recent 24 hours by the measurement data receiving means The operation control means functions as a data recording means for recording the measurement data received within and the outside air temperature data received within the last 24 hours by the outside air temperature data reception means together with the measurement time in the storage means, When measurement data is not received by the measurement data receiving unit, the current stored in the storage unit is The measured data at the same time as the current time stored in the storage means is corrected based on the outside air temperature data at the same time as the point and the current outside air temperature data received by the outside air temperature data receiving means, and the corrected measurement data The present invention is characterized in that operation control of the air conditioner is performed by regarding the present measurement data received by the measurement data receiving means.

  ADVANTAGE OF THE INVENTION According to this invention, even when the measurement data by the temperature measurement means required for air-conditioning control are not obtained, it can suppress that the space air-conditioned becomes unpleasant.

  In addition, it is possible to further suppress the unpleasantness of the space by correcting the measurement data of 24 hours ago from the present time based on the information of the outside air temperature.

FIG. 2 is a diagram showing a schematic configuration of an air conditioning system and a block configuration of a direct digital controller (DDC) in the first embodiment. FIG. 2 is a hardware configuration diagram of a DDC in Embodiment 1; 5 is a flowchart showing an air conditioning control process performed by the DDC in the first embodiment. It is the figure which showed schematic structure of the air conditioning system in Embodiment 2, and the block configuration of DDC. FIG. 16 is a flowchart showing an air conditioning control process performed by the DDC in the second embodiment. FIG.

  Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

Embodiment 1
FIG. 1 is a view showing a schematic configuration of an air conditioning system in the present embodiment and a block configuration of a direct digital controller which is an embodiment of the air conditioning control device according to the present invention. In FIG. 1, a direct digital controller (hereinafter "DDC") 10, an air conditioner 1 whose operation is controlled by the DDC 10, and a control temperature sensor 3 disposed in a room 2 in a building (not shown) The remote control 4 is shown. In the present embodiment, the room 2 corresponds to a space that is air-conditioned by the air conditioner 1. The air conditioner 1 can have various configurations depending on the size and use of the building, but the air conditioner 1 itself may have a conventional configuration, and the detailed configuration of the air conditioner 1 is necessary for the description of the present embodiment. Since it does not take, in FIG. 1, it matched only with the room 2, and illustrated.

  The control temperature sensor 3 is a temperature measurement unit installed in the room 2 to measure the temperature near the air supply port and the like. The control temperature sensor 3 is connected to the DDC 10 by a signal line, and sensor data output from the control temperature sensor 3 is sent to the DDC 10 through the signal line. The measurement data (sensor data) measured by the control temperature sensor 3 is data indicating a room temperature and is used to control the operation of the air conditioner 1 at normal times. Therefore, in the present embodiment, the temperature measurement means installed in the room 2 Will be referred to as "control temperature sensor 3". Further, measurement data from the control temperature sensor 3 is referred to as "control data" in the present embodiment. The remote control 4 is used to set the temperature in the room. The DDC 10 normally controls the operation of the air conditioner 1 based on the control data measured by the control temperature sensor 3.

  The DDC 10 in the present embodiment can be realized by a conventional general-purpose hardware configuration. That is, the DDC 10 is configured by connecting a CPU 21, a ROM 22, a RAM 23 as a storage unit, and a control output unit 25 that controls the air conditioner 1 through a bus 26.

  Returning to FIG. 1, the DDC 10 in the present embodiment includes a control data receiving unit 11, a sensor data recording unit 12, an operation control unit 13, and a sensor data storage unit 14. The control data receiving unit 11 is provided as a measurement data receiving unit, and receives measurement data (control data) measured by the control temperature sensor 3. The sensor data recording unit 12 is provided as data recording means, and records control data received by the control data receiving unit 11 within the last 24 hours in the sensor data storage unit 14 together with measurement time. The operation control unit 13 is provided as an operation control unit, and performs operation control of the air conditioner 1 based on the control data received by the control data receiving unit 11.

  Each component 11-13 in DDC10 is implement | achieved by cooperative operation of the computer incorporated in DDC10, and the program which operate | moves by CPU21 mounted in the computer. The sensor data storage unit 14 is realized by the RAM 23 mounted on the DDC 10. Alternatively, external storage means may be used via the network.

  Further, the program used in the present embodiment can be provided by communication means as well as stored in a computer readable recording medium such as a CD-ROM or a USB memory. The programs provided from the communication means and the recording medium are installed in the computer, and various processes are realized by the CPU of the computer sequentially executing the programs.

  Next, the air conditioning control processing in the present embodiment will be described using the flowchart shown in FIG.

  The control temperature sensor 3 constantly measures room temperature. The control data receiving unit 11 periodically receives the measured room temperature data as control data through the signal line. When the control data receiving unit 11 receives the control data normally (Y in step 101), the control data is sent to the sensor data recording unit 12. The sensor data recording unit 12 associates the current time with the sent control data and records the current time in the sensor data storage unit 14 (step 102). In the present embodiment, the current time linked to the control data is treated as the reception time of the data, and is treated as the measurement time by the control temperature sensor 3.

  By the way, assuming that a set of control data and measurement time recorded in the sensor data storage unit 14 is referred to as “measured data”, the sensor data recording unit 12 stores the measured data measured in the last 24 hours as sensor data. Record in section 14 In the present embodiment, actual measurement data prior to the last 24 hours may not be used and may be deleted.

  The control data receiving unit 11 also sends the received control data to the operation control unit 13. When the control data is sent from the control data receiving unit 11, the operation control unit 13 controls the operation of the air conditioner 1 based on the control data (step 103). The contents of the operation control itself may be the same as before, so the description will be omitted. Note that either of the processes of step 102 and step 103 may be performed first, or may be processed concurrently.

  If no abnormality occurs, the above process is repeatedly performed. That is, the air conditioner 1 is operation-controlled based on the control data (room temperature) measured by the control temperature sensor 3. During this time, if the setting of the room temperature is changed by the remote control 4, the DDC 10 controls the operation of the air conditioner 1 based on the changed setting value.

  By the way, when the signal line connecting the DDC 10 and the control temperature sensor 3 is disconnected for some reason, the control data receiving unit 11 can not normally receive the control data. That is, the DDC 10 can not control the operation of the air conditioner 1 based on the control data. In this case (N in step 101), the sensor data recording unit 12 stops recording in the sensor data storage unit 14 because no control data is sent, and overwrites control data for the last 24 hours with blank data. Do not lose (step 104).

  Further, when the operation control unit 13 detects that the control data reception unit 11 has not received the control data because the control data reception unit 11 no longer sends the control data, sensor data storage is performed. The control data for 24 hours from the current time, that is, the control data at the same time as the current time, is acquired from the unit 14 (step 105), and the acquired control data is measured by the control temperature sensor 3 at the current time The operation control of the air conditioner 1 is performed considering it as data (step 106).

  The above process is repeatedly executed until the control data receiving unit 11 can receive the control data normally by exchanging the signal line or the like. That is, the air conditioner 1 is operation-controlled based on the control data at the same time 24 hours ago. If the control data can not be received without disconnection even after 24 hours, control data for 24 hours from the present time does not exist in the sensor data storage unit 14. The control unit 13 acquires control data at the same time as the current time.

  Assuming that the outside air temperature does not significantly change from the previous day, if the air conditioner 1 is operated based on the change in room temperature measured by the control temperature sensor 3 the previous day, that is, the same air conditioning control as the previous day Nevertheless, it is thought that the residents do not feel so uncomfortable. Certainly, although it may not be possible to cope with the setting change of the room temperature by the operation of the remote control 4 of the day, since the air conditioning control is performed according to the operation at the same time 24 hours ago, the air conditioning control that performs the room temperature as a fixed value It is possible to suppress the discomfort given to the resident in comparison with the above.

Second Embodiment
When the DDC 10 can not receive control data from the control temperature sensor 3, in the first embodiment, it is assumed that the outside temperature does not largely change from the previous day, and the air conditioning control is performed by effectively using the control data within the last 24 hours. To do. However, there may be cases where the temperature difference between the previous day and today becomes large. Therefore, the present embodiment is characterized in that such a case can be dealt with.

  FIG. 4 is a diagram showing a schematic configuration of the air conditioning system and a block configuration of DDC in the present embodiment, and is a diagram corresponding to FIG. 1 in the first embodiment. In FIG. 4, the same components as in the first embodiment will be assigned the same reference numerals and descriptions thereof will be omitted as appropriate. The hardware configuration of the DDC 10 may be the same as that of the first embodiment.

  The air conditioning system according to the present embodiment has a configuration in which the outside air temperature data receiving unit 15 is added to the outside air temperature sensor 5 and the DDC 10 in the configuration shown in the first embodiment. The outside air temperature sensor 5 is a temperature measurement means installed outside the building to measure the outside air temperature. The outside air temperature sensor 5 is connected to the DDC 10 by a signal line, and sensor data output from the outside air temperature sensor 5 is sent to the DDC 10 through the signal line. Measurement data (sensor data) measured by the outside air temperature sensor 5 will be referred to as "outside air temperature data".

  The outside air temperature data receiving unit 15 is provided as outside air temperature data receiving means, and receives measurement data (outside air temperature data) by the outside air temperature sensor 5. With the addition of the outside air temperature data receiving unit 15, the sensor data recording unit 12 in the present embodiment combines the control data and the outside air temperature data received by the respective data receiving units 11 and 15 within the last 24 hours with the measurement time. It records in sensor data storage section 14. The outside air temperature data receiving unit 15 is realized by cooperative operation of a computer built in the DDC 10 and a program operated by the CPU 21 mounted on the computer.

  Next, the air conditioning control process in the present embodiment will be described using the flowchart shown in FIG. The same steps as in the first embodiment are assigned the same step numbers. Further, in the present embodiment, it is described that the outside air temperature data receiving unit 15 can always receive outside air temperature data normally by not breaking the signal line connecting the outside air temperature sensor 5 and the DDC 10.

  The outside air temperature sensor 5 constantly measures the outside air temperature. The outside air temperature data receiving unit 15 periodically receives the measured outside air temperature data through the signal line.

  When the control data receiving unit 11 receives the control data normally (Y in step 101), the control data receiving unit 11 sends the received control data to the sensor data recording unit 12. Similarly, since the outside air temperature data receiving unit 15 sends the received outside air temperature data to the sensor data recording unit 12, the sensor data recording unit 12 receives the control data and the outside data sent from the respective data receiving units 11 and 15. The current time is linked to the air temperature data and recorded in the sensor data storage unit 14 (step 202). Also in the present embodiment, the sensor data recording unit 12 causes the sensor data storage unit 14 to store actually measured data within the last 24 hours. Since the control data receiving unit 11 also sends the received control data to the operation control unit 13, the operation control unit 13 controls the operation of the air conditioner 1 based on the control data (step 103).

  When the control data receiving unit 11 can not normally receive control data due to disconnection or the like of the signal line connecting the DDC 10 and the control temperature sensor 3 (N in step 101), the sensor data recording unit 12 performs control When the control data is not sent from the data reception unit 11, the control data reception unit 11 detects that the control data is not received. In this case, the sensor data recording unit 12 not only stops recording of control data, but also stops recording of the outside air temperature data sent from the outside air temperature data receiving unit 15 in the sensor data storage unit 14 Step 204). That is, the sensor data recording unit 12 does not record new measured data until the disconnection is recovered.

  In addition, when the control data receiving unit 11 detects that the control data is not received, the operation control unit 13 detects that the control data is not received from the control data receiving unit 11 as follows: Corresponds to

  That is, the operation control unit 13 acquires actually measured data of 24 hours ago from the present time, that is, actually measured data of the same time as the present time (step 205), and further received by the outside air temperature data receiving unit 15. The current temperature data is acquired (step 206). Then, the operation control unit 13 obtains the difference between the outside air temperature data at the same time as the current time acquired from the sensor data storage unit 14 and the current outside air temperature data received by the outside air temperature data reception unit 15. Based on the control data at the same time as the current time acquired from the sensor data storage unit 14 is corrected (step 207).

  For example, the control data RT after correction is calculated by the following equation.

RT = CT + a · D
However, CT is the outside air temperature data at the same time as the current time acquired from the sensor data storage unit 14, D is the difference value of the outside air temperature data, and a is a correction coefficient. The correction coefficient a may be a preset fixed value. However, it is not necessarily the case that the difference in outside temperature is uniformly reflected in the room 2. For example, the extent to which the difference in the outside air temperature is affected changes depending on the size and orientation of the room 2 and the number and orientation of the windows. Therefore, the correction coefficient may be set in consideration of the environment of the room 2 and the like.

  As described above, when the control data for 24 hours before is corrected, the operation control unit 13 regards the control data obtained by the correction as the present measurement data received by the control temperature sensor 3. Operation control of the air conditioner 1 is performed (step 208).

  According to the present embodiment, in consideration of the difference between the current outside air temperature data and the current outside air temperature data stored in the sensor data storage unit 14, the sensor data storage unit 14 is stored. Since the control data at the same time as the current time is corrected, even if the difference between the temperature and the temperature is large between the previous day (strictly speaking, the day when the outside temperature data is stored in the sensor data storage unit 14) and today. This makes it possible to suppress the discomfort given to the resident.

  In the present embodiment, although the case where air conditioning control is performed based on temperature is described as an example, the present invention may be applied to the case where air conditioning control is performed with reference to humidity instead of temperature.

  Reference Signs List 1 air conditioner, 2 rooms, 3 control temperature sensors, 4 remote controls, 5 outdoor temperature sensors, 10 direct digital controllers (DDC), 11 control data receiving units, 12 sensor data recording units, 13 operation control units, 14 sensor data Storage unit, 15 outside air temperature data reception unit, 21 CPU, 22 ROM, 23 RAM, 25 control output unit, 26 internal bus.

Claims (2)

Measurement data receiving means for receiving measurement data from temperature measurement means disposed in a space conditioned by an air conditioner;
Operation control means for performing operation control of the air conditioner based on the measurement data received by the measurement data receiving means ;
An outside air temperature data receiving means for receiving measurement data by the temperature measurement means installed outside as the outside air temperature data;
Data recording means for recording measurement data received within the last 24 hours by the measurement data receiving means and outside air temperature data received within the last 24 hours by the outside air temperature data receiving means together with the measurement time in the storage means;
Have
The operation control means, when the measurement data receiving means does not receive the measurement data, the outside air temperature data at the same time as the current time stored in the storage means and the current outside air temperature received by the outside air temperature data receiving means Based on the data, correct the measurement data at the same time as the current time stored in the storage means, and regard the corrected measurement data as the current measurement data received by the measurement data receiving means to control the operation of the air conditioner An air conditioning control device characterized by performing. A computer built into the controller,
Measurement data receiving means for receiving measurement data by temperature measuring means disposed in a space conditioned by an air conditioner
Operation control means for performing operation control of the air conditioner based on the measurement data received by the measurement data receiving means ;
An outside air temperature data receiving means for receiving measurement data by the temperature measurement means installed outside as the outside air temperature data,
Data recording means for recording measurement data received within the last 24 hours by the measurement data receiving means and outside air temperature data received within the last 24 hours by the outside air temperature data receiving means together with the measurement time in the storage means
To act as
The operation control means, when the measurement data receiving means does not receive the measurement data, the outside air temperature data at the same time as the current time stored in the storage means and the current outside air temperature received by the outside air temperature data receiving means Based on the data, correct the measurement data at the same time as the current time stored in the storage means, and regard the corrected measurement data as the current measurement data received by the measurement data receiving means to control the operation of the air conditioner A program characterized by doing.