JP2007263483A - Variable air supply quantity control and confirmation device and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To immediately notify how respective controlled areas are actually controlled in an easily understandable manner. <P>SOLUTION: Control states for indicating current load situation of first to Nth (N≥2) controlled areas are collected and displayed on a display so that the collected control states of respective controlled areas are visually separated in terms of category. For example, fields 24 of a list indicating the control states of respective chambers of respective floors are displayed wherein a display area S of "cooler (deficient capacity)"/"heater (deficient capacity)" is displayed in red and a display area S of "cooling (satisfied)"/"heating (satisfied)" is displayed in blue. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention provides a variable air supply adjustment system (VAV control system) that receives supply of blown air supply from an air conditioner and controls the amount of air blown to the controlled area according to the load status of the controlled area. The present invention relates to a variable air supply amount control confirmation device and method for informing the load status of the vehicle.

  Conventionally, in a large-scale building, when supplying air supply to each part from an air conditioner via an air supply duct, variable air supply adjustment for each air supply outlet of each air-conditioning target area (controlled area) A unit (VAV unit) is provided, and the amount of air blown from this VAV unit is controlled by the VAV controller in accordance with the load status of the controlled area. That is, the amount of air blown to the controlled area is controlled by adjusting the damper opening of the VAV unit by the VAV controller (see, for example, Patent Document 1).

  In this VAV control system, based on the control status indicating the current load status (indoor condition) of the controlled area from each VAV controller, the supply air temperature (air temperature) and the air volume (air conditioner feed) from the air conditioner The air volume is controlled. The VAV controller determines a control status indicating the current load status of the controlled area according to the current indoor temperature, the current blown amount to the controlled area (VAV blown amount), the blown temperature, and the like. Send to controller. The control device comprehensively determines the control status from each VAV controller, and adjusts the air temperature from the air conditioner and adjusts the air volume from the air conditioner so as to achieve optimum control.

JP 2000-304333 A

  However, in the conventional VAV control system described above, the temperature and amount of air blown from the air conditioner are controlled based on the control status from each VAV controller. This control status is used in the control device. However, it is not displayed what kind of control is actually performed in each of the controlled areas, and cannot be visually confirmed. For this reason, conventionally, verification of control by a large number of individual VAV controllers has only been performed one by one by comparing the trend tendency, the set temperature, and the room temperature, which is very troublesome.

  The present invention has been made to solve such problems, and the purpose of the present invention is to immediately inform in an easy-to-understand manner what control is actually performed in each controlled area. An object of the present invention is to provide a variable air supply amount control confirmation device and method.

  In order to achieve such an object, the present invention receives the air supply from the air conditioner and controls the air flow rate to the controlled area according to the load status of the first to Nth (N ≧ 2) controlled areas, respectively. First to Nth variable supply amount adjusting means for controlling, first to Nth control status creating means for creating control statuses indicating current load states of the first to Nth controlled areas, respectively. Collects the control status created for the 1st to Nth controlled areas, visually classifies the collected control status for each controlled area, and lists them on the display Control status display means for displaying is provided.

  According to this invention, the control status indicating the current load status of the first to Nth controlled areas is collected, and the collected control status is visually determined for each controlled area. It is displayed on the display in a divided manner. For example, a list showing the type of control status of each room by color for each floor is displayed on the display.

  In addition, in the present invention, the display of the control status type is visually divided and displayed in addition to displaying the type by color, in addition to displaying the type separately with diagonal lines or mesh lines. It also includes methods such as displaying with icons (pictograms). Further, the present invention can be realized not only as a variable air supply amount control confirmation device but also as a variable air supply amount control confirmation method.

  According to the present invention, the control statuses created for the first to Nth controlled areas are collected, and the collected control status is visually divided into the control status types for each controlled area. In addition, it is displayed on the display, so the type of control status of each room is displayed in different colors for each floor, and what kind of control is actually performed in each controlled area. , You will be able to immediately inform in an easy-to-understand form.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is an instrumentation diagram showing one configuration example of a VAV control system using a variable air supply amount control confirmation device according to the present invention. In the figure, reference numeral 1 denotes an air conditioner, which is composed of a cooling coil 3 to which cold water CW is supplied via an electric valve 2, a heating coil 5 to which hot water HW is supplied via an electric valve 4, and a blower 6. . In the blower 6, 6a is a fan and 6b is an inverter.

  The operation of the inverter 6b, the motor-operated valve 2 and the motor-operated valve 4 in the air conditioner 1 is controlled by the control device 7, and the air supply blown out from the fan 6a in the air conditioner 1 (blow-out air supply). The air is supplied to the controlled areas 9-1 to 9-n through the air supply duct 8.

  In the controlled areas 9-1 to 9-n, temperature sensors T1 to Tn for detecting room temperature are provided for each area, and the detected temperature PV at the temperature sensors T1 to Tn is locally provided. 10-1 to 10-n.

  The VAV controllers 10-1 to 10-n are based on the difference between the detected temperature (current room temperature) PV given to each unit and the set temperature SP and the blown supply air temperature (supply air temperature) given by the control device 7. Then, the required air volume to the controlled areas 9-1 to 9-n is calculated and returned to the control device 7, while the dampers 12 of the VAV units 11-1 to 11-n are secured so as to ensure the required air volume. The openings of -1 to 12-n are controlled while observing the detected force (actual air volume) of the wind speed sensors 13-1 to 13-n. In the VAV units 11-1 to 11-n, 14-1 to 14-n are opening sensors that detect the opening of the dampers 12-1 to 12-n.

  In addition, the VAV controllers 10-1 to 10-n are each provided with a detected temperature (current room temperature) PV, an air flow rate (VAV air flow rate) to the current controlled areas 9-1 to 9-n, and air flow. According to temperature etc., it has the function to determine the control status which shows the present load condition of the present to-be-controlled areas 9-1 to 9-n, and to send this determined control status to the control apparatus 7.

  In this embodiment, the control status is “cooling (insufficient)”, “heating (insufficient)”, “cooling (satisfied)”, “heating (satisfied)”, “cooling (energy saving possible) ) ”,“ During heating (energy saving possible) ”,“ Stop ”,“ Fully open ”status. For example, if the blowing temperature to the controlled area is lower than the room temperature and the VAV blowing amount is maximum (damper fully open), the control status is “cooling (insufficient capacity)” and the blowing temperature to the controlled area is If the temperature is lower than the room temperature and the VAV blowing rate is within a predetermined range, the control status is set to “cooling (satisfied)”.

  The control device 7 comprehensively determines the control status sent from the VAV controllers 10-1 to 10-n, adjusts the air temperature from the air conditioner 1 so as to achieve optimum control, The air flow from 1 is adjusted. For example, if the control status is “Cooling (insufficient capacity)”, the air temperature is lowered, and if it is “Heating (insufficient capacity)”, the air temperature is increased. If the control status is “cooling (satisfied)” or “heating (satisfied)”, the state is maintained as it is. If the control status is “Cooling (energy saving possible)”, the air temperature is slightly increased. If the control status is “Heating (energy saving is possible)”, the air temperature is slightly decreased.

  Further, in this VAV control system, the supply air that passes through the VAV units 11-1 to 11-n and is blown to the controlled areas 9-1 to 9-n through the outlets 15-1 to 15-n ( The air supply blowout) contributes to air conditioning control in the controlled areas 9-1 to 9-n, and is then discharged from the exhaust ports 16-1 to 16-n through the return air duct 17 and the exhaust adjustment damper 18. However, a part thereof is returned to the air conditioner 1 as return air via the return air adjustment damper 19.

  In this VAV control system, the return air returned to the air conditioner 1 is taken in at a predetermined rate via the outside air adjustment damper 20, and the exhaust adjustment damper 18, the return air adjustment damper 19, the outside air. The opening degree of the adjustment damper 20 is adjusted by a command from the control device 7. Further, the control device 7 is supplied with the blown supply air temperature from the air conditioner 1 and the actual value of the return air temperature in the return air duct 17 via the temperature sensors 21 and 22.

  In the present embodiment, a management device 23 is provided for the VAV control system configured as described above, and this management device 23 is connected to the control device 7 via a communication line. FIG. 2 shows an outline of the hardware configuration of the management device 23. In this figure, 23-1 is a CPU, 23-2 is a RAM, 23-3 is a ROM, 23-4 is a storage device such as a hard disk, 23-5 to 23-7 is an interface, 23-8 is a display, 23- 9 is a keyboard, and 23-10 is a mouse.

  The CPU 23-1 operates in accordance with programs stored in the ROM 23-3 and the storage device 23-4 while accessing the RAM 23-2. The storage device 23-4 stores a control status display program as a program unique to the present embodiment. This control status display program is provided in a state where it is recorded on a recording medium such as a CD-ROM, for example, and is read from this recording medium and installed in the storage device 23-4.

  The processing operation executed by the CPU 23-1 according to the control status display program will be described below with reference to the flowchart shown in FIG.

  The CPU 23-1 repeats the processing operations of steps 101 and 102 at a predetermined cycle. In step 101, the control device 7 is accessed and control statuses from the VAV controllers 10-1 to 10-n are collected. In step 102, the collected control status is displayed on the display 23-8 by visually classifying the control status type for each controlled area in which the control status is created.

  FIG. 4 shows a display example of the control status on the display 23-8. In this example, a list 24 showing the control status of each room for each floor is displayed on the screen G1 on the display 23-8. In this list 24, the control status display area S of each room is color-coded according to the type of control status. For example, the display area S for “Cooling (insufficient)” and “Heating (insufficient)” is red, and the display area S “Cooling (satisfied)” and “Heating (satisfactory)” is blue. The display area S for “cooling (energy saving possible)” and “heating (energy saving possible)” is green, the display area S for “stop” is black, and the display area S for “fully open” is white. It is said.

  As a result, the operator looks at the list 24 displayed on the display 23-8, and immediately understands what control is actually performed in the controlled areas 9-1 to 9-n in an easily understandable manner. Can know. That is, in the list 24 displayed on the display 23-8, since the control status is displayed in different colors, it is easy to visually understand and easy to compare with the control status of the nearby controlled area. Yes, it is possible to know in real time the influence of each controllability, the occurrence of failures and troubles, etc.

  In this embodiment, the control status types are displayed in different colors. However, the control status types are displayed with a diagonal line, a mesh line, etc., or the control status types are indicated by icons (pictograms). It may be displayed. In addition, a plan view of each floor may be shown, and the control status of each room may be displayed in the plan view by visually classifying its type.

  In the present embodiment, the variable air supply amount control confirmation device is configured by the VAV controllers 10-1 to 10-n, the control device 7, and the management device 23 connected via a communication line. The management device 23 may directly access the VAV controllers 10-1 to 10-n without using the device 7, and may collect control status indicating the current load status in the controlled areas 9-1 to 9-n. . In this case, the variable air supply amount control confirmation device is configured by the VAV controllers 10-1 to 10-n and the control device 7 connected via a communication line. Further, the control device 7 may create a control status indicating the current load status in the controlled areas 9-1 to 9-n.

FIG. 2 is an instrumentation diagram showing a configuration example of a VAV control system using the variable air supply amount control confirmation device according to the present invention. It is a block diagram which shows the outline of the hardware constitutions of the management apparatus in this VAV control system. It is a flowchart which shows the processing operation according to the control status display program which CPU of a management apparatus performs. It is a figure which shows the example of a display of the control status on the display of a management apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Air conditioner, 2, 4 ... Electric valve, 3 ... Cooling coil, 5 ... Heating coil, 6 ... Blower, 6a ... Fan, 6b ... Inverter, 7 ... Control apparatus, 9-1 to 9-n ... Controlled area 10-1 to 10-n ... VAV control unit, 11-1 to 11-n ... VAV unit, 12-1 to 12-n ... damper, 13-1 to 13-n ... wind speed sensor, 14-1 to 14 -N: Opening sensor, T1-Tn ... Temperature sensor, 23 ... Management device, 23-1 ... CPU, 23-2 ... RAM, 23-3 ... ROM, 23-4 ... Storage device, 23-5-23- 7 ... Interface, 23-8 ... Display, 23-9 ... Keyboard, 23-10 ... Mouse, 24 ... List, S ... Display area, G1 ... Screen.

Claims (2)

The first to Nth variable air supply amounts that respectively receive the air supply from the air conditioner and control the amount of air blown to the controlled areas according to the load status of the first to Nth (N ≧ 2) controlled areas. Adjusting means;
First to Nth control status creating means for creating control statuses indicating current load situations of the first to Nth controlled areas, respectively.
Collecting the control status created for the first to Nth controlled areas, and visually classifying the collected control status for each of the controlled areas on the display And a control status display means for displaying a list on the variable air supply amount control confirmation device. A first step of receiving air supply from an air conditioner and controlling the amount of air blown to the controlled area according to the load status of the first to Nth (N ≧ 2) controlled areas;
A second step of creating a control status indicating a current load status of each of the first to Nth controlled areas;
Collect the control status created for the first to Nth controlled areas, visually classify the collected control status for each controlled area, on the display And a third step of displaying a list on the variable air supply amount control confirmation method.

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