JP2005127618A - Centralized control system for air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform the efficient energy-saving operation corresponding to an amenity level of air-conditioned areas divided in units of groups in a centralized control system for an air conditioner. <P>SOLUTION: In this centralized control system 100 for the air conditioner, one or more outdoor machines 28, 29, a number of indoor machines 30-35, and a centralized control device for centrally controlling the outdoor machines 28, 29 and the indoor machines 30-35 are connected through a network 27. The centralized control device 25 has a function for dividing the indoor machines 30-35 into a plurality of groups for every air-conditioned area, determining an energy-saving operation level corresponding to the amenity level of every air-conditioned area, and controlling the energy-saving operation of each group on the basis of the energy-saving operation level. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an air conditioner centralized management system, and is particularly suitable for an air conditioner centralized management system in which indoor units are grouped.

  As a conventional centralized management system for air conditioners, there is one disclosed in Japanese Patent Laid-Open No. 2000-18687 (Patent Document 1). The centralized management system disclosed in Patent Document 1 aims to enable effective peak cut without substantially impairing comfort, and can be connected to a network for each of a plurality of air conditioners provided. A controller is provided, and each air conditioner controller is connected to the central management device via a network, and the temperature signal of the air conditioner main body or surroundings is sent to the central management device via the network, based on these data. The various operation signals obtained in this way are sent from the central management device to each air conditioner controller via the network.

  Specifically, it is described as follows. The plurality of air conditioners are divided into several groups in order to effectively perform peak cut. This grouping is performed so that the capacities of the groups are substantially equal, and the nearby air conditioners are divided into different groups. The operation in the air conditioners thus grouped is performed alternately at appropriate intervals for each group, and is not performed simultaneously between the groups. The operation switching timing for each group is issued when the temperature condition around the stopped air conditioner becomes a condition that requires operation. By performing the operation in this manner, for example, if divided into two groups, the peak of the air conditioning load can be reduced to substantially half.

JP 2000-18687 A

  In buildings, schools, etc., where centralized control systems for air conditioners are applied, places where high comfort must be maintained and places where very high comfort is not required (for example, there are few people going in and out, In general, there are places where there is only time. However, in the centralized management system of Patent Document 1, sufficient consideration is not given to the difference in the required comfort level of the air-conditioned place.

  In other words, the centralized management system of Patent Document 1 is such that the capacity of each group is substantially equal and the adjacent air conditioners are divided into different groups, and the operation is performed alternately for each group. However, a place where high comfort must be maintained and a place where high comfort is not required are air-conditioned at the same comfort level. For this reason, the place which does not require very high comfort will be air-conditioned more than necessary, and the energy saving as the whole air-conditioning could not be achieved sufficiently.

  An object of the present invention is to provide a centralized management system for an air conditioner that can perform an efficient energy-saving operation according to the comfort level of an air-conditioned place divided into groups.

  In order to achieve the above object, the present invention provides a centralized management of an air conditioner in which one or more outdoor units, a large number of indoor units, and a centralized management device that centrally manages the outdoor units and the indoor units are connected via a network. In the system, the centralized management device divides the indoor units into a plurality of groups for each air-conditioned place, sets an energy-saving operation level corresponding to the comfort level for each air-conditioned place, and based on the energy-saving operation level, It is configured to have a function of controlling to perform energy saving operation for each group.

In the present invention, the following configuration is preferable.
(1) The energy-saving operation level should be a plurality of stepwise levels corresponding to the comfort level.
(2) The centralized management device includes an operation panel that can select the step-wise energy saving operation level.
(3) The energy-saving operation is a thinning-out operation that alternately repeats the operation and stop of the indoor units of the corresponding group according to the energy-saving operation level.
(4) The thinning operation is a gradual thinning operation corresponding to the gradual energy saving operation level.
(5) The energy saving operation is an operation in which the set temperature of each group is changed stepwise according to the energy saving operation level.

  According to the present invention, the centralized management device divides the indoor units into a plurality of groups for each air-conditioned place, sets the energy-saving operation level corresponding to the comfort level for each air-conditioned place, and groups based on the energy-saving operation level. Since it has a function to control energy-saving operation for each group, a centralized control system for air conditioners that can perform efficient energy-saving operation according to the comfort level of the air-conditioned place divided into each group is obtained. be able to.

  Hereinafter, a centralized management system for an air conditioner according to an embodiment of the present invention will be described with reference to the drawings.

  First, the entire centralized management system for an air conditioner of this embodiment will be described with reference to FIG. FIG. 1 is a configuration diagram of an air conditioner centralized management system according to an embodiment of the present invention.

  The central control system 100 of an air conditioner is used for air-conditioning a multi-story building 21 such as a building or a school, and includes one or more outdoor units 28 and 29, a large number of indoor units 30 to 35, The outdoor units 28 and 29 and the central management device 25 that centrally manages the indoor units 30 to 35 are connected via a network 27. That is, the air conditioner centralized management system connects the centralized management device 25, the outdoor units 28 and 29, and the indoor units 30 to 35 to each other via a serial transmission system, a LAN system, etc., and transmits and receives data to and from each other. ing. Further, the air conditioner centralized management system divides the indoor units 30 to 35 into groups for each air conditioning place such as each floor, room, etc., and the centralized management device 25 manages the operation in units of groups. .

  The central management device 25 is disposed in an air conditioning management room 24 attached to the building 21. The air conditioning management room 24 may be provided in a part of the building 21. The centralized management device 25 divides the indoor units 30 to 35 into a plurality of groups for each location, sets an energy saving operation level corresponding to the comfort level for each group of the indoor units 30 to 35, and sets the energy saving operation level to this energy saving operation level. Based on this, it has a function of controlling each group to perform energy-saving operation.

  Further, the central management device 25 includes an operation panel 1, and an operation command is set by the operation panel 1.

  The outdoor units 28 and 29 and the indoor units 30 to 35 are connected via refrigerant piping, electrical wiring, signal wiring, and the like. The outdoor units 28 and 29 include a compressor constituting the refrigeration cycle, an outdoor heat exchanger, a decompression device, an outdoor fan for ventilating outdoor air, and the like. The indoor units 30 to 35 include an indoor heat exchanger that constitutes a refrigeration cycle, an indoor fan that ventilates indoor air, and the like. And each outdoor unit 28 and 29 shares the some indoor unit 30-32, 33-35. The outdoor units 28 and 29 are arranged outside the building 21 (on the roof in the illustrated example), but a part of the building 21 may be partitioned and arranged so as to communicate with the outside.

  The large number of indoor units 30 to 35 are divided into a plurality of groups by the centralized management device 25, and are arranged in a plurality of air conditioning places, for example, a plurality of floors 22 and 23 for each group. In the illustrated example, three indoor units 30 to 32 are arranged on the floor 22 as group 1, and three indoor units 33 to 35 are arranged on the floor 23 as group 2.

  Next, the operation panel 1 will be described with reference to FIG. FIG. 2 is a front view of the operation panel of the air conditioner centralized management system of FIG.

  The operation panel 1 includes an energy saving setting switch 2, a display unit 3, and an operation switch 5. This operation panel 1 may be provided on the remote controller.

  The operation switch 5 is composed of a plurality of switches, each of which selects a group, sets an air conditioning operation mode (for example, a cooling operation mode, a heating operation mode, a dehumidifying operation mode, etc.), and sets the room temperature of the air conditioning place. Various operations such as setting and setting of indoor fan wind speed can be performed.

  The display unit 3 includes a part for displaying various operation states by the operation switch 5 and an energy saving monitor unit 4. The energy saving monitor unit 4 is a part for monitoring the energy saving operation level in each group, and can monitor the energy saving operation level in a plurality of stages. In the illustrated example, the energy saving operation levels 1 to 5 are displayed so as to increase to the right in five stages, and the selected energy saving operation level is displayed in black. With the configuration of the display unit 3, the energy saving operation level can be easily set and confirmed.

  The energy saving setting switch 2 is used by the air conditioning manager to manually set the energy saving operation level of each group. The energy saving setting switch 2 is composed of two left and right push buttons and is disposed adjacent to the lower side of the energy saving monitor unit 4. ing. The energy saving operation level is set to increase by pressing the right button, and the energy saving operation level is set to decrease by pressing the left button. The energy saving setting switch 2 is set to normal capacity priority operation at level 0 and energy saving operation at levels 1 to 5. With the configuration of the energy saving setting switch 2, the energy saving operation level can be easily set.

  In this illustrated example, the group 1 is selected, the cooling operation state in which the set temperature of the floor 22 that is the air-conditioning place is 18 ° C., and the indoor fan wind speed is selected as the slight wind, and the highest energy saving operation level 5 is selected. State.

  The energy-saving operation described above is performed by a thinning-out operation in which the operation and stop in the indoor units 30 to 32 of the corresponding group 1 are alternately repeated according to the energy-saving operation level 5. The energy-saving operation level corresponds to the one in which a plurality of time intervals to be thinned out are provided stepwise. If the energy saving operation level is low, the operation is performed with a short stop time and giving priority to comfort. If the energy saving operation level is high, the operation is performed with a long stop time and giving priority to energy saving. If the air conditioning manager can arbitrarily set this thinning interval, more detailed air conditioning management can be performed. Such energy saving operation can achieve energy saving with a simple configuration. In the case of the cooling operation, the air blowing operation may be performed when stopped.

  Further, the energy saving operation may be performed by an operation in which the set temperature of the air conditioning place of each group is changed stepwise according to the energy saving operation level.

  Furthermore, the power consumption amount of each group may be measured, the energy saving operation level corresponding to the power consumption amount may be automatically determined, and the energy saving operation level may be changed based on this. In this case, energy-saving operation that is more realistic can be performed.

  According to the present embodiment, the centralized management device 25 divides the indoor units 30 to 35 into a plurality of groups 1 and 2 for each of the air-conditioned places 22 and 23, and saves energy corresponding to the comfort level for each of the air-conditioned places 22 and 23. Since the operation level is set and the function of controlling the energy-saving operation for each of the groups 1 and 2 based on the energy-saving operation level is provided, the comfort level of the air-conditioning places 22 and 23 divided into groups is set. It is possible to obtain a central control system for air conditioners that can perform efficient and energy-saving operation.

It is a block diagram of the air-conditioner centralized management system of one Example of this invention. It is a front view of the operation panel of the air conditioner centralized management system of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Operation panel, 2 ... Energy saving setting switch, 3 ... Display part, 4 ... Energy saving monitor part, 5 ... Operation switch, 21 ... Building, 22, 23 ... Floor, 24 ... Air-conditioning control room, 25 ... Centralized management apparatus, 27 ... Network, 28, 29 ... Outdoor unit, 30-35 ... Indoor unit, 100 ... Centralized management system for air conditioners.

Claims (6)

In a centralized management system for air conditioners in which one or more outdoor units, a large number of indoor units, and a centralized management device that centrally manages the outdoor units and the indoor units are connected to a network.
The centralized management device divides the indoor units into a plurality of groups for each air-conditioned place, sets an energy saving operation level corresponding to the comfort level for each air-conditioned place, and sets the energy saving operation level for each group based on the energy saving operation level. A central control system for air conditioners that has a function to control energy-saving operation.   The centralized management system according to claim 1, wherein the energy-saving operation level is a plurality of stepwise levels corresponding to comfort levels.   The centralized management system according to claim 2, wherein the centralized management device includes an operation panel capable of selecting the stepwise energy saving operation level.   The centralized management system according to claim 1, wherein the energy-saving operation is a thinning-out operation that alternately repeats the operation and stop of the indoor units of a corresponding group according to the energy-saving operation level. Centralized management system.   5. The centralized management system according to claim 4, wherein the thinning-out operation is a stepwise thinning-out operation corresponding to the stepwise energy-saving operation level. The centralized management system according to claim 1, wherein the energy-saving operation is an operation in which a set temperature of an air-conditioning place of each group is changed stepwise according to an energy-saving operation level.

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