JP2016138671A - Air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an energy saving type air conditioning system for a commercial facility which utilizes renewable energy.SOLUTION: An air conditioning system 100 for air-conditioning a building 101 includes: a solar heat utilization function part including a solar water heater 104 for heating a heat exchange medium by solar heat; a main heat source utilization function part including a rain water tank 120 for accumulating the heat exchange medium 123 including at least well water 122; and a sub heat source function part including a sub heat source tank 108 for receiving the well water 122 and the returning heat exchange medium after air-conditioning the building 101. The solar heat utilization function part provides a heat source function for cooling/heating. The sub heat source function part and the main heat source utilization function part provide a cooling/heating function by temperature control by the well water 122 according to the temperature of the space to be air-conditioned.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an energy-saving air conditioning system for commercial facilities that uses renewable energy.

In recent years, it has been desired to reduce CO ₂ emissions in order to suppress global warming. In addition, as the outage of nuclear power plants and the like has been prolonged, there is a problem of increased power costs, and the use of renewable energy is being studied more and more. Various kinds of renewable energy have been proposed, and power generation methods using solar energy, wind power, wave power, and the like are known. In addition, a solar panel hot water supply system that directly uses solar heat for heating is also known.

  Commercial facilities such as freight collection and delivery facilities and large-scale retail stores have a relatively large floor area, and as a result, the area of the roof that receives sunlight can be increased. -It can be said that it is easy to prepare an environment for efficiently using renewable energy by using a panel hot water supply system.

  On the other hand, large-scale business facilities often require the installation of rainwater tanks for storing rainwater, etc. underground or in appropriate locations in order to accumulate rainwater such as guerrilla heavy rain in recent years. There is also. Installing rainwater tanks in addition to buildings is directly linked to increasing the construction cost of equipment. For this reason, it is desirable to offset the above-described cost increase by reducing other costs and promote the construction of business facilities. Renewable energy can be used to reduce running costs, but the rainwater tank itself may become an idle facility during normal times, and this rainwater tank should be used as effectively as possible. However, it is preferable for reducing the running cost of the entire facility.

  Until now, a technique for performing air conditioning using rainwater, domestic wastewater, or the like has been proposed. The heat source medium (water or antifreeze) that is cooled or heated by a cooling tower or heating tower, cooled or heated by heat exchange with the surrounding soil in a large-scale groundwater tank, or in response to an increase or decrease in temperature In order to provide a heat pump air conditioner or hot water supply device for domestic buildings that does not need to be discharged or re-supplied, it is provided inside a storage tank for storing domestic wastewater and / or rainwater. A heat exchanger in the tank is provided, and in the heat exchanger in the tank, a heat source medium that exchanges heat with the refrigerant of the heat pump air conditioner or the hot water supply apparatus is stored in the raw water tank. A system for cooling or heating by drainage and / or rain and heat exchanger have been proposed.

  However, the installation of a heat exchanger in the reservoir tank, on the other hand, increases maintenance costs. In addition, rainwater and domestic wastewater require temperature management, and this also adds cost.

JP 2010-48527 A

  The present invention has been made in view of the above-mentioned problems of the prior art, and the present invention makes it possible to effectively use renewable energy in a business facility to reduce the running cost of the business facility. An object is to provide an air conditioning system.

According to the present invention, an air conditioning system for air conditioning a building, wherein the air conditioning system includes:
A solar heat utilization function unit including a solar water heater for heating the heat exchange medium by solar heat;
A main heat source utilization function unit including a main heat source tank for storing a heat exchange medium including at least well water;
A sub-heat source function unit including a sub-heat source tank for receiving the well water and a return heat exchange medium after air conditioning in the building,
The solar heat utilization function unit provides a cooling / heating heat source function, and the sub heat source function unit and the main heat source utilization function unit provide a cooling / heating function by adjusting the temperature of the well according to the temperature of the air-conditioned space. be able to.

  The main heat source tank of the present invention functions as a rainwater tank that accumulates rainwater, and the auxiliary heat source tank includes well water and can accumulate a heat exchange medium whose temperature is adjusted to 15 ° C. to 30 ° C. . The solar heat utilization function unit includes a solar heat storage tank, a first heat exchanger, and a hot / cold hot / cold hot water generator, and the auxiliary heat source function unit adjusts the temperature of the heat exchange medium accumulated in the auxiliary heat source tank. A second heat exchanger can be provided.

  Moreover, in this invention, the said main heat source utilization function part can be equipped with the heat pump which adjusts the temperature for the heat exchange medium accumulate | stored in the main heat source tank for air conditioning. In the present invention, it is preferable to use the well rather than the cooling tower for cooling the heat exchange medium.

  ADVANTAGE OF THE INVENTION According to this invention, the air conditioning system which makes it possible to reduce the running cost of a business facility effectively using renewable energy in a business facility can be provided.

Schematic of the business facility where the air conditioning system 100 of the present embodiment is installed. The figure which showed the detailed structure of the air conditioning system 100 of this embodiment.

  Hereinafter, although this invention is demonstrated using embodiment, this invention is not limited to embodiment mentioned later. FIG. 1 is a schematic diagram of a business facility in which the air conditioning system 100 of the present embodiment is installed. In the business facility, a building 101 is laid on a ground 126, and a solar water heater 104 is installed on the roof of the building 101.

  The building 101 is configured to include a living space 102 in which the staff normally performs work and a work space 103 provided in a lower hierarchy of the living space 102. In the living space 102, a plurality of air conditioning facilities 105, specifically, a plurality of air conditioning facilities are arranged. In the work space, an air conditioner 106 installed adjacent to the outer wall is arranged. Air conditioning of the living space 102 and the work space 103 is performed by an air conditioning medium supplied from an air conditioning system installed separately from the building 101.

  In the basement of the building 101, a rainwater tank 120 is laid for the purpose of accumulating rainwater during heavy rain. In this embodiment, the rainwater tank 120 shown in FIG. 1 functions as a main heat source tank for accumulating a heat exchange medium in normal times.

  The air conditioning system 100 of the present embodiment includes a solar heat storage tank 107, a sub heat source tank 108, and a medium temperature control unit 109. The solar heat storage tank 107 receives the hot water generated by the solar water heater 104 from the line 110 and accumulates the hot water. In the present embodiment, the auxiliary heat source tank 108 directly uses the well water 122 pumped from the well 121 via the line 113 with the heat exchange medium (generally 5 ° C. to 30 ° C.) included therein, or the well water. The heat exchange medium is pumped and accumulated from the rainwater tank 120 in which the heat exchange medium 122 and rainwater are accumulated. The auxiliary heat source tank 108 stores a heat exchange medium 123 of 15 ° C. to 30 ° C., and supplies a refrigerant or a heat medium to the building 101 via the lines 111 and 112 according to the purpose of air conditioning. Yes.

  The well 122 provides a function of warming the heat exchange medium 123 in the winter and a function of cooling the heat exchange medium 123 in the summer. Further, the heat exchanging medium 123 is discharged from the drain pipe 124 to the central drain pipe 125 when the heavy rain is predicted or started, or when a regular replacement time comes, so that the heat exchanging medium 123 may be damaged. Provide functionality. Moreover, the soundness and the sanitary environment in the air conditioning system 100 can be maintained by exchanging regularly. Even if the heat exchange medium 123 is not in the rainwater tank 120, the air conditioning system 100 can be stopped even in the case of a heavy rain because the well water can be directly pumped to supply the heat exchange medium. There is no.

  Furthermore, in this embodiment, the heat exchange medium including the well water accumulated in the rainwater tank 120 is directly pumped to the medium temperature control unit 109, and the medium temperature control unit 109 heats and cools the heat exchange medium according to the purpose of air conditioning. Supply to the building 101. That is, the air conditioning system 100 according to the present embodiment uses the heat exchange medium including well water and integrates and functions the three air conditioning functions.

  For this reason, it is possible to effectively use renewable energy such as solar heat and well water as a heat source throughout the summer and winter seasons. In addition, since the well water 122 is used as an auxiliary heat pump, it is not necessary to install a cooling tower required in a conventional large-scale air conditioning system, so that maintenance of the cooling tower can be omitted. Become.

  FIG. 2 is a diagram illustrating a detailed configuration of the air conditioning system 100 of the present embodiment. The air conditioning system 100 includes a solar heat utilization function unit, an auxiliary heat source utilization function unit, and a main heat source utilization function unit including well water. The solar heat utilization function unit includes a solar heat storage tank 107, a first heat exchanger 201, and a hot / cold hot / cold hot water generator 202, and mainly supplies a heat medium having a temperature higher than room temperature to an indoor fan coil unit (FCU). Supply.

  Further, the auxiliary heat source utilization function unit provides the water heat source heat pump air conditioner as an auxiliary heat source for the heat pump air conditioner accumulated in the auxiliary heat source tank 108 and conditioned between 15 ° C. and 30 ° C., and has an air conditioning function. I can. This water source heat pump air conditioner is used as a perimeter and an air conditioner for zoning. More specifically, the sub heat source utilization function unit is configured to include the sub heat source tank 108 and the second heat exchanger 203, and provides a cooling / heating function to the air conditioner 207 for perimeter & zoning according to the temperature. ing. The temperature of the auxiliary heat source tank 108 is appropriately adjusted by heating with the return medium from the air conditioner 207 and the return medium from the indoor FCU 206 and the second heat exchanger 203.

  Furthermore, the main heat source utilization function unit is configured to include a rainwater tank 120 functioning as a main heat source tank, a heat pump 204, and a diversion unit 205, and heat exchange including well water 122 accumulated in the rainwater tank 120. Pump the medium directly for use. The heat exchange medium 123 accumulated in the rainwater tank 120 is directly pumped to the heat pump, heat-exchanged, and adjusted to a temperature that enables target air conditioning. Thereafter, the heat exchange medium is supplied to the indoor air conditioner 208 through the diversion unit 205 to adjust the room air condition, and the diversion unit 205 collects heat from the load imbalance of the air conditioner in each room. The heat exchange medium is heat-exchanged by the heat pump 204 and then returned to the rainwater tank 120 again.

  When heating is required, the temperature of the hot water in the solar heat storage tank 107 and the auxiliary heat source tank 108 are adjusted by the second heat exchanger, maintained at 15 ° C. to 30 ° C., and supplied to the water heat source heat pump. Further, the indoor air conditioner is provided with a heating function through the diversion unit 205 using hot water obtained by adjusting the heat exchange medium of the rainwater tank 120 with a heat pump as the heat exchange medium. When cooling is required, among the two systems of cold water whose temperature is adjusted with a heat pump from the rainwater tank 120 or cold water whose temperature is adjusted with a second heat exchanger in the auxiliary heat source tank 108, Select the function with the lower cost to cool it.

  The hot water in the solar heat storage tank 107 can be used as toilet water in the building without returning to the sub heat source tank 108 in the summer.

  As described above, in the present embodiment, efficient air conditioning is performed by effectively using renewable energy, regardless of summer or winter, as a heat exchange medium including well water 122 in response to a request for cooling or heating. Can do. Furthermore, according to the embodiment, since it is possible to effectively use the equipment that is idle except during emergency such as torrential rain, it is possible to increase the construction cost of business facilities and to reduce the running cost using renewable energy. Reduction can be reduced.

  The present invention has been described with the embodiment. However, the present invention is not limited to the embodiment, and other embodiments, additions, modifications, deletions, and the like can be conceived by those skilled in the art. Any of the embodiments is included in the scope of the present invention as long as the operations and effects of the present invention are exhibited.

DESCRIPTION OF SYMBOLS 100: Air conditioning system 101: Building 102: Living space 103: Work space 104: Solar water heater 105: Air-conditioning equipment 106: Air-conditioning equipment 107: Solar heat storage tank 108: Sub heat source tank 109: Medium temperature control part 110: Line 111: Line 112: Line 113: Line 120: Rainwater tank 121: Well 122: Well water 123: Heat exchange medium 124: Drain pipe 125: Concentrated drain pipe 126: Ground 201: First heat exchanger 202: Hot water / cold / hot water generator 203: 2nd heat exchanger 204: Heat pump 205: Shunt unit 207: Air conditioner 208: Indoor air conditioner

Claims (6)

An air conditioning system for air conditioning a building, the air conditioning system comprising:
A solar heat utilization function unit including a solar water heater for heating the heat exchange medium by solar heat;
A main heat source utilization function unit including a main heat source tank for storing a heat exchange medium including at least well water;
A sub-heat source function unit including a sub-heat source tank for receiving the well water and a return heat exchange medium after air conditioning in the building,
The solar heat utilization function unit provides a cooling / heating heat source function, and the sub heat source function unit and the main heat source utilization function unit provide a cooling / heating function by adjusting the temperature of the well according to the temperature of the air-conditioned space. , Air conditioning system.   The air conditioning system according to claim 1, wherein the main heat source tank functions as a rainwater tank that accumulates rainwater.   The air conditioning system according to claim 1 or 2, wherein the auxiliary heat source tank includes well water and accumulates a heat exchange medium having a temperature adjusted to 15 ° C to 30 ° C.   The solar heat utilization function unit includes a solar heat storage tank, a first heat exchanger, and a hot / cold hot / cold hot water generator, and the sub heat source function unit adjusts the temperature of the heat exchange medium accumulated in the sub heat source tank. The air conditioning system according to any one of claims 1 to 3, comprising a heat exchanger.   The air conditioning system according to any one of claims 1 to 4, wherein the main heat source utilization function unit includes a heat pump that adjusts the temperature of the heat exchange medium accumulated in the main heat source tank for air conditioning. The air conditioning system according to any one of claims 1 to 5, wherein the well water is used instead of a cooling tower for cooling the heat exchange medium.