KR101454995B1 - Outdoor air conditioner having air conditioning function - Google Patents

Abstract

An object of the present invention is to obtain an outer shell having an air conditioning function capable of both comfort and energy saving.
An air conditioner having an air conditioning function includes an air volume adjusting mechanism (D) for introducing outside air from the outside and ventilation from the room into the closed space (CS) and adjusting the mixing ratio of the outside air and the ventilation, A casing (1) which is provided in a closed space (CS) and has an air inlet (6) for introducing the outside air in the closed space (CS) and the ventilation as air for air conditioning and connected to the air supply duct (8) , A heat exchange coil (9) installed in the casing (1) and through which the air for air conditioning passes, and a heat exchange coil (9) installed in the casing (1), passing the air for air conditioning through the heat exchange coil (10) for blowing air into the room from a room (8), a vapor humidifier (2) for discharging vapor for humidification to the air for air conditioning, To operate the mechanism (D) And a carbon dioxide control section 22 for controlling the mixing ratio of the outside air and the ventilation.

Description

OUTDOOR AIR CONDITIONER HAVING AIR CONDITIONING FUNCTION

The present invention relates to an external air conditioner having an air conditioning function.

The air conditioning system using cold water or hot water (ie, cold / hot water formula) is a system in which a heat source for adjusting the temperature of cold water or hot water, an air conditioner for conditioning indoor air by adjusting the temperature and humidity of the room air by means of a heat exchange coil (Outdoor unit) which receives cold water or hot water and adjusts the temperature and humidity of the outside air by means of a heat exchanger coil and a humidifier, and a pipe and a water pump for circulating cold water or hot water to the air conditioner, , An air conditioner, and a duct that blows air from the outside to the inside of the room. In this air conditioning system, a dedicated machine room for installing an air conditioner or an external air conditioner is required, which makes the construction difficult and costly.

Japanese Patent Application Laid-Open No. 9-243141

In the cooling / heating air conditioning system, energy is consumed by the heat source, the fan of the air conditioner, the fan of the outside air and the water pump.

Examples of the heat source include a chilling unit of a heat pump type, a turbo chiller, and an absorption type chiller, and the water circulating through the heat exchanger coil of the air conditioner and the outdoor heat exchanger is cooled or heated to be adjusted to a predetermined temperature .

On the other hand, with respect to a building having a predetermined floor area or more, the outside air is introduced so that the concentration of carbon dioxide (CO ₂ ) in the room is 1000 ppm or less, and the outside air is introduced into the outside air as a fan.

How to reduce their energy consumption is the point of energy saving. It is known that the energy consumption of the heat source, the fan and the water pump are as follows.

(1) The energy consumption of the heat source unit is increased or decreased in accordance with the change of the temperature of the heat exchange water at the inlet of the heat exchange coil in the air conditioner and the outdoor unit (the temperature of the cold water or hot water at the outlet of the heat source unit).

(2) The energy consumption of the water pump depends on the water temperature difference (the difference between the water temperature at the inlet of the heat source and the water temperature at the outlet of the heat source, which is the difference between the temperature of the heat exchange water at the inlet of the heat exchange coil at the air- Temperature difference).

(3) The energy consumption of the fan increases or decreases according to the change of the supply air temperature (supply air volume) of the air conditioner and the outside air conditioner.

However, in the past, design and operation control of an air conditioner and an outside air conditioner have been performed without consideration of these factors, and wasteful energy consumption has increased.

In order to solve the above problems, the outer furnace having the air conditioning function according to the present invention is characterized in that the outdoor air from the outside and the ventilation from the room are stored in a closed space (CS) provided in the ceiling interior (S) (D) for adjusting the mixing ratio of the outside air and the ventilation by introducing and mixing the outside air and the ventilation air into the closed space (CS) A casing (1) having an air inlet (6) for introducing air as air for air conditioning and connected so as to communicate with the air supply duct (8), a heat exchange coil , A fan (10) installed in the casing (1) for passing the air for air conditioning through the heat exchange coil (9) and blowing air from the air supply duct (8) to the room, The steam humidifier (2) and the steam humidifier , And a carbon dioxide control unit (22) for operating the air volume adjusting mechanism (D) so as to control the mixing ratio of the outside air and the ventilation so that the concentration of carbon dioxide in the room becomes a predetermined set concentration.

According to this configuration,

(1) A closed space (CS) is formed by partitioning the inside of the ceiling or a part of the room to provide an air conditioner having an air conditioning function. Since a duct connecting the air amount adjusting mechanism and the casing is unnecessary, The construction period can be shortened, and the cost can be reduced. It is possible to use the closed space CS as the air introduction chamber, so that the member of the air blowing duct is unnecessary, and the cost can be reduced.

(2) Because the duct is sufficient for the supply, it is easy to maintain and repair the obstacle around the casing, and there is no extra blowing duct, so there is less pressure loss and energy saving.

(3) Since the outside air and the ventilation are mixed in the closed space (CS), there is no mixing unevenness, and uniform heat exchange can be performed. As the steam humidification, the precision of the temperature and humidity control in the room can be improved.

(4) Since outdoor air and ventilation are mixed and heat exchanged, when the air conditioning load such as spring or autumn is small, the outside air treatment and the ventilation treatment can be performed by the outside alone with the air conditioning function. Energy can be saved because it can be stopped or operated intermittently.

(5) It is multifunctional and can cope with a wide range of air conditioning needs because it can perform cooling operation, heating operation, air blowing operation, all outside air cooling operation, winter cooling and low temperature humidification.

(6) When the outside air load is large and the carbon dioxide concentration (CO ₂ concentration) is lowered due to a decrease in the number of people in the room, the amount of outdoor air can be reduced by the carbon dioxide control unit, thereby reducing the air conditioning energy consumption.

In order to solve the above problems, an outdoor unit having an air conditioning function according to the present invention comprises a casing (1) in which outdoor air from the outside and ventilation from the room are introduced as air for air conditioning, A heat exchange coil (9) through which heat exchange water for cooling or heating air for cooling flows; a fan (9) installed in the casing (1) for blowing air for air conditioning through the heat exchange coil (9) (10) for adjusting the flow rate of the heat exchange water, an air flow rate adjusting mechanism (D) for adjusting the mixing ratio of the outside air and the ventilation, a quantity adjusting mechanism (V) for adjusting the flow rate of the heat exchange water, The control device (3) operates the air flow rate adjusting mechanism (D) so that the concentration of carbon dioxide in the room becomes a predetermined set concentration, so that the outdoor air and the ventilation air (22) for controlling the mixing ratio of the air supplied to the heat exchange coil (9), and a controller (22) for operating the water quantity adjusting mechanism (V) so that the air supply temperature, The water flow rate of the heat exchange water is controlled so that the water temperature difference which is the difference between the temperature of the heat exchange water at the inlet and the temperature of the heat exchange water at the outlet is set to a predetermined set water temperature difference, And a quantity control unit (23) for controlling the flow rate.

According to this configuration,

(1) In a case where the outside air load is large in the control unit of the carbon dioxide, if the concentration of carbon dioxide is decreased due to the decrease in the number of people in the room, the amount of outdoor air can be reduced and the air conditioning energy consumption can be reduced.

(2) Even when the air conditioning load is changed, since the control is performed so that the temperature difference between the air for conditioning air and the temperature of the heat exchange water at the outlet of the heat exchange coil and the temperature of the heat exchange water for the inlet becomes the set value, (Cold water or hot water) to reduce the energy consumption of the water pump, and to reduce the energy consumption of the heat source by increasing the temperature difference at the same time ) Can be performed under a wide range of air conditions, thereby enabling a significant energy saving.

For example, the heat energy of the air for cooling by the cooling or heating of the heat-exchanging coil is determined by the difference between the enthalpy of air at the inlet of the heat-exchanging coil and the enthalpy of air at the outlet of the heat-exchanging coil, The air volume to be sent to the room becomes smaller as the enthalpy difference becomes larger if the heat energy is unchanged.

Therefore, the enthalpy difference of the heat exchange coil can be made large, that is, the set air supply temperature can be reduced when the air for air conditioning is cooled, and the fan energy consumption can be reduced by increasing the set air supply temperature when the air for air conditioning is heated.

The amount of heat exchange (the amount of heat of exchange) of the heat exchange water by the heat exchange coil is a product of the flow rate of the heat exchange water of the heat exchange coil, the temperature of the heat exchange water at the outlet of the heat exchange coil, Therefore, when the heat exchange coil heat flow rate is unchanged, the water temperature difference becomes larger, so that the amount of heat exchange water circulating between the heat source and the outside air having the air conditioning function is reduced. Therefore, if the water temperature difference is increased, the energy consumption of the water pump for heat exchange water can be reduced.

When the temperature of the heat exchange water at the outlet of the heat source unit is unchanged, the average cold water temperature rises at the time of the cooling operation and the average hot water temperature decreases at the time of the heating operation as the temperature difference in the heat- Consumption can be reduced.

(3) Since the flow rate of the water temperature difference and the heat exchange water can be controlled only by the outboard side having the air conditioning function, the control at the heat source side other than the outboard side having the air conditioning function is unnecessary, and the facility can be simplified .

(4) Since a considerable reduction in energy consumption can be achieved with the same capability as in the past, both comfort and energy saving can be achieved.

When the air for air conditioning is cooled by the heat exchange coil 9, the temperature of the heat exchange water at the inlet is set to 10 to 12 DEG C, the temperature difference is set to 8 to 12 DEG C, The temperature of the heat exchange water at the inlet is set to 35 to 40 DEG C, the temperature difference is set to 8 to 12 DEG C, and the supply air temperature Lt; RTI ID = 0.0 > 30 C < / RTI >

A heat source such as a heat pump type chilling unit reduces the energy consumption when the cold water outlet temperature is increased during the cooling operation and decreases when the hot water outlet temperature is lowered during the heating operation.

Therefore, the set temperature of the heat exchange water at the inlet of the heat exchange coil at the time of cooling the air for air conditioning (set temperature of heat exchange water at the outlet of the heat source) is 10 ° C to 12 ° C (conventionally 7 ° C) The temperature of the heat exchange water at the inlet of the heat exchange coil at the time of cooling is required to be lower than the supply air temperature by 3 ° C or more from the upper limit of the heat exchange ability of the heat exchange coil by the bypass air etc. Therefore, Is most suitable.

The set temperature of the heat exchange water at the inlet of the heat exchange coil at the time of air heating for air conditioning is preferably 35 to 40 DEG C (conventionally 45 DEG C), but the temperature of the heat exchange water at the inlet of the heat exchange coil It is most preferable to set the temperature to 40 占 폚 in order to reduce the energy consumption of the heat source because hot water of 3 占 폚 or more higher than the supply air temperature is required from the upper limit of the heat exchange ability of the heat exchange coil.

The set air supply temperature during air cooling for air conditioning is preferably 12 to 14 캜 (conventionally 16 캜) in consideration of the removal of latent heat generated from the human body in the room. However, the fan energy consumption is reduced, It is best to set it to 13 ° C to minimize the cold draft.

However, when the difference between the temperature of the heat exchange water and the air supply temperature at the inlet of the heat exchange coil is reduced, the heat source energy consumption is reduced (decreased) It is most suitable to set it at 30 占 폚.

The temperature difference (set water temperature difference) between the set temperature of the heat exchange water at the inlet of the heat exchange coil and the set temperature of the heat exchange water at the outlet is 8 ° C to 12 ° C 5 DEG C) is preferable, but it is most preferable to set it at 10 DEG C from the water temperature difference which can be dealt with with a general heat source.

The control device (3) stops the flow of the heat exchange water to the heat exchange coil (9) by operating the quantity adjustment mechanism (V) when the temperature of the outside air becomes the set supply air temperature, A blowing control section (24) for operating the air (D) to make all of the air for air conditioning as the outside air; and a controller (D) to operate the air conditioning air as the outside air, and to control the flow rate of the heat exchange water by operating the water amount adjusting mechanism (V) so that the air supply temperature becomes the set supply air temperature 25. The air conditioner according to claim 22, wherein when the temperature of the outside air is lower than the set supply air temperature and the temperature of the ventilation exceeds a predetermined set ventilation temperature, Or it may be provided with a winter cooling control unit 26 that controls the rate of the ventilating air in the air conditioning for the operating the flow rate adjusting mechanism (D) so that the temperature.

According to this configuration,

(1) In the air blowing control section, since air can be supplied only by blowing air into the room without exchanging heat with the outside air, the energy consumption of the heat source can be reduced, thereby saving energy.

(2) In the entire outside air cooling control unit, since only the outside air having a lower enthalpy is cooled than the room air, the energy consumption of the heat source can be reduced and energy can be saved, rather than cooling the mixed air of ventilation or outside air and ventilation.

(3) In the winter cooling control section, the room air temperature can be adjusted by adjusting the air supply temperature by mixing the high-temperature ventilation with the low-temperature outside air with the air volume adjusting mechanism without exchanging heat with the outside air when the room is hot during the winter season. Energy saving is possible. In addition, a quadruple-type pipe for simultaneously supplying cooling water for air conditioning and hot water for reheating is not required.

(4) It is multifunctional and can cope with a wide range of air conditioning requirements by being able to perform cooling operation, heating operation, blowing operation, all outside air cooling operation and winter cooling operation.

(5) The air volume adjusting mechanism can be shared in the control of carbon dioxide, the blowing operation, the cooling operation in all outside air, and the cooling operation in winter, thereby achieving cost reduction.

(E) for adjusting the air volume of the air-conditioning air supplied to the room by the fan (10). When the control device (3) And a supercooling prevention control section (27) for controlling the air flow rate of the air for air conditioning by operating the air amount changing mechanism (E) so that the temperature of the ventilation becomes the set ventilation temperature.

According to this configuration, when the air conditioning load is small, it is possible to prevent the indoor ventilation temperature from exceeding the set ventilation temperature by reducing the air supply air volume, thereby improving the comfort.

And a vapor type humidifier (2) for discharging vapor for humidification to the air for air conditioning. When the control device (3) has a ventilation absolute humidity lower than a predetermined set ventilation absolute humidity, And a humidifying control unit 28 for controlling the vapor emission amount of the vapor humidifier 2 so as not to exceed the upper limit of the absolute humidity of air.

According to this configuration,

(1) Even when the air for air conditioning is at a low temperature or a short evaporation / absorption distance (movement distance of water required until the water sprayed in the airflow is absorbed by air), it is possible to humidify while preventing condensation. An eliminator, and the like become unnecessary, and cost reduction and compactness can be achieved.

(2) Ventilation Because the humidity is humidified, the temperature and humidity of the room can be controlled with high precision.

The heat transfer tube (15) of the heat exchange coil (9) may be an elliptical tube.

According to this configuration, since the elliptic tube has a small pressure loss, the number of columns (heat flow rate) of the heat exchange coil is increased, and the set temperature of the heat exchange water at the inlet of the heat exchange coil The set temperature of the water) is raised during cooling, and when it is lowered during heating, the energy consumption of the heat source (without increasing the energy consumption of the fan) can be reduced.

In addition, by changing the shape of the flow of the heat exchange water flowing in the coil while lowering the heat exchange coil passing wind speed and increasing the sectional area of the heat exchange coil ventilation and maintaining the air supply air flow rate and cooling or heating ability, Speed) deterioration of the water pump and the heat source is prevented, and the amount of energy consumption of the water supply pump and the heat source can be reduced by increasing the temperature difference.

On the other hand, when the heat transfer tube of the heat exchange coil is a circular tube, if the number of heat of the coil is increased in order to set the set temperature, energy consumption of the fan is greatly increased, and energy saving is not achieved.

According to the present invention, when the outside air load is large and the carbon dioxide concentration (CO ₂ concentration) is lowered due to a decrease in the number of people in the room or the like, the amount of outdoor air can be reduced by the carbon dioxide control unit, thereby reducing the air conditioning energy consumption.

Fig. 1 is a side view showing an installation state of an outer jacket having an air conditioning function.
Fig. 2 is a brief explanatory diagram showing the overall configuration of an external apparatus having an air conditioning function.
3 is a flowchart of the cold water mode operation.
4 is a flow chart of the hot water mode operation.
5 is a flowchart of mode determination.
6 is a side view showing another embodiment.

1 and 2 show an embodiment of an air conditioner having an air conditioning function according to the present invention. The air conditioner having the air conditioning function includes a casing 1, a steam humidifier 2, D, a quantity adjustment mechanism V, and a control device 3. [ A closed space (CS) provided in a part of the inside of the ceiling (S) of the building is provided with an air volume adjusting mechanism (D) for adjusting the mixing ratio of outdoor air from the outside and ventilation from the room as air for air conditioning, CS) is used as a simple machine room, and a transversely long casing 1 is installed therein. The proportional air conditioner damper 4 and the ventilation damper 5 for adjusting the air volume are provided in the wall portion 32 and the ceiling plate 34 constituting the closed space CS to constitute the air volume adjusting mechanism D. In the illustrated example, the closed space CS is composed of the wall portion 32, the bottom portion 33, the ceiling plate 34, and the partition portion 35, but the configuration thereof is free.

The casing 1 has an air inlet 6 for introducing outside air and ventilation in the closed space CS as air for air conditioning and an air outlet 7 communicating with the air inlet 6, 7 are connected to communicate with the air supply duct 8. The casing 1 is provided with a heat exchange coil 9 through which heat exchange water for cooling or heating the air for cooling flows and a fan for passing the air for air conditioning through the heat exchange coil 9 and blowing air from the air supply duct 8 A filter 12 and a drain pan 13 are installed in the air for air conditioning which has passed through the heat exchanger coil 9 and the steam humidifier 2 that emits vapor for humidification do.

The fan (10) is provided with an air volume changing mechanism (E) including an inverter for adjusting air supply air volume of the air for air conditioning. As the vapor type humidifier 2, various humidifiers such as a known electrode type, an electric heating type, a steam atomizing type or the like may be used, or the humidifier may be vaporized. In the example shown in the drawing, the case where only the humidifying nozzle 11 is disposed in the casing 1 is exemplified. However, a device such as a steam generator for supplying the humidification nozzle 11 with steam may be provided in the casing 1.

The outline arrows of the solid line and the dotted line in the figure show the air blowing direction and the air for air conditioning sucked by the fan 10 passes through the heat exchange coil 9 and is supplied to the room through the air supply duct 8 and an air outlet do. The heat exchange coil 9 is formed by inserting a plurality of heat transfer tubes 15 into a plurality of heat transfer plates 14 provided so as to be ventilated so that the heat exchange water (cold water or hot water) flowing in the heat transfer tube 15 and the passing air are transferred to the heat transfer tubes 15) and the heat transfer plate (14). The heat transfer tube 15 is preferably an elliptical tube, but it may be a circular tube. A proportional quantity control valve 17 is provided by piping the inlet and the outlet of the heat exchange water in the heat exchange coil 9 and the piping 16 of cold water or hot water to adjust the flow rate of water in the heat exchange coil 9 Thereby constituting a quantity adjusting mechanism (V). The heat exchange coil 9 is connected to a heat source unit and a water feed pump (not shown) through a pipe 16 and heat exchange water (cold water or hot water) adjusted to a predetermined temperature is circulated through the heat exchange coil 9 and the heat source do. The pipe 16 may be any of four-pipe type in which cold water and hot water are supplied while the two-pipe type, cold water and hot water are supplied at the same time.

The control device 3 includes an outside air temperature / humidity detector 18 for detecting the temperature and humidity of the outside air, a ventilation temperature / humidity detector 19 for detecting the temperature and humidity of the ventilation, A supply air temperature and humidity detector 31 for detecting the temperature and humidity of the air for air conditioning (i.e., supply air), and a water temperature difference which is a difference between the temperature of the heat exchange water at the inlet of the heat exchange coil 9 and the temperature of the heat exchange water at the outlet A carbon dioxide detector 21 for detecting the concentration of carbon dioxide in the ventilation (indoor), a carbon dioxide control unit 22, a quantity control unit 23, a blowing control unit 24, A cooling control unit 25, a winter cooling control unit 26, a supercooling prevention control unit 27, a humidification control unit 28, a setting unit 29, and a mode determination unit 30, , And a microcomputer.

FIG. 3 is a flowchart of a cold water mode operation, FIG. 4 is a hot water mode operation, and FIG. 5 is a flowchart of a mode determination process. The carbon dioxide control unit 22 controls the mixing ratio of the air for air conditioning with the air volume adjusting mechanism D so that the concentration of carbon dioxide in the room detected by the carbon dioxide detector 21 becomes the set concentration. For example, when the concentration of carbon dioxide is lower than the set concentration due to an increase or decrease in the number of people in the room, the ventilation damper 5 and the outside air damper 4 increase the carbon dioxide concentration by reducing the outside air ratio of the air for air conditioning, The ventilation damper 5 and the outside-air damper 4 control the air-conditioning air amount to be increased by increasing the outside air ratio of the air-conditioning air.

The quantity control unit 23 controls the flow rate of the water by the quantity adjusting mechanism (V) so that the supply air temperature, which is the temperature of the air conditioning air (supply air) passing through the heat exchange coil detected by the supply air temperature and humidity detector 31, And controls the flow rate of water by the water quantity adjusting mechanism (V) so that the water temperature difference detected by the water temperature difference detector (20) becomes the set temperature difference. For example, in the case of the cooling operation, when the supply air temperature becomes lower than the set supply air temperature, the flow rate of water is reduced by the water quantity control valve 17 to increase the supply air temperature. When the supply air temperature becomes higher than the set air supply temperature, The flow rate of the heat exchange water is increased to control the supply air temperature to be lowered. When the supply air temperature becomes the set supply air temperature, when the water temperature difference is smaller than the set water temperature difference, the flow rate of the heat exchange water is decreased by the flow rate control valve 17 to increase the water temperature difference. The flow rate of the heat exchange water is increased to control the temperature difference to be small. In the case of heating operation, if the supply air temperature becomes lower than the set air supply temperature, the supply air temperature is increased by increasing the flow rate of the heat exchange water by the quantity adjustment valve (17) The flow rate of heat exchange water is reduced to control the supply air temperature to be lowered. When the supply air temperature becomes the set supply air temperature, when the water temperature difference is small, the flow rate of the heat exchange water is reduced by the flow rate control valve 17 to increase the water temperature difference. When the water temperature difference is larger than the set temperature difference, So that the water temperature difference is reduced. Thereby, control is performed so that both the supply air temperature, which is the temperature of air for air conditioning that has passed through the heat exchange coil, and the water temperature difference are set values.

When the air for air conditioning is cooled by the heat exchange coil 9, the above-mentioned set value is set such that the temperature of the heat exchange water at the inlet of the heat exchange coil 9 is 10 ° C to 12 ° C (preferably 10 ° C) (Preferably 10 ° C) and the temperature of the air for cooling air (air supply temperature) passing through the heat exchanger coil is 12 ° C to 14 ° C (preferably 13 ° C) The temperature of the heat exchange water at the inlet of the heat exchange coil 9 is set to 35 to 40 캜 (preferably 40 캜) and the heat exchange coil 9 is heated by the heat exchange coil 9, (Preferably 10 占 폚) and the temperature of air for air conditioning (air supply temperature) passing through the heat exchange coil is set to 30 占 폚 to 35 占 폚 (preferably 30 占 폚).

When the outside air temperature detected by the outside air temperature / humidity detector 18 reaches a predetermined set supply air temperature, the blowing control unit 24 operates the water amount adjusting mechanism (V) so that the heat exchange water flows in the heat exchange coil 9 And controls the air amount adjusting mechanism (D) so that all of the air for air-conditioning becomes outside air. For example, when the air supply temperature becomes the set air supply temperature when the air conditioning load is small, the flow rate of the heat exchange water is set to zero by the quantity adjustment valve 17 and the air flow rate of the air- The ratio is controlled to 100%. This is the so-called outdoor cooling in summer.

When the outside air temperature detected by the outside air temperature and humidity detector 18 exceeds the set air supply temperature and the outside air enthalpy is less than the ventilation enthalpy of the room, the entire outside air cooling control unit 25 controls the air flow rate adjusting mechanism D to operate And the flow rate of the heat exchange water is controlled by manipulating the quantity adjustment mechanism (V) so that the air supply air is all outside air and the supply air temperature is the set supply air temperature. For example, when the outside air is lower than the indoor air temperature and higher than the set air supply temperature during the summer season, the ventilation damper 5 and the outside air damper 4 control the outdoor air ratio of the air conditioning air to 100% The flow rate of the heat exchange water is controlled by the quantity control valve (17). The enthalpy of the outside air is calculated from the temperature and humidity of the outside air detected by the outside air temperature / humidity detector 18, and the ventilation enthalpy is calculated from the temperature and humidity of the ventilation detected by the ventilation temperature / humidity detector 19.

The winter cooling control unit 26 controls the cooling control unit 26 so that the outdoor air temperature detected by the outdoor air temperature / humidity detector 18 is lower than the set air supply temperature and the ventilation temperature detected by the ventilation temperature / humidity detector 19 exceeds the set ventilation temperature, 21), the flow of heat exchange water to the heat exchanging coil 9 is stopped by the water quantity adjusting mechanism (V), and the supply air temperature detected by the air supply temperature / humidity detector (30) The ventilation rate of the air for air conditioning is controlled by operating the air volume adjusting mechanism D so that the air supply air temperature becomes the set air supply temperature. For example, when the indoor ventilation temperature exceeds the set ventilation temperature and the outside air is lower than the set supply air temperature in the winter season, the flow control valve 17 is operated to set the flow rate of the heat exchange water to zero and the ventilation damper 5 and the outside air The ventilation rate of the air for air conditioning is increased by the damper 4 to raise the temperature so that the air supply temperature is controlled to be the set air supply temperature. When the supply air temperature becomes lower than the set supply air temperature even if the ventilation rate is increased until the concentration of carbon dioxide in the room detected by the carbon dioxide detector 21 becomes the set concentration, the air for air conditioning in the hot water of the heat exchange coil 9 is heated, And controls the temperature to be the set supply air temperature.

When the ventilation temperature detected by the ventilation temperature / humidity detector 19 is lower than the set ventilation temperature and the carbon dioxide concentration in the room detected by the carbon dioxide detector 21 is lower than the set concentration, the subcooling prevention controller 27 controls the subcooling prevention controller 27 so that the subcooling- The air flow rate is controlled by the air volume changing mechanism (E). For example, when the indoor ventilation temperature becomes lower than the set ventilation temperature during the operation of the various modes, the flow rate of the heat exchange water is minimized by the quantity adjustment valve 17, and the flow rate of the heat of the fan 10 The supply air volume is decreased to raise the ventilation temperature so as to control the set ventilation temperature.

When the absolute humidity of ventilation in the room detected by the ventilation temperature / humidity detector 19 is less than the preset absolute humidity of the ventilation, that is, the set ventilation absolute humidity, the humidification control unit 28 sets the absolute humidity of the ventilation air The amount of vapor emission of the vapor humidifier 2 is controlled so as not to exceed the upper limit of the absolute humidity. For example, when the set ventilation absolute humidity of the room is equal to or lower than the upper limit of the absolute humidity of the air supply, the set air humidity is set to the absolute humidity of the air supply, , The humidification is performed with the aim of the upper limit of the absolute humidity of the supply air. The upper limit of the absolute humidity of the air supply is a predetermined absolute humidity, which is lower than the absolute humidity of the air supply when the temperature of the air supply becomes the set air supply temperature and becomes the saturated moisture vapor (condensation).

The setting unit 29 sets the set air supply temperature of the air for air conditioning (air supply), the set ventilation temperature of the room, the set ventilation absolute humidity of the room, the set concentration of the carbon dioxide in the room, And the upper limit of the absolute humidity of the air supply are set. These set values may be a single numerical value or a numerical value within a predetermined range including a threshold value, and any of them may be selected.

5, when the outdoor air temperature is the set supply air temperature, when the cold water is flowing through the pipe 16, the mode determination unit 30 determines that the blowing operation and the outdoor air temperature exceed the set supply air temperature and the outdoor air enthalpy Is less than the indoor ventilation enthalpy, it is judged that the cooling operation is performed when the outdoor air cooling operation and the outdoor air temperature exceed the set air supply temperature and the ventilation temperature is higher than the set ventilation temperature. If the outdoor air temperature is the set air supply temperature and the outdoor air temperature is lower than the set air supply temperature and the ventilation temperature exceeds the set ventilation temperature when hot water flows through the pipe 16, If it is less than the supply air temperature and the ventilation temperature is lower than the set ventilation temperature, it is judged that the operation is heating operation.

3 is an example of a cold water mode operation. At the start of operation, a predetermined amount of heat exchange water (cold water) is supplied to the heat exchange coil 9 to supply a certain amount of air to the room at a rate of 100% of the air for air conditioning. Subsequently, in the case of the blowing operation, the heat exchange water (cold water) is stopped and the air for air conditioning is all outside air. In the case of the entire outside air cooling operation, all of the air for air conditioning is set to the outside air, and the cold water flow rate is set so that the temperature difference between the supply air temperature and the temperature of the heat exchange water at the outlet of the heat exchange coil 9 becomes the set value . In the cooling operation, the outdoor air ratio is controlled so that the carbon dioxide concentration of the air-conditioning air becomes a set value, and the cold water flow rate is controlled so that the air supply temperature and the water temperature difference become set values. If the ventilation temperature is lower than the set value during the ventilation operation, the cooling operation for the entire outdoor air, and the cooling operation, control is performed so that the ventilation temperature becomes the set value by reducing the air supply air volume within the range where the carbon dioxide concentration does not exceed the set value.

4 is an example of a hot water mode operation. At the start of operation, a predetermined number of heat exchange water (hot water) is supplied to the heat exchanger coil 9 to supply a constant air volume to the room at a rate of 100% Is controlled to be a set value. Subsequently, in the case of the air-blowing operation, the hot water is stopped and the air for air conditioning is all used as the outside air. In the case of the cooling operation during the winter season, the hot water is stopped and the ventilation rate of the air for air conditioning is controlled so that the air for air conditioning is once outside air and the air supply temperature becomes the set value within a range where the carbon dioxide concentration does not exceed the set value. In the case of the heating operation, the outdoor air ratio is controlled so that the carbon dioxide concentration of the air for air conditioning is a set value, and the hot water flow rate is controlled so that the air supply temperature and the water temperature difference become set values. If the ventilation temperature is lower than the set value during the ventilation operation, the winter cooling operation and the heating operation, control is performed so that the ventilation temperature becomes the set value by reducing the air supply air volume within the range where the carbon dioxide concentration does not exceed the set value.

Fig. 6 shows another embodiment, which is a case where a vertically long casing 1 is provided in a closed space CS provided in a part of a room other than the inside of the ceiling S as a simple machine room. In the wall portion 32 constituting the closed space CS, an outside air damper 4 for adjusting the air volume and a ventilation damper 5 are provided. The outside air is introduced into the closed space CS by the duct 36 which communicates with the outside-air damper 4. In the illustrated example, the closed space CS is composed of the wall portion 32, the bottom portion 33, and the partition portion 35, but the configuration thereof is free to be changed. The partitioning part 35 can be partitioned or the like.

The present invention is not limited to the above-described embodiment, and design modifications are possible within a range not deviating from the gist of the present invention. For example, the heat exchange coil 9 is a heat pump, The heat exchange may be performed. Further, only necessary ones among the detectors and the respective controllers of the control device 3 may be selected and used in combination, and the configuration thereof is freely changed. For example, it is also possible to omit control of the water temperature difference in the water quantity control section 23 and to control only the air supply temperature, or omit the supercooling prevention control section 27 so as not to control the ventilation temperature. In addition, the sequence of the cold water mode operation and the hot water mode operation and the process contents can be changed freely. For example, the air conditioning air is all outside the air immediately after the start of the cold water mode operation and the hot water mode operation, but the process may be changed to the process of adjusting the mixing ratio of the air conditioning air so that the carbon dioxide concentration becomes the predetermined concentration .

1 casing
2 steam humidifier
3 control device
6 air inlet
8 Supply duct
9 Heat exchange coil
10 fans
15 Heat pipe
222 carbon oxide control unit
23 quantity control unit
24 air blowing control section
25 Overall air cooling control unit
26 Winter Cooling Control Unit
27 supercooling prevention control section
28 Humidification control section
D air volume adjustment mechanism
E air volume conversion mechanism
V quantity adjustment mechanism

Claims (10)

A casing 1 in which outdoor air from outside and indoor air are introduced as air for air conditioning,
A heat exchange coil (9) installed in the casing (1) for flowing heat exchange water for cooling or heating the air for air conditioning,
A fan (10) installed in the casing (1) for blowing air for air conditioning through the heat exchange coil (9) to the room,
An air volume adjusting mechanism (D) for adjusting a mixing ratio of the outside air and the ventilation,
A quantity adjusting mechanism (V) for adjusting the flow rate of the heat exchange water,
And a control device (3)
The heat exchange coil (9) has an inlet and an outlet for the heat exchange water,
The control device (3)
A carbon dioxide control unit (22) for controlling the mixing ratio of the outside air and the ventilation by operating the air volume adjusting mechanism (D) so that the concentration of carbon dioxide in the room becomes a predetermined set concentration,
The flow rate of the heat exchange water is controlled by operating the quantity adjustment mechanism (V) so that the supply air temperature, which is the temperature of the air for air conditioning which has passed through the heat exchange coil (9), becomes a predetermined set supply air temperature, (23) for controlling the flow rate of the heat exchange water by operating the water quantity adjusting mechanism (V) so that the water temperature difference which is the difference between the temperature of the water and the temperature of the heat exchange water at the outlet is a predetermined set water temperature difference Outer front with air conditioning function. The air conditioner according to claim 1, wherein the air amount adjusting mechanism (D) introduces outside air from the outside and ventilation from the inside of the closed space (CS) installed in the ceiling interior (S)
Characterized in that the casing (1) has an air inlet (6) provided in the closed space (CS) for introducing the outside air and the ventilation in the closed space (CS) as air for air conditioning Outside early. 3. The air conditioning system according to claim 2, wherein when the air conditioning air is cooled by the heat exchange coil (9), the temperature of the heat exchange water at the inlet is set to 10 to 12 DEG C, the water temperature difference is set to 8 to 12 DEG C, Lt; RTI ID = 0.0 > 12 C < / RTI &
When the air for air conditioning is heated by the heat exchange coil 9, the temperature of the heat exchange water at the inlet is set to 35 to 40 DEG C, the temperature difference is set to 8 to 12 DEG C, Lt; RTI ID = 0.0 > C. ≪ / RTI > The control device (3) according to claim 2 or 3, wherein the control device (3)
When the temperature of the outside air becomes the set supply and demand air temperature, the flow of the heat exchange water to the heat exchange coil (9) is stopped by operating the quantity adjustment mechanism (V) A blowing control unit (24) for controlling all of the air conditioning air as the outside air,
Wherein when the temperature of the outside air exceeds the set supply air temperature and the outside air enthalpy is less than the ventilation enthalpy, the air amount adjusting mechanism (D) is operated to set all of the air for air conditioning as the outside air, A total outside air cooling control section 25 for controlling the flow rate of the heat exchange water by operating the quantity adjustment mechanism V so as to set the supply air temperature,
When the temperature of the outside air is lower than the set supply air temperature and the temperature of the ventilation exceeds a predetermined set ventilation temperature, the air flow rate adjusting mechanism (D) is operated so that the air supply temperature becomes the set supply air temperature And a winter cooling control section (26) for controlling a ratio of the ventilation in the air for air conditioning. The air conditioner according to claim 2 or 3, further comprising an air amount changing mechanism (E) for adjusting the air amount of the air for air conditioning to be sent to the room by the fan (10)
When the control device (3) controls the air amount changing mechanism (E) so that the temperature of the ventilation becomes the set ventilation temperature when the ventilation temperature is lower than a predetermined set ventilation temperature, And an overcooling prevention control unit (27) for controlling the air conditioning function. 4. The air conditioner according to claim 2 or 3, further comprising a vapor type humidifier (2) for discharging vapor for humidification to the air for air conditioning,
(2) is controlled such that the ventilation absolute humidity does not exceed the upper limit of the absolute humidity of the air for air conditioning when the control device (3) has a ventilation absolute humidity lower than a preset set ventilation absolute humidity And a humidification control unit (28) for controlling the humidity of the air. The outer furnace according to claim 2 or 3, wherein the heat transfer tube (15) of the heat exchange coil (9) is an elliptical tube. 5. The air conditioner according to claim 4, further comprising an air amount changing mechanism (E) for adjusting the air amount of the air for air conditioning to be sent to the room by the fan (10)
When the control device (3) controls the air amount changing mechanism (E) so that the temperature of the ventilation becomes the set ventilation temperature when the ventilation temperature is lower than a predetermined set ventilation temperature, And an overcooling prevention control unit (27) for controlling the air conditioning function. 5. The air conditioner according to claim 4, further comprising a vapor type humidifier (2) for discharging vapor for humidification to the air for air conditioning,
(2) is controlled such that the ventilation absolute humidity does not exceed the upper limit of the absolute humidity of the air for air conditioning when the control device (3) has a ventilation absolute humidity lower than a preset set ventilation absolute humidity And a humidification control unit (28) for controlling the humidity of the air. 6. The air conditioner according to claim 5, further comprising a vapor type humidifier (2) for discharging vapor for humidification to the air for air conditioning,
(2) is controlled such that the ventilation absolute humidity does not exceed the upper limit of the absolute humidity of the air for air conditioning when the control device (3) has a ventilation absolute humidity lower than a preset set ventilation absolute humidity And a humidification control unit (28) for controlling the humidity of the air.

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