JP2011099637A - Ion blowing system and ceiling-suspended cassette type air conditioner used for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ion blowing system capable of inhibiting the reduction of an ion generation amount by conditioned air, in particular, the cooling air of a low temperature and high humidity during cooling, and supplying a stable ion amount into a room, and to provide a ceiling-suspended cassette type air conditioner used for the same. <P>SOLUTION: The ion blowing system includes the cassette type ceiling-suspended air conditioner 1 provided on a ceiling and conditioning air in the room, and an ion generation device 23 generating ions by discharging a high voltage to air. In the ceiling-suspended cassette type air conditioner 1, a flow passage system 17 for conditioned air and a flow passage system 15 for the ions generated by the ion generation device 23 are separately provided. A conditioned air blow-out opening 18 for blowing out the conditioned air into the room and an ion blow-out opening 16 for blowing out the ion into the room are arranged side by side. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an ion blower system for improving indoor air environments of various buildings, schools, hospital buildings, and the like, and a ceiling cassette type air conditioner used therefor.

  2. Description of the Related Art Conventionally, an ion generator using a high voltage discharge method that generates negative ions and positive ions by high voltage discharge with respect to moist air containing moisture is known. The amount of ion generation depends on the amount of moisture held by the air in the vicinity of the generator, and the amount of generation may be extremely reduced depending on the relative humidity and the temperature.

  In general, an ion generator using a high-voltage discharge method stably generates ions if the temperature is in the range of 15 to 35 ° C. and the relative humidity is in the range of 30 to 85%. Becomes unstable.

  Further, even when air containing ions passes through an obstacle on the flow path, a considerable number of ions are lost due to physical collision.

  For example, as shown in Patent Documents 1 to 6, in the case of an apparatus in which an ion generator is incorporated in an air conditioner that heats or cools air, these factors cause a stable amount of ions. Can be difficult. That is, if an ion generator is provided in front of a heat exchanger that heats or cools air, a considerable number is lost due to collision when the generated ions pass through the heat exchanger.

  If an ion generator is provided on the suction side of the fan, a considerable number is lost due to collision with the fan blades when the generated ions are sent out by the fan.

  Furthermore, when an ion generator is provided on the rear side (downstream side of the air flow) of the heat exchanger that heats or cools the air, the air cooled by the heat exchanger has a high humidity exceeding 90% relative humidity. In addition, when heated, the relative humidity becomes very low, and the amount of ions generated becomes unstable.

JP 2002-286250 A JP 2004-108726 A JP 2004-324927 A JP 2005-134016 A JP 2005-337611 A JP 2007-183070 A

  For this reason, the amount of ion generation due to conditioned air blown out from the air conditioner, particularly the decrease in ion generation due to low-temperature and high-humidity cooling air during cooling, is suppressed, and a stable amount of ions is supplied indoors. The development of technology that can do this has been desired.

  The present invention has been made in view of the above, and suppresses a decrease in the amount of ions generated by conditioned air, particularly low-temperature and high-humidity cooling air during cooling, and can supply a stable amount of ions indoors. It is an object of the present invention to provide an ion blower system that can be used and a ceiling-suspended cassette type air conditioner used therefor.

  In order to solve the above-described problems and achieve the object, an ion blower system according to claim 1 of the present invention is provided on a ceiling and is a cassette-type ceiling-suspended cassette-type air conditioner that air-conditions a room, and air An ion generator for generating ions by high-voltage discharge, and in the ceiling-suspended cassette type air conditioner, a flow path system for conditioned air, and a flow path system for ions generated by the ion generator, And the conditioned air outlet for blowing out the conditioned air into the room and the ion outlet for blowing out the ions into the room are arranged side by side.

  An ion blowing system according to a second aspect of the present invention is the ion blowing system according to the first aspect, wherein the ion generation device is provided outside the ceiling cassette type air conditioner and is generated by the ion generation device. Is supplied to the channel system for ions in the ceiling-suspended cassette type air conditioner through a duct.

  Further, the ion blowing system according to claim 3 of the present invention is the above-described ion blowing system according to claim 1 or 2, wherein the ion channel system is separately provided along the outside of the conditioned air channel system. The conditioned air outlet and the ion outlet are arranged side by side at positions close to each other.

  Moreover, the ion ventilation system which concerns on Claim 4 of this invention is long in the any one of Claims 1-3 mentioned above near the both ends of the longitudinal side of the ceiling panel of the said ceiling-suspended cassette type air conditioner. Long holes extending in parallel with each other are arranged, the inner long hole is used as the conditioned air outlet, and the outer long hole is used as the ion outlet.

  Moreover, the ion ventilation system which concerns on Claim 5 of this invention is generated by the said ion generator in any one of Claims 1-4 mentioned above irrespective of the driving | running state of the said suspension cassette type air conditioner. The apparatus further comprises air supply means for blowing out ions to be discharged from the ion outlet.

  Moreover, the ion ventilation system which concerns on Claim 6 of this invention is connected to the said ion generator through the duct in any one of Claims 1-5 mentioned above, The air conditioner for external air processing which air-conditions external air And the ion generator generates ions by high-voltage discharge of the conditioned air of the outside air processing air conditioner.

  Moreover, the ion ventilation system which concerns on Claim 7 of this invention is connected to the said ion generator through the duct in any one of Claims 1-6 mentioned above, and air-conditions the return air from the room | chamber interior and external air The desiccant air conditioner is further provided, and the ion generator is configured to generate ions by high voltage discharge to the conditioned air of the desiccant air conditioner.

  Moreover, the ion ventilation system which concerns on Claim 8 of this invention has the temperature / humidity sensor for detecting the humidity in the room | chamber interior and the said ion generator in any one of Claims 1-7 mentioned above, Adjusting the air supplied to the ion generator to a predetermined relative humidity based on the humidity detected by the temperature and humidity sensor, and providing ion generation amount stabilization means for stabilizing the amount of ions generated from the ion generator. Features.

  Moreover, the ion ventilation system which concerns on Claim 9 of this invention has the ion sensor for detecting the ion concentration of a room | chamber interior in any one of Claim 1-8 mentioned above, The detection ion by the said ion sensor It is characterized by comprising ion concentration adjusting means for adjusting the ion concentration blown out from the ion outlet based on the concentration.

  Moreover, the ion ventilation system which concerns on Claim 10 of this invention has an ion sensor for detecting the indoor ion concentration distribution in any one of Claims 1-9 mentioned above, The detection by the said ion sensor Ion blowing direction adjusting means for adjusting the blowing direction of ions blown out from the ion blowing port based on the ion concentration distribution is provided.

  A ceiling-suspended cassette type air conditioner according to claim 11 of the present invention is a ceiling-suspended cassette type air conditioner used in the ion blowing system according to any one of claims 1 to 10 described above.

  According to the ion blower system of the present invention, it is provided with a cassette-type ceiling-suspended cassette type air conditioner that is provided on the ceiling and air-conditions the room, and an ion generator that generates ions by high-voltage discharge to the air, In the ceiling-suspended cassette type air conditioner, a conditioned air channel for conditioned air and a channel system for ions generated by the ion generator are provided separately, and the conditioned air is blown into the room. Since the blowout port and the ion blowout port for blowing out the ions into the room are arranged side by side, the ion blowout port is not affected by changes in relative humidity due to cooling or heating of the air by the ceiling-suspended cassette type air conditioner. A stable amount of ions can be secured. For this reason, the reduction | decrease of the ion generation amount by the low temperature and the high humidity cooling air at the time of cooling can be suppressed, and the stable ion amount can be supplied indoors.

FIG. 1 is a sketch showing an embodiment of a ceiling-suspended cassette type air conditioner of the present invention. FIG. 2 is a cross-sectional view showing a ceiling-suspended cassette type air conditioner of the present invention. FIG. 3 is a cross-sectional view showing the air flow inside the ceiling-suspended cassette type air conditioner of the present invention. FIG. 4 is a top view showing a ceiling-suspended cassette type air conditioner of the present invention. FIG. 5 is a bottom view showing the ceiling cassette type air conditioner of the present invention. FIG. 6 is a cross-sectional view of Embodiment 1 of the ion blowing system of the present invention. 7-1 is sectional drawing of Embodiment 2 of the ion ventilation system of this invention. 7-2 is sectional drawing of Embodiment 3 of the ion ventilation system of this invention. FIG. 8 is a sketch showing a conventional standard ceiling-suspended cassette type air conditioner. FIG. 9 is a cross-sectional view showing an example in which an ion generating element is built in a conventional standard ceiling-suspended cassette type air conditioner. FIG. 10 is a cross-sectional view showing the air flow inside an example in which an ion generating element is built in a conventional standard ceiling-suspended cassette type air conditioner. FIG. 11 is a bottom view showing a conventional standard ceiling-suspended cassette type air conditioner. FIG. 12 is an explanatory cross-sectional view showing a state in which the amount of ions actually blown into a room is measured by using an ion generator with a built-in fan connected to the ceiling-suspended cassette type air conditioner of the present invention. It is. FIG. 13 is a sketch diagram showing a measurement point and a jig for measuring the amount of ions blown into the room used in the ceiling-suspended cassette type air conditioner of the present invention. FIG. 14 is an explanatory cross-sectional view showing a state in which the amount of ions actually blown into a room is measured using a conventional standard ceiling-suspended cassette type air conditioner incorporating an ion generating element. It is. FIG. 15 is a sketch diagram showing a measurement point and a jig for measuring the amount of ions blown into a room used in a conventional ceiling-suspended cassette type air conditioner. FIG. 16 is a graph showing the results of Table 1.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an ion blowing system according to the present invention and a ceiling-suspended cassette type air conditioner used therefor will be described in detail based on the drawings. Note that the present invention is not limited to the embodiments.

[Ceiling-suspended cassette type air conditioner]
As shown in FIGS. 1 to 5, the ceiling-suspended cassette type air conditioner 1 according to the present invention is a cassette-type indoor air conditioning unit attached to a ceiling surface of a room to be air-conditioned. In the main body 11 of the ceiling-suspended cassette type air conditioner 1, a blower 14 and a heat exchanger 12 are built in, a conditioned air flow path 17 as a flow path system for conditioned air, and an ion generator (not shown). And an ion air channel 15 as a channel system for ions generated by the above.

  A ceiling panel 6 having an inspection panel 5 is provided on the lower surface of the main body 11. The ceiling panel 6 has a conditioned air outlet 18 for blowing conditioned air from the conditioned air flow path 17 into the room, and an ionic air flow. An ion outlet 16 for blowing out ions from the path 15 into the room is arranged side by side.

  The ion outlet 16 and the conditioned air outlet 18 are elongated holes extending in parallel to the longitudinal direction near both ends of the ceiling panel 6 on the long side, the ion outlet 16 is on the outside, and the conditioned air outlet 18 is on the inside. Has been placed. In addition, an air suction port 19 is disposed inside the conditioned air blowing port 18.

  A partition 20 for isolating the conditioned air flow path 17 that circulates in the main body 11 and the ions is provided at the longitudinal side wall in the main body 11, and the ion air flow path 15 is formed by the partition 20. Yes. The flow path 15 communicates with an ion duct connection port 2 provided at substantially the center of both side surfaces on the longitudinal side of the main body 11 so that ion air can be supplied from two directions. Further, an air volume distribution duct 21 is provided between the conditioned air flow path 17 and the conditioned air outlet 18 to distribute the air volume sent from the conditioned air path 17 to the conditioned air outlets 18 on both sides.

  The blowout ports 16 and 18 are respectively provided with a movable ion blowing louver 3 (ion blowing direction adjusting means) and a conditioned air blowing louver 4 so that the direction of the blowing airflow can be adjusted.

  A pipe connection port (cold / hot water inlet) 8, a pipe connection port (cold / hot water outlet) 9, and a drain pipe connection port 13 are provided on the side surface of the main body 11 to communicate with a heat exchanger 12 for cooling and heating air. It has been. Moreover, a terminal block 10 for wiring connection for operating the built-in blower 14 is provided. A suspension hole 7 for attaching to the ceiling is provided in the upper part of the main body 11.

The operation and action of the above configuration will be described.
As shown in FIG. 3, indoor air is sucked into the blower 14 through the air suction port 19. The air blower 14 sends this air to the heat exchanger 12 to be conditioned air by cooling during cooling and heating during heating. The conditioned air passes through the conditioned air flow path 17 and the air volume distribution duct 21, passes through the conditioned air outlet 18 partitioned by the conditioned air outlet louver 4 and the ion outlet louver 3, and is blown out into the room as cold air or hot air. Cooling or heating is performed.

  At the same time, air containing ions is blown into the ion air flow path 15 from the ion air duct 22 connected to the ion duct connection port 2, and sent into the room through the ion blowing port 16.

  As described above, by separately providing the long hole-like ion blower port 16 extending in parallel with the outside of the long hole-like conditioned air blower port 18, ion generation that is easily affected by the temperature and humidity of the conditioned air is generated. In addition to stabilizing the amount, the ions can be placed on the conditioned air by blowing them out simultaneously with the conditioned air so that the ions can reach every corner of the room.

  Further, even when the ceiling-suspended cassette type air conditioner is stopped, only air containing ions is blown out into the room by blowing out ions from the ion outlet 16 with a fan provided on the ion generator (not shown). You can also.

  As described above, a stable amount of ions can be secured at the ion outlet 16 without being affected by changes in relative humidity due to air cooling or heating by the ceiling-suspended cassette type air conditioner 1. For this reason, for example, it is possible to suppress a decrease in the amount of ions generated due to low-temperature and high-humidity cooling air during cooling, and supply a stable amount of ions into the room.

[Ion ventilation system: Embodiment 1]
FIG. 6 is a cross-sectional view showing the first embodiment of the ion blowing system of the present invention.
As shown in FIG. 6, an ion blowing system 100 according to Embodiment 1 of the present invention is configured by connecting a fan built-in ion generator 23 to the ceiling-suspended cassette type air conditioner 1.

  The ceiling-suspended cassette type air conditioner 1 is installed in the ceiling on the back side of the ceiling board 27 having the inspection port 28. From the room, an air suction port 19 (not shown) and a blowing grill made of blowing ports 16 and 18 are provided. Only the provided ceiling panel 6 is visible.

  For convenience, FIG. 6 shows both a case where outside air is directly taken in and a case where indoor air is sucked and circulated. Moreover, although not shown in figure, the connection duct 22 of the exit side of the ion generator 23 with a built-in fan branches in the middle, and it is similarly applied to the ion duct connection port 2 on the left side of the ceiling-suspended cassette type air conditioner 1 in the figure. Connected.

  The ceiling-suspended cassette type air conditioner 1 sucks air R from the room, blows out the conditioned air R1 into the room through the blower 14, the heat exchanger 12, and the air volume distribution duct 21, and performs air conditioning.

  On the other hand, the fan built-in ion generator 23 incorporates a fan 23b as an air supply means and an ion generating element 23a, and passes through the return air grill 25 and the duct 24 provided on the ceiling board 27 and the indoor air Sa or the outdoor vent. The outside air Sb is sucked through the cap 26, and the ion generating element 23a performs high voltage discharge on the sucked air, thereby generating positive ions and negative ions, respectively. And the air S containing this ion is sent to the ceiling-suspended cassette type air conditioner 1 of the present invention through the duct 22.

  In the ion generator 23 with a built-in fan, when the indoor air Sa is sucked in, the state of the air that is ventilated to the ion generating element 23a is the indoor air Sa itself, and the most suitable range for the operation of the ion generating element 23a in both temperature and humidity Thus, it is possible to generate a stable amount of ions.

  Even when the outside air Sb is sucked, the state of the air that is ventilated to the ion generating element 23a is almost always within the allowable operating range of the ion generating element 23a for both temperature and humidity, so that stable ion generation is possible. Can be done.

  The air S containing ions taken in from the duct 22 is blown out into the room as the air S1 containing ions from the ion outlet 16 of the ceiling panel 6 through the ion air flow path 15 of the ceiling-suspended cassette type air conditioner 1. Increase ion concentration in room air.

  As described above, according to the ion blowing system 100 of the first embodiment of the present invention, the ion blowing system 16 is stable without being affected by changes in relative humidity due to cooling or heating of the air by the ceiling-suspended cassette type air conditioner 1. Can be ensured. For this reason, for example, it is possible to suppress a decrease in the amount of ions generated due to low-temperature and high-humidity cooling air during cooling, and supply a stable amount of ions into the room.

[Ion ventilation system: Embodiment 2]
7-1 is sectional drawing which shows Embodiment 2 of the ion ventilation system of this invention.
As shown in FIG. 7A, an ion blowing system 200 according to the second embodiment of the present invention includes an ion generator 30 in which only the ion generating element 30a is built in the ceiling-suspended cassette type air conditioner 1, and the outside air. A compact air conditioner 34 for processing (air conditioner for outside air processing) is connected.

  The ceiling-suspended cassette type air conditioner 1 is installed in the ceiling on the back side of the ceiling board 32 having the inspection port 33. From the room, an air suction port 19 (not shown) and a blowing grill made of the blowing ports 16 and 18 are provided. Only the provided ceiling panel 6 is visible.

  Although not illustrated in FIG. 7A, the connection duct 29 on the outlet side of the ion generator 30 branches in the middle, and the ion duct connection port 2 on the left side of the ceiling-suspended cassette type air conditioner 1 in the drawing. Is connected in the same way. Further, the cooling and heating of the air sucked from the room is performed to cool and heat the room as in FIG.

  The ion generator 30 has a built-in ion generating element 30a and does not have a fan. On the other hand, the compact air conditioner 34 for treating the outside air has a blower 35, and the air Sd from the blower 35 is sent to the ion generator 30 through the duct 31. The ion generating element 30a performs high voltage discharge on the air Sd that is sent in, thereby generating positive ions and negative ions, respectively. The air S containing the ions is blown to the ceiling-suspended cassette type air conditioner 1 of the present invention through the duct 29.

  In the compact air conditioner 34 for treating the outside air, the outside air Sc taken in the duct 36 is cooled or heated to a state close to the room temperature and humidity by the built-in air filter 34a, heat exchanger 34b and humidifier 34c. The air is blown from. For this reason, the state of the air that is ventilated to the ion generating element 30a is in a range that is most suitable for the operation of the ion generating element 30a for both temperature and humidity, and stable ion generation can be performed.

  The air S containing ions taken in from the duct 29 is blown out into the room as the air S1 containing ions from the ion outlet 16 of the ceiling panel 6 through the ion air flow path 15 of the ceiling-suspended cassette type air conditioner 1. Increase ion concentration in room air.

  As described above, according to the ion blowing system 200 of Embodiment 2 of the present invention, the ion blowing system 16 is stable without being affected by changes in relative humidity due to cooling or heating of air by the ceiling-suspended cassette type air conditioner 1. Can be ensured. For this reason, for example, it is possible to suppress a decrease in the amount of ions generated due to low-temperature and high-humidity cooling air during cooling, and supply a stable amount of ions into the room.

[Ion ventilation system: Embodiment 3]
7-2 is sectional drawing which shows Embodiment 3 of the ion ventilation system of this invention.
As shown in FIG. 7-2, an ion blowing system 300 according to Embodiment 3 of the present invention includes an ion generator 30 in which only the ion generating element 30a is built in the ceiling-suspended cassette type air conditioner 1, and an outside air. A compact desiccant air conditioner 56 including processing is connected to the configuration.

  The ceiling-suspended cassette type air conditioner 1 is installed in the ceiling on the back side of the ceiling board 32 having the inspection port 33. From the room, an air suction port 19 (not shown) and a blowing grill made of the blowing ports 16 and 18 are provided. Only the provided ceiling panel 6 is visible.

  Although not shown in FIG. 7-2, the connection duct 29 on the outlet side of the ion generating device 30 branches in the middle, and the ion duct connection port 2 on the left side of the ceiling-suspended cassette type air conditioner 1 in the figure. Is connected in the same way. Further, the cooling and heating of the air sucked from the room to cool and heat the room is the same as in FIGS. 6 and 7-1.

  The ion generator 30 has a built-in ion generating element 30a and does not have a fan. On the other hand, the desiccant air conditioner 56 has an air supply blower 62, and the air Se from the air supply blower 62 is sent to the ion generator 30 through the air supply duct 65. The ion generating element 30a performs high-voltage discharge on the air Se that is sent in, thereby generating positive ions and negative ions, respectively. The air S containing the ions is blown to the ceiling-suspended cassette type air conditioner 1 of the present invention through the duct 29.

  In the desiccant air conditioner 56, the return air Re is taken in from the room through the return air duct 64, sensible heat exchange is performed by the sensible heat exchanger 59, heating is performed by the regenerative heater 58, and after passing through the desiccant rotor 57, the exhaust blower 61 is used outdoors. Are exhausted (denoted as EA in the figure).

  Outside air taken from outside (denoted as OA in the figure) is purified by the air filter 63, sent by the air supply blower 62, dehumidified by the desiccant rotor 57, passes through the sensible heat exchanger 59, and passes through the cooling coil 60. After being adjusted to a predetermined temperature, air is supplied to the ion generator 30 through the air supply duct 65 as air Se of the air supply air.

  Since the outside air OA taken from outside is dehumidified by the desiccant air conditioner 56 and then blown, the state of the air ventilated to the ion generating element 30a is most suitable for the operation of the ion generating element 30a in both temperature and humidity. It is a range and can generate stable ions.

  The air S containing ions taken in from the duct 29 is blown out into the room as the air S1 containing ions from the ion outlet 16 of the ceiling panel 6 through the ion air flow path 15 of the ceiling-suspended cassette type air conditioner 1. Increase ion concentration in room air.

  As described above, according to the ion blowing system 300 of Embodiment 3 of the present invention, the ion blowing system 16 is stable without being affected by changes in relative humidity due to cooling or heating of the air by the ceiling-suspended cassette type air conditioner 1. Can be ensured. For this reason, for example, it is possible to suppress a decrease in the amount of ions generated due to low-temperature and high-humidity cooling air during cooling, and supply a stable amount of ions into the room.

[Comparison of the present invention and conventional effects]
Next, the measurement which compared the effect of the ceiling-suspended cassette type air conditioner of this invention and the conventional ceiling-suspended cassette type air conditioner is demonstrated.

  As shown in FIGS. 8 to 11, the conventional ceiling-suspended cassette type air conditioner 37 has an ion generating element 50 incorporated in a conditioned air flow path 48 provided in a main body 45, and is sucked from the room. Further, positive ions and negative ions are given to the air cooled or heated by the heat exchanger 52 (conditioned air), and the conditioned air containing the ions is blown out indoors by the blower 47.

  A ceiling panel 38 having an inspection panel 40 is provided on the lower surface of the main body 45, and a conditioned air outlet for blowing conditioned air from the conditioned air channel 48 into the room is disposed on the ceiling panel 38. The conditioned air outlet is a long hole extending in parallel to the longitudinal direction near both ends on the longitudinal side of the ceiling panel 38. The conditioned air outlet is provided with a movable conditioned air outlet louver 39 so that the direction of the outlet airflow can be adjusted.

  An air volume distribution duct 51 is provided between the conditioned air channel 48 and the conditioned air outlet 48 to distribute the air volume sent from the conditioned air channel 48 to the conditioned air outlets on both sides. An air suction port 49 is disposed inside the conditioned air outlet.

  A pipe connection port (cold / hot water inlet) 42, a pipe connection port (cold / hot water outlet) 43, and a drain pipe connection port 46 leading to a heat exchanger 52 for cooling and heating air are provided on the side surface of the main body 45. It has been. Further, a wiring connection terminal block 44 for operating the built-in blower 47 is provided. A suspension hole 41 for attaching to the ceiling is provided in the upper part of the main body 45.

  By the way, like the above-described conventional ceiling-suspended cassette type air conditioner 37, the downstream side of the heat exchanger 52 that cools or heats the air (when viewed from the air flow, air passes through the heat exchanger first. When the ion generating element 50 as an ion generating device is provided on the downstream side), the air cooled by the heat exchanger 52 is in a high humidity state in which the relative humidity exceeds 90% and is heated. The relative humidity becomes very low, and the amount of ions generated is not stable.

  As described above, the ion generator using the high voltage discharge method stably generates ions if the temperature is within the range of 15 to 35 ° C. and the relative humidity is within the range of 30 to 85%. The amount generated becomes unstable.

  Therefore, the inventor of the present invention has a configuration in which only the ion generating element 50 is incorporated in such a conventional ceiling-suspended cassette type air conditioner 37 and an independent structure such as the ceiling-suspended cassette type air conditioner 1 of the present invention. In order to understand how much the amount of ions actually blown into the room is different with the configuration having the ion air flow path 15, the effect of the cold air during the cooling operation on the increase or decrease in the number of negative ions generated is tested. The results shown in Table 1 were obtained.

  In Table 1, Example 1 and Example 2 have a configuration in which an ion generator 23 incorporating a fan 23a is connected to the ceiling-suspended cassette type air conditioner 1 of the present invention as shown in FIGS. It is the result of actually measuring the amount of ions blown into the room. As shown in FIGS. 12 and 13, an ion number measuring jig 53 is installed on the lower surface of the air outlet of the ceiling panel, and the minus contained in the outlet air by the ion counter 54 inserted from the ion counter insertion opening 55. The number of ions is measured at 8 points for measurement points 1 to 8.

  Example 1 of Table 1 is a case where only the ventilation by the fan 23a is performed, and the ceiling-suspended cassette type air conditioner 1 (indicated as FCU in Table 1) is stopped. The second embodiment is a case where the FCU is weakly cooled and air-cooled while the fan 23a is ventilating. In Table 1, the number of ions measured at the measurement point 6 of Example 1 is set to 1, and the number of ions at other measurement points is expressed as a ratio.

  Further, in Comparative Example 1 and Comparative Example 2, the ion generating element 50 is built in the conventional ceiling-suspended cassette type air conditioner 37 as shown in FIGS. It is the result of actually measuring the amount, and is expressed as a ratio with the measured value of the number of ions at the measurement point 6 of Example 1 being 1, as described above. As shown in FIGS. 14 and 15, also in the conventional ceiling-suspended cassette type air conditioner 37, the ion number measuring jig 53, the ion counter insertion opening 55 and the ion counter 54 are the same as in FIGS. The number of negative ions is measured at 8 locations.

FIG. 16 is a graph of the results in Table 1.
As shown in FIG. 16 and Table 1, Example 1 is a case where the operation of the ceiling-suspended cassette type air conditioner 1 is stopped and air is blown only from the fan built-in ion generator 23, but at any measurement point. The ratio of the number of ions shows a stable value within a range of about 0.91 to 1.07.

  Further, Example 2 is a case where the ceiling-suspended cassette type air conditioner 1 is cooled with a low fan and blown from the ion generator 23 with a built-in fan, but the ratio of the number of ions is 0 at any measurement point. It shows a stable value in the range of about .90 to 1.04.

  On the other hand, the comparative example 1 is a case where only the fan (blower) 47 is operated weakly without cooling in the heat exchanger 52 with respect to the configuration in which the ion generating element 50 is incorporated in the conventional ceiling-suspended cassette type air conditioner 37. However, the ratio of the number of ions is as wide as 0.27 to 1.04, and the variation in the number of ions depending on the measurement point is large. Comparative Example 2 is a case where cooling is performed by the heat exchanger 52, but the total number of ions is reduced to about half compared to the case where only the fan 47 is operated, and the ratio of the number of ions is 0.11 to 0. .86, the variation from measurement point to measurement point is large. As is apparent from the graph of FIG. 16, it can be seen that the example side has a clear advantage over the comparative example.

  Thus, as is apparent from the test results of Examples 1 and 2, according to the present invention, the number of generated ions is stabilized by eliminating the influence of cooling of the air, and from the ion generator through the duct. Since the air is blown, there is very little variation in the number of ions, and it can be seen that ions are blown out uniformly from the ion blowing louver.

  It should be noted that indoor air conditioners generally have a large deviation between the room temperature and the set temperature at the start of cooling or heating operation, so that the fan is strongly operated and automatically operated so as to quickly reach a predetermined temperature. . In a steady state after reaching the set temperature, the fan operates continuously at a low level, and control is performed to keep the set room temperature constant by controlling the amount of the heat medium on the heat source side. In this test, a test assuming continuous operation with a weak fan assuming a steady state is performed, and the actual use state is reproduced.

  In the above embodiment, when it is intended to keep the ion concentration in the room at a certain level or more, it is necessary to distribute the air containing the ions to every corner of the room. The ions start to decrease from the moment they are blown into the room.

  In general, the air blown from an elongated slit-like blow grill having a louver or the like is determined by the width of the blow grill if the blow wind speed is constant.

  In the above embodiment, the conditioned air blowout port of the ceiling-suspended cassette type air conditioner and the ion blowout port of air containing ions are provided side by side on the ceiling panel. By blowing out air simultaneously from the mouth, as a result, the same effect as when the width of the blowing grill is widened is obtained, and the reach distance in the room is extended. As a result, air containing ions can be placed on the air-conditioning wind and spread throughout the room. Needless to say, even when the ceiling-suspended cassette type air conditioner is stopped, only air containing ions can be blown into the room.

  By the way, the discharge efficiency of the ion generating element in the ion generating device generally decreases when the relative humidity is 80% or more. Therefore, in the present invention, as an anti-condensation measure in the ceiling-suspended cassette type air conditioner during cooling, the ion generating device is not installed in the ceiling-suspended cassette type air conditioner. Yes.

  Further, in the present invention, the air supplied to the ion generating element is adjusted to 80% or less relative humidity by not only supplying the outside air but also mixing the indoor return air or the dry air from the desiccant device with the outside air. It also proposes to generate ions stably throughout the year. By doing so, it is a countermeasure against high humidity in the rainy season and summer, and a countermeasure against humidified air from an air conditioner for treating outside air during heating. The humidity management can be performed by installing a temperature / humidity sensor or the like in the room, in the duct, in the ion generator, or the like.

  In this case, the air supplied to the ion generator may be adjusted to a predetermined relative humidity based on the humidity detected by the temperature / humidity sensor to stabilize the amount of ions generated from the ion generator (ion generation amount stabilization means). ).

  Further, as a method of indoor ion concentration management, a plurality of ion sensors may be installed in the room to grasp the ion concentration distribution in the room. As the ion sensor, a sensor capable of measuring positive ions and negative ions based on a principle such as a capacitor ion density measuring device can be used. Based on the ion concentration detected by the ion sensor, by grasping the ion concentration and ion concentration distribution in the room, the ion concentration (positive ion only, negative ion only, or The adjustment control of the positive ions and the negative ions at the same time may be performed (ion concentration adjusting means).

  The ion concentration is adjusted by mounting a plurality of negative ion generating elements and positive ion generating elements on the ion generating apparatus of the ion blowing system of the present invention, and adjusting the number of operating ion generating elements or operating ion generation. This can be done by changing the voltage applied to the element. Also, the ion diffusion range may be adjusted by adjusting the fan speed of the ion generator and the wind speed based on the ion concentration detected by the ion sensor, or the angle of the ion blowing louver may be adjusted. Control may be performed to change the direction of ion emission.

  As described above, according to the ion blowing system of the present invention, the cassette-type ceiling-suspended cassette type air conditioner that is provided on the ceiling and air-conditions the room, and ion generation that generates ions by high-voltage discharge to the air A conditioned air flow path system and an ion flow path system generated by the ion generator are provided in the ceiling-suspended cassette type air conditioner, and the conditioned air is placed indoors. Since the conditioned air outlet for blowing air and the ion outlet for blowing out the ions into the room are arranged side by side, it is not affected by changes in relative humidity due to air cooling or heating by the ceiling-suspended cassette type air conditioner In addition, a stable amount of ions can be secured at the ion outlet. For this reason, the reduction | decrease of the ion generation amount by the low temperature and the high humidity cooling air at the time of cooling can be suppressed, and the stable ion amount can be supplied indoors.

  As described above, the ion blowing system according to the present invention and the ceiling-suspended cassette type air conditioner used therein are useful for suppressing a decrease in the amount of ions generated by the conditioned air and supplying a stable amount of ions indoors. In particular, it is suitable for suppressing a decrease in the amount of ions generated due to low-temperature and high-humidity cooling air during cooling and supplying a stable amount of ions into the room.

1 Ceiling-suspended cassette type air conditioner 2 Ion duct connection port 3 Ion blowing louver (Ion blowing direction adjusting means)
4 Harmonized air blowout louver 5 Inspection panel 6 Ceiling panel 7 Hanging hole 8 Piping connection port (cold / hot water inlet)
9 Piping connection port (cold / hot water outlet)
DESCRIPTION OF SYMBOLS 10 Terminal block 11 Ceiling-suspended cassette type air conditioner body 12 Heat exchanger 13 Drain piping connection port 14 Blower 15 Ion air flow path (flow path system for ions)
16 Ion outlet 17 Harmonic air flow path (flow path system for conditioned air)
18 Harmonic Air Outlet 19 Air Suction Port 20 Partition 21 Air Volume Distribution Duct 22 Ion Air Duct 23 Fan Built-in Ion Generator (Ion Generator)
23a Ion generating element 23b Fan (air supply means)
24 Duct 25 Return air grill (indoor air inlet)
26 Vent cap (outside air inlet)
27 Ceiling board 28 Inspection port S Ion air flow Sa Indoor air suction flow Sb Outside air suction flow Sc External air flow Sd Supply air flow S1 Ion air blowing flow R Indoor air suction flow R1 Harmonic air blowing flow 29 Ion air duct 30 Ion generator (fan) None type)
30a Ion generating element 31 Duct 32 Ceiling board 33 Inspection port 34 Compact air conditioner for outside air treatment (air conditioner for outside air treatment, air handling device)
34a Air filter 34b Heat exchanger 34c Humidifier 35 Blower 36 Outside air intake duct 37 Conventional ceiling cassette type air conditioner 38 Ceiling panel 39 Harmonic air blowing louver 40 Inspection panel 41 Suspension hole 42 Piping connection port (cold hot water inlet)
43 Piping connection port (Cold / hot water outlet)
44 Terminal block 45 Ceiling-suspended cassette type air conditioner main body 46 Drain piping connection port 47 Blower 48 Air conditioning channel 49 Air suction port 50 Ion generating element 51 Air flow distribution duct 52 Heat exchanger 53 Ion number measurement jig 54 Ion counter (Ion content meter)
55 Ion counter insertion opening 56 Desiccant air conditioner 57 Desiccant rotor 58 Regenerative heater 59 Sensible heat exchanger 60 Cooling coil 61 Exhaust blower 62 Supply air blower 63 Air filter 64 Return air duct 65 Supply air duct Se Supply air Re Return air flow 100 Ion blower system (Embodiment 1)
200 Ion blower system (Embodiment 2)
300 Ion ventilation system (Embodiment 3)

Claims (11)

A cassette-type ceiling-suspended cassette-type air conditioner that is installed on the ceiling and air-conditioned the room
An ion generator that generates ions by high-voltage discharge to air,
In the ceiling-suspended cassette type air conditioner, a conditioned air flow path system and an ion flow path system generated by the ion generator are separately provided, and the conditioned air is blown into the room. An ion blowing system, wherein an air blowing port and an ion blowing port for blowing out the ions into a room are arranged side by side.   The ion generating device is provided outside the ceiling-suspended cassette type air conditioner, and ions generated by the ion generating device are flow paths for the ions in the ceiling-suspended cassette type air conditioner through a duct. The ion blower system according to claim 1, wherein the ion blower system is supplied to a system.   The ion channel system is separately provided along the outside of the conditioned air channel system, and the conditioned air outlet and the ion outlet are arranged in parallel to each other. The ion ventilation system according to claim 1 or 2.   Long holes extending in parallel with the longitudinal direction are arranged near both ends of the ceiling panel of the ceiling-suspended cassette type air conditioner, and the inner long holes serve as the conditioned air outlets, and the outer long holes The ion blowing system according to any one of claims 1 to 3, wherein a hole is used as the ion blowing port.   5. The air supply device according to claim 1, further comprising an air supply unit that blows out ions generated by the ion generator from the ion outlet regardless of an operating state of the ceiling-suspended cassette type air conditioner. Ion blower system as described in one.   The apparatus further comprises an outside air processing air conditioner that is connected to the ion generating device through a duct and air-conditions outside air, and the ion generating device generates ions by high-voltage discharge of the outside air processing air conditioner with respect to conditioned air. It is a thing, The ion ventilation system as described in any one of Claims 1-5 characterized by the above-mentioned.   A desiccant air conditioner that is connected to the ion generator through a duct and air-conditions the return air from the room and the outside air, and further includes a desiccant air conditioner. The ion blowing system according to claim 1, wherein the ion blowing system is generated.   A temperature / humidity sensor for detecting humidity in the room and in the ion generator, and adjusting the air supplied to the ion generator to a predetermined relative humidity based on the humidity detected by the temperature / humidity sensor; The ion blower system according to any one of claims 1 to 7, further comprising ion generation amount stabilization means for stabilizing an ion generation amount from the generator.   It has an ion sensor for detecting the ion concentration in the room, and comprises ion concentration adjusting means for adjusting the ion concentration blown out from the ion outlet based on the ion concentration detected by the ion sensor. The ion ventilation system as described in any one of Claims 1-8.   An ion sensor for detecting an ion concentration distribution in the room; and an ion blowing direction adjusting means for adjusting a blowing direction of ions blown from the ion blowing port based on an ion concentration distribution detected by the ion sensor. The ion ventilation system according to any one of claims 1 to 9, wherein   A ceiling-suspended cassette type air conditioner used in the ion blower system according to any one of claims 1 to 10.

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