JP2836671B2 - Air conditioner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner provided with a natural evaporation type humidifier used for preventing indoor air from drying.

[0002]

2. Description of the Related Art In recent years, it has become necessary to maintain an appropriate relative humidity of 40 to 60% in terms of indoor environment comfort, and there is an increasing demand for air conditioners equipped with a humidifier.

[0003] In addition, as a result of an increase in the amount of heat generated by the OA equipment and the like, the necessity of cooling operation is increased even in winter, and there is a growing demand for humidification during cooling operation in order to prevent a low humidity state at that time.

Conventionally, as this type of air conditioner, there is an air conditioner disclosed in JP-A-2-247435.

Hereinafter, the conventional air conditioner will be described with reference to the drawings. FIG. 7 is a side view showing a schematic configuration of a conventional air conditioner. In FIG. 7, reference numeral 1 denotes a main body of the air conditioner, 2 denotes a heat exchanger, and 3 denotes a blower for ventilating the heat exchanger 2. Reference numeral 4 denotes a water supply device, and reference numeral 5 denotes a natural evaporative humidifier. A humidifying method such as a dropping type, a falling type, a rotating type, and a suction type is used. Reference numeral 6 denotes an airflow passing through the heat exchanger 2 passing through the heat exchanger 2, reference numeral 7 denotes a passage-shaped splitter for splitting a part of the airflow 6 passing through the heat exchanger before passing through the natural evaporative humidifier 5, and 8 denotes a flow dividing means. The humidifier passing airflow that passes through the natural evaporative humidifier 5 out of the heat exchanger passing airflow 6 that has been split by the splitter 7. 9 is a blown air flow of the air conditioner 1.

The operation of the air conditioner configured as described above will be described below. First, air is passed through the heat exchanger 2 by the air blowing means 3 to exchange heat between the heat exchanger 2 and the air flow 6 passing through the heat exchanger. In the heating operation, the air flow 6 passing through the heat exchanger is heated and cooled. In operation, the air flow through the heat exchanger 6
To cool. Thereafter, the air flow 6 passing through the heat exchanger is diverted by the flow dividing means 7, and only the air flow 8 passing through the humidifier passes through the natural evaporative humidifier 5 without increasing the pressure loss due to the natural evaporative humidifier 5. A large air volume can be obtained.

On the other hand, when water is supplied from the water supply device 4 to the natural evaporative humidifier 5 and the air flow 8 passing through the humidifier passes between the natural evaporative humidifiers 5,
The water held in the humidifier humidifies the air flow 8 passing through the humidifier by natural evaporation.

The air flow 8 passing through the humidifier is combined with the air flow that has been split by the splitter 7 and has not passed through the natural evaporative humidifier 5, and is blown out from the air conditioner 1 as a blown air flow 9.

[0009]

However, in the above-mentioned conventional configuration, the humidification deprives the heat of vaporization and lowers the temperature of the air blown from the air conditioner. There was a disadvantage that the room temperature would drop if no machine was installed.

[0010] In addition, since the occupants are exposed to the low-temperature airflow, there is a disadvantage that discomfort occurs.

An object of the present invention is to solve the conventional problems, and an object of the present invention is to provide an air conditioner in which the blow-out temperature does not decrease even when humidified and the blow-out temperature can be controlled.

[0012]

In order to achieve this object, an air conditioner according to the present invention is provided downstream of a natural evaporative humidifier and heats an air flow passing through the humidifier humidified by the natural evaporative humidifier. Heating means, a humidifier outlet temperature detecting means installed downstream of the heating means for detecting an outlet temperature of the air flow passing through the humidifier, and a heating amount of the heating means controlled according to an output of the humidifier outlet temperature detecting means. And a blowout temperature control device.

[0013] Further, heating means installed downstream of the natural evaporative humidifier for heating the air flow passing through the humidifier humidified by the natural evaporative humidifier, and a heat exchanger and a natural evaporative humidifier provided between the heat exchanger and the natural evaporative humidifier. A humidifier inlet temperature detecting means for detecting an inlet temperature of the humidifier passing airflow, a humidifier outlet temperature detecting means provided downstream of the heating means for detecting an outlet temperature of the humidifier passing airflow, and a humidifier The configuration is provided with a blow-out temperature control device that controls the heating amount of the heating means in accordance with the outputs of the inlet temperature detecting means and the humidifier outlet temperature detecting means.

[0014]

The air conditioner of the present invention is provided downstream of the natural evaporative humidifier and is provided with heating means for heating the air flow passing through the humidifier humidified by the natural evaporative humidifier and downstream of the heating means. Since it is provided with a humidifier outlet temperature detecting means for detecting the outlet temperature of the air flow passing through the humidifier and a blowout temperature control device for controlling the heating amount of the heating means in accordance with the output of the humidifying apparatus outlet temperature detecting means, Not only can the air temperature of the air conditioner be raised by heating the air flow that has passed through the evaporative humidifier and the temperature has dropped, but also the air temperature can be controlled to prevent the air temperature from rising or dropping excessively. can do.

A heating means installed downstream of the natural evaporative humidifier for heating the air flow passing through the humidifier humidified by the natural evaporative humidifier; and a heater provided between the heat exchanger and the natural evaporative humidifier. Humidifier inlet temperature detecting means for detecting the inlet temperature of the humidifier passing airflow, humidifier outlet temperature detecting means installed downstream of the heating means for detecting the outlet temperature of the humidifier passing airflow, and a humidifier inlet Since it has a blowout temperature control device that controls the heating amount of the heating means according to the output of the temperature detection means and the output of the humidifier outlet temperature detection means,
Not only can the temperature of the air conditioner be controlled to prevent the temperature from rising or falling excessively, but the temperature of the air rises during cooling operation compared to when no natural evaporative humidifier and heating means are installed. In addition, it is possible to assist the heating by preventing the temperature of the blowout from being lowered during the heating operation and further increasing the blowout temperature.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a first embodiment of an air conditioner according to the present invention will be described with reference to the drawings. The same components as those in the related art are denoted by the same reference numerals, and detailed description is omitted.

FIG. 1 is a side view showing a schematic configuration of an air conditioner according to a first embodiment of the present invention. FIG. 2 is a control block diagram of blowing air temperature control in the embodiment. FIG. 3 is a flowchart showing a humidification amount control method according to the embodiment.

In FIG. 1, reference numeral 10 denotes a heating device which is provided downstream of the natural evaporative humidifier 5 and comprises an electric heater and an auxiliary heat exchanger for heating the humidifier passing airflow 8 humidified by the natural evaporative humidifier 5. It is preferable that one or more electric heaters such as a nichrome wire heater and a PTC heater can be used. Numeral 11 denotes a humidifier outlet temperature detecting means which is provided downstream of the heating means 10 and detects the outlet temperature of the humidifier passing airflow 8, and a temperature sensor such as a thermistor or a thermocouple can be used. 12a is a humidifier outlet temperature detecting means 1
This is a blowout temperature control device that controls the amount of heating of the heating means 10 based on the output of No. 1.

As shown in FIG. 2, the blow-out temperature control device 12a includes a calculation unit 13 for comparing the temperature detected by the humidifier outlet temperature detection means 11 with a set temperature range, ie, a set upper limit temperature and a set lower limit temperature, The heating temperature control unit 14 controls the heating amount of the air conditioner 10. The set temperature range is a temperature range that does not cause discomfort to the occupants, and varies depending on the operation state of the air conditioner 1. For example, it can be set to 5 to 20 ° C during the cooling operation and 30 to 45 ° C during the heating operation. Further, as a heating amount control method, for example, when using a single electric heater as a heating means, there is a method of changing the energizing time, increasing or decreasing the energizing voltage,
Further, for example, when a plurality of electric heaters are used as heating means, there is a method of increasing or decreasing the number of electric heaters to be energized, or increasing or decreasing the energized voltage to the electric heaters.

The operation of the air conditioner configured as described above will be described below with reference to the flowchart of FIG.

First, air is passed through the heat exchanger 2 by the blowing means 3 to exchange heat between the heat exchanger 2 and the air flow 6 passing through the heat exchanger. During the heating operation, the air flow 6 passing through the heat exchanger is heated. ,
During the cooling operation, the air flow 6 passing through the heat exchanger is cooled. Then, the humidifier-passing airflow 8 diverted by the diverter 7 passes through the natural evaporative humidifier 5 to be humidified and the temperature is reduced. The temperature of the humidifier passing airflow 8, that is, the temperature of the blown-out airflow 9 can be increased by heating the humidifier passing airflow 8 having the lowered temperature using the heating means 10.

Here, a set temperature range, that is, a set upper limit temperature T ₁ and a set lower limit temperature T ₂ are set according to the operation state of the air conditioner 1 (step 1). Then, the outlet temperature t of the humidifying device passed the air flow 8 is detected by a humidifier outlet temperature detection means 11 (Step 2), and the set temperature range T ie setting the upper limit temperature T ₁ and set the lower limit temperature T ₂ in the calculating unit 13 compares Then, when T ₁ <t (Step 4 branches to YES side), the heating amount of the heating means 10 is reduced by the heating amount control unit 14 (Step 6).

Since the temperature of the air flow 8 passing through the humidifier is reduced by reducing the heating amount of the heating means 10, the temperature of the blown air flow 9 can be reduced.

When T ₂ > t (the step 5 branches to the YES side), the heating means 1
The heating amount of 0 is increased (step 7). As a result, the temperature of the blown air flow 9 can be increased.

As described above, the air conditioner of the present embodiment is provided on the downstream side of the natural evaporative humidifier 5 to heat the humidifier passing airflow 8 humidified by the natural evaporative humidifier 5. A humidifier outlet temperature detecting means 11 installed downstream of the heating means 10 for detecting an outlet temperature of the humidifier passing airflow 8, and heating of the heating means 10 based on an output of the humidifier outlet temperature detecting means 11. Since the outlet temperature control device 12a for controlling the amount is provided, the outlet temperature can be increased, and humidification during the heating operation can be performed with an air conditioner having the same capacity as when the natural evaporative humidifier 5 is not installed. Become. Further, discomfort of the occupants can be eliminated. Further, it is possible to prevent an excessive increase and an excessive decrease in the blowing temperature.

Further, since the air flow after humidification is heated, there is an advantage that dew condensation in the air conditioner can be reduced.

Next, a second embodiment of the air conditioner according to the present invention will be described with reference to the drawings. The same components as those in the first embodiment are denoted by the same reference numerals, and detailed description is omitted.

FIG. 4 is a side view showing a schematic configuration of an air conditioner according to a second embodiment of the present invention. FIG. 5 is a control block diagram of blowout temperature control in the embodiment.
FIG. 6 is a flowchart showing the blowout temperature control method according to the embodiment.

In FIG. 4, reference numeral 15 denotes a humidifier inlet temperature detecting means provided between the heat exchanger 2 and the natural evaporative humidifier 5 to detect the inlet temperature of the air flow 8 passing through the humidifier.
Preferably, a temperature sensor such as a thermistor or a thermocouple can be used. 12b is a heating means 10 based on the output of the humidifier inlet temperature detecting means 15 and the output of the humidifying apparatus outlet temperature detecting means 11.
This is a blowout temperature control device for controlling the amount of heating.

As shown in FIG. 5, the outlet temperature controller 12b compares the temperature detected by the humidifier outlet temperature detecting means 11 with a set temperature range, ie, a set upper limit temperature and a set lower limit temperature, and outputs the humidifier inlet temperature. The arithmetic unit 16 calculates a difference between the temperature detected by the detection unit 15 and the temperature detected by the humidifier outlet temperature detection unit 11, and a heating amount control unit 17 that controls the heating amount of the heating unit 10. The range is a temperature range that does not cause discomfort to the occupants, and varies depending on the operation state of the air conditioner 1. For example, it can be set to 5 to 20 ° C. during cooling operation and 30 to 45 ° C. during heating operation. . Also, as a heating amount control method, for example,
When using a single electric heater as the heating means, there is a method of changing the energizing time, increasing or decreasing the energizing voltage.For example, when using a plurality of electric heaters as the heating means, increasing or decreasing the number of electric heaters to energize, or There is a method of increasing or decreasing the energizing voltage to the electric heater.

The operation of the air conditioner configured as described above will be described below with reference to the flowchart of FIG.

A set temperature range, that is, a set upper limit temperature T ₁ and a set lower limit temperature T ₂ are set according to the operation state of the air conditioner 1 (step 11). Then, the outlet temperature t _out of the humidifier passing airflow 8 is determined by the humidifier outlet temperature detecting means 11.
(Step 12), and in the arithmetic unit 16,
The set temperature range is compared with the set upper limit temperature T ₁ and the set lower limit temperature T ₂ (step 13). When T ₁ <t _out (step 14 branches to the YES side), the heating amount controller 17 controls the heating means 10. Is reduced (step 16). And since the temperature of the air flow 8 passing through the humidifier decreases due to the decrease in the heating amount of the heating means 10,
The temperature of the blown air stream 9 can be reduced to be within the set range.

When T ₂ > t _out (step 1)
5 is branched to the YES side), and the heating amount of the heating means 10 is increased by the heating amount control unit 14 (step 17). As a result, the temperature of the blown air flow 9 can be raised and kept within the set temperature range.

Here, if T ₂ ≦ t _out ≦ T _1, that is, if the blowing temperature is within the set temperature range (steps 14 and 15 are branched to NO side), the air flow 8
Detects the inlet temperature t _in the humidifier inlet temperature detecting means 15 (step 18), t _in -t in the operation unit 16
calculates _out (step 19), a cooling operation (branch step 20 is YES side) and when a t _in -t _out <0 (branch step 22 is YES side), heated by the heating amount control unit 17 The heating amount of the means 10 is reduced (step 23). And, by reducing the heating amount of the heating means 10, it is possible to prevent the blowout temperature from rising above the temperature before passing through the natural evaporative humidifier 5 during the cooling operation. Means 10
Can be prevented from rising as compared with the case where no is installed.

In addition, the heating operation is performed (step 21
When branching to the ES side and when t _in -t _out ≥ 0 (branch to the YES side in step 24), the heating amount of the heating means 10 is increased by the heating amount control unit 17 (step 25) to perform the heating operation. At this time, the blowing temperature is prevented from dropping below the temperature before passing through the natural evaporative humidifier 5, that is, the blowout temperature is prevented from lowering than when the natural evaporative humidifier 5 and the heating means 10 are not installed. Not only can this be done, but it is also possible to further increase the blowing temperature to assist in heating.

As described above, the air conditioner of this embodiment is provided on the downstream side of the natural evaporative humidifier 5 to heat the humidifier passing airflow 8 humidified by the natural evaporative humidifier 5. A humidifier inlet temperature detecting means 15 installed between the heat exchanger 2 and the natural evaporative humidifier 5 for detecting an inlet temperature of the air flow 8 passing through the humidifier; and a humidifier installed downstream of the heating means 10. Humidifier outlet temperature detecting means 11 for detecting the outlet temperature of the passing airflow 8, and a blowout for controlling the heating amount of the heating means 10 based on the outputs of the humidifier inlet temperature detecting means 15 and the humidifier outlet temperature detecting means 11. Since the temperature control device 12b is provided, not only can the blow-out temperature of the air conditioner be controlled to prevent an excessive rise or fall of the blow-out temperature, but also during the cooling operation, a natural evaporative humidifier and a humidifier can be used. Prevents the outlet temperature from rising as compared to the case where no means is installed.Also, during heating operation, it is possible to prevent the outlet temperature from decreasing and to further increase the outlet temperature to assist heating. it can.

[0037]

As described above, according to the present invention, the heat exchanger, the blowing means, the natural evaporative humidifier, and the humidifier installed downstream of the natural evaporative humidifier are provided. Heating means for heating the humidifier passing airflow, humidifier outlet temperature detecting means installed downstream of the heating means and detecting the outlet temperature of the humidifier passing airflow, and according to the output of the humidifier outlet temperature detecting means. Since it is equipped with a blowout temperature control device that controls the heating amount of the heating means, it is possible to raise the blowout temperature of the air conditioner by heating the air flow that has passed through the natural evaporative humidification device and that has dropped in temperature. Instead, the blowout temperature can be controlled to prevent the blowout temperature from excessively increasing or decreasing.

Further, a heat exchanger, a blowing means,
A natural evaporative humidifier, heating means installed downstream of the natural evaporative humidifier and heating the humidifier passing airflow humidified by the natural evaporative humidifier, and between the heat exchanger and the natural evaporative humidifier. A humidifier inlet temperature detecting means for detecting an inlet temperature of the humidifier passing air flow, a humidifier outlet temperature detecting means provided downstream of the heating means for detecting an outlet temperature of the humidifier passing air flow, and heating. Since the outlet temperature control device for controlling the heating amount of the heating means according to the output of the device inlet temperature detecting means and the output of the heating device outlet temperature detecting means is provided, the outlet temperature of the air conditioner is controlled so that the outlet temperature is excessive. Not only can it prevent the temperature from rising or falling, but also prevent the temperature of the blow-off from rising when the cooling operation is performed as compared with the case where no natural evaporative humidifier and heating means are installed. Sometimes on balloon temperature is prevented from being lowered, it is possible to perform an auxiliary heating by raising the further outlet temperature.

[Brief description of the drawings]

FIG. 1 is a side view showing a schematic configuration of a first embodiment of an air conditioner according to the present invention.

FIG. 2 is a control block diagram of blowout temperature control in the embodiment.

FIG. 3 is a flowchart showing a blowing temperature control method in the embodiment.

FIG. 4 is a side view showing a schematic configuration of a second embodiment of the air conditioner according to the present invention.

FIG. 5 is a control block diagram of blowout temperature control in the embodiment.

FIG. 6 is a flowchart showing a blowout temperature control method in the embodiment.

FIG. 7 is a side view showing a schematic configuration of a conventional air conditioner.

[Explanation of symbols]

 2 Heat exchanger 3 Blowing means 5 Natural evaporative humidifier 8 Air flow through humidifier 10 Heating means 11 Humidifier outlet temperature detecting means 12a, 12b Blow-out temperature controller 15 Humidifier inlet temperature detecting means

Claims (5)

(57) [Claims] 1. A heat exchanger, a blower means for ventilating the heat exchanger, and a natural evaporative type for humidifying by passing a part of a heat exchanger passing airflow heat-exchanged by the heat exchanger. A humidifier, heating means installed downstream of the natural evaporative humidifier and heating the humidifier passing airflow humidified by the natural evaporative humidifier, and the humidifier installed downstream of the heating means A humidifier outlet temperature detecting means for detecting an outlet temperature of the passing air flow, and a blowout temperature control device for controlling a heating amount of the heating means in accordance with an output from the humidifying apparatus outlet temperature detecting means. And air conditioner. 2. The air conditioner according to claim 1, wherein the blow-out temperature control device controls a heating amount of the heating means so that an outlet temperature of the air flow passing through the humidifier falls within a predetermined range. 3. A natural evaporative system for humidifying by passing a part of an air flow passing through the heat exchanger, a blowing means for ventilating the heat exchanger, and heat exchanged by the heat exchanger. A humidifier, heating means installed downstream of the natural evaporative humidifier and heating a humidifier passing airflow humidified by the natural evaporative humidifier, the heat exchanger, the natural evaporative humidifier, A humidifier inlet temperature detecting means for detecting an inlet temperature of the humidifier passing airflow, and a humidifier outlet temperature provided downstream of the heating means for detecting an outlet temperature of the humidifier passing airflow An air conditioner comprising: a detection unit; and a blowout temperature control device that controls a heating amount of the heating unit in accordance with an output of the humidifier entrance temperature detection unit and an output of the humidification unit exit temperature detection unit. 4. An outlet temperature control device controls the heating amount of the heating means in accordance with the temperature difference between the inlet temperature of the air flow passing through the humidifier and the outlet temperature when the outlet temperature of the air flow passing through the humidifier falls within a predetermined range. The air conditioner according to claim 3, wherein: 5. A heating operation is performed so that an outlet temperature of the air flow passing through the humidifier falls within a predetermined range and an inlet temperature of the air flow passing through the humidifier becomes equal to or higher than the outlet temperature during a cooling operation. 4. The air conditioner according to claim 3, wherein the heating amount of the heating means is controlled so that the inlet temperature of the air flow passing through the humidifier is sometimes lower than the outlet temperature.