JP5217701B2 - Air conditioning system - Google Patents

Description

  The present invention relates to an air conditioning system that adjusts the temperature and humidity of outside air to a predetermined temperature and humidity and supplies the outside air to a painting booth.

Conventionally, (1) the outside air is preliminarily heated, (2) the preheated outside air is humidified to a saturated state, (3) the saturated state is maintained and the outside air is cooled to a predetermined dew point temperature, (4 An air conditioning system is known that heats cooled outside air to a set temperature to adjust the outside air to a predetermined temperature and humidity, and supplies the air to a painting booth (see Patent Document 1).
JP-A-9-89350

  The conventional air conditioning system is related to the temperature and humidity of the outside air, such as executing the series of temperature and humidity control described in (2) to (4) above, although the temperature and humidity of the outside air are close to the predetermined temperature and humidity. Since it is configured to execute the series of temperature and humidity control of (1) to (4) or (2) to (4) above with respect to the total air volume taken in from the outside air introduction port, energy saving is achieved. It is difficult.

  This invention is made | formed in view of the said subject, It is providing the air conditioning system which can reduce the energy required for the temperature and humidity control of the external air.

The air conditioning system according to the aspect of the present invention cools a part of the total air volume of the taken-in outside air, heats and humidifies the other air volumes, and mixes the cooled air volume and the heated and humidified air volume. To supply to the painting booth .

  According to the air conditioning system of the present invention, the temperature and humidity of the outside air can be controlled to the set temperature and the set humidity using the sensible heat and latent heat of the outside air. Can be reduced.

  Hereinafter, the configuration of an air conditioning system according to an embodiment of the present invention will be described with reference to the drawings.

[Overall configuration of air conditioning system]
As shown in FIG. 1, an air conditioning system according to an embodiment of the present invention includes a main air conditioner 2 and a recycle air conditioner 3 as main components, and air that has been conditioned and conditioned to a predetermined temperature and humidity. It is supplied to the manned zone Z1 and the unmanned zone Z2 (for example, an automation area such as an outer panel coating) of the painting booth 1. The main air conditioner 2 has an air conditioning room 2a and an air conditioning room 2b. The air conditioning chamber 2a has a cooler 4 that cools the outside air taken in via the outside air introduction path L1. The air conditioning chamber 2b includes a heater 5 that heats the outside air taken in via the outside air introduction path L2, and a humidifier 6 that humidifies the outside air discharged from the heater 5. The outside air discharged from the air conditioning chambers 2a and 2b is mixed and then supplied to the manned zone Z1 through the fan F1 and the supply path L3. Supply and exhaust dampers D1 and D2 for opening and closing the flow path are provided in the outside air introduction paths L1 and L2, respectively.

  The manned zone Z1 is a fan F2 that discharges air in the manned zone Z1 cleaned by a known technique, a discharge path L4 that discharges air discharged from the fan F2 to the outside of the system, and air discharged from the fan F2. A circulation path L5 is provided for circulation to the recycle air conditioner 3 side. The unmanned zone Z2 is supplied with air that has been adjusted to a predetermined temperature and humidity by the recycle air conditioner 3 via the supply path L9. The unmanned zone Z2 has a fan F3 that discharges air in the unattended zone Z2 cleaned by a known technique, and a discharge path L6 that discharges air discharged from the fan F3 to the outside of the system. Supply and exhaust dampers D3 and D4 for opening and closing the flow path are provided in the discharge path L4 and the circulation path L5, respectively.

  The recycle air conditioner 3 has an air conditioning room 3a and an air conditioning room 3b. The air conditioning chamber 3a has a cooler 7 that cools the air taken in via the circulation path L5 or the outside air introduction path L7. The air conditioning chamber 3b has a heater 8 that heats the outside air taken in via the outside air introduction path L8. The outside air discharged from the air conditioning chambers 3a and 3b is mixed and then supplied to the unmanned zone Z2 via the fan F4 and the supply path L9. Supply and exhaust dampers D5 and D6 for opening and closing the corresponding flow paths are provided in the outside air introduction paths L7 and L8, respectively.

[Control system configuration]
The control system of the air conditioning system includes a temperature sensor 10 that detects the temperature of the outside air, a humidity sensor 11 that detects the humidity of the outside air, and a controller 12 such as a microprocessor. The controller 12 includes the temperature sensor 10 and the humidity sensor. By executing the temperature and humidity control process described below according to the temperature and humidity of the outside air detected by 11, the energy required for the temperature and humidity control of the outside air is reduced. Specifically, the air diagram is divided into areas (1) to (7) shown in FIG. 2 in advance according to temperature and humidity, and the controller 12 is detected by the temperature sensor 10 and the humidity sensor 11. Depending on which of the areas (1) to (7) the outside air temperature and humidity belong to, the cooling temperature of the cooler, the heating temperature of the heater, the humidification ratio of the humidifier, and the supply / exhaust dampers D1 to D1 The opening degree of D6 is controlled. The temperature / humidity control process executed by the controller 12 will be described below with reference to FIG. 3, divided into (A) temperature / humidity control by the main air conditioner 2 and (B) temperature / humidity control by the recycle air conditioner 3.

(A) Temperature and humidity control by the main air conditioner (a) When the temperature and humidity of the outside air are within a predetermined range (area (1) shown in FIG. 2)
The controller 12 controls the supply / exhaust dampers D1 and D2 to the open state and turns off the cooler 3, the warmer 5, and the humidifier 6 to supply the outside air as it is to the manned zone Z1.

(B) The temperature of the outside air is within a predetermined range, but the humidity is insufficient (area (2) shown in FIG. 2).
The controller 12 controls the total opening degree of the air supply / exhaust dampers D1 and D2 to 1 (100%) and switches only the humidifier 6 to the on state to exhaust the outside air humidified by the humidifier 6 and the air conditioning chamber 2a. The outside air thus mixed is mixed and supplied to the manned zone Z1. The humidification ratio of the humidifier 6 is set so that the humidity of the mixed outside air, not the exhausted outside air of the humidifier 6, is within a predetermined range in consideration of the opening ratios of the air supply and exhaust dampers D1, D2.

(C) When the temperature of the outside air is not less than the predetermined range and the humidity is insufficient (area (3) shown in FIG. 2)
The controller 12 controls the total opening degree of the air supply and exhaust dampers D1 and D2 to 1 (100%) and switches the cooler 4 and the humidifier 6 to the on state to cool the outside air and the humidifier that are cooled by the cooler 4. 6 is mixed with the outside air humidified by 6 and supplied to the manned zone Z1. The cooling temperature of the cooler 4 and the humidification ratio of the humidifier 6 are set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D1 and D2.

(D) When the temperature of the outside air is not less than the predetermined range and the humidity is not less than the predetermined range (area (4) shown in FIG. 2).
The controller 12 controls the total opening degree of the supply / exhaust dampers D1 and D2 to 1 (100%) and switches only the cooler 4 to the on state to discharge the outside air cooled by the cooler 4 and the air conditioning chamber 2b. The outside air thus mixed is mixed and supplied to the manned zone Z1. The cooling temperature of the cooler 4 is set so that the temperature of the mixed outside air falls within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D1 and D2. When the humidity of the outside air is slightly outside the predetermined range, the humidity of the outside air can be adjusted within the predetermined range by lowering the temperature.

(E) When the temperature of the outside air is not less than a predetermined range and the humidity is excessive (area (5) shown in FIG. 2)
The controller 12 controls the total opening degree of the supply / exhaust dampers D1 and D2 to 1 (100%) and switches the cooler 4 and the warmer 5 to the on state to cool the outside air cooled by the cooler 4 and air conditioning. The outside air heated in the chamber 2b is mixed and supplied to the manned zone Z1. The cooling temperature of the cooler 4 and the heating temperature of the warmer 5 are set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D1 and D2.

(F) When the temperature of the outside air is within a predetermined range, but the humidity is not less than the predetermined range (area (6) shown in FIG. 2).
The controller 12 controls the total opening degree of the air supply / exhaust dampers D1 and D2 to 1 (100%) and switches only the heater 5 to the on state so that the outside air discharged from the air conditioning chamber 2a and the air conditioning chamber 2b The heated outside air is mixed and supplied to the manned zone Z1. The heating rate of the warmer 5 is set so that the temperature of the mixed outside air, not the exhausted outside air of the warmer 5, is within a predetermined range in consideration of the opening rate of the supply / exhaust dampers D1, D2.

(G) When the temperature of the outside air is below a predetermined range and the humidity is insufficient (area (7) shown in FIG. 2)
The controller 12 controls the total opening degree of the air supply / exhaust dampers D1 and D2 to 1 (100%) and switches the warmer 5 and humidifier 6 to the on state, and the outside air discharged from the air conditioning chamber 2a and the air conditioner. The outside air heated and humidified in the chamber 2b is mixed and supplied to the manned zone Z1. The heating ratio of the warmer 5 and the humidification ratio of the humidifier 6 take into consideration the opening ratios of the air supply and exhaust dampers D1 and D2, and the temperature of the mixed outside air, not the exhausted outside air from the air conditioning chamber 2b, is within a predetermined range. Set as follows.

(B) Temperature and humidity control by recycle air conditioner (a) When the temperature and humidity of the outside air are within a predetermined range (area (1) shown in FIG. 2)
The controller 12 controls the air supply / exhaust dampers D3, D5, D6 and the air supply / exhaust damper D4 to be in an open state and a closed state, and turns off the cooler 7 and the warmer 8 to leave only the outside air as it is in the unmanned zone Z2. Supply.

(B) The temperature of the outside air is within a predetermined range, but the humidity is insufficient (area (2) shown in FIG. 2).
The controller 12 controls the total opening degree of the supply / exhaust dampers D3 and D4 to 1 (100%), and opens the opening degree of the supply / exhaust dampers D5 and D6 to 0 (closed state) and the same opening as the supply / exhaust damper D3. Control every degree. Then, the controller 12 turns off the cooler 7 and the warmer 8, mixes the air discharged from the manned zone Z1 and the outside air, and supplies the mixed air to the unmanned zone Z2.

(C) When the temperature of the outside air is not less than the predetermined range and the humidity is insufficient (area (3) shown in FIG. 2)
The controller 12 controls the total opening degree of the supply / exhaust dampers D3 and D4 to 1 (100%), and opens the opening degree of the supply / exhaust dampers D5 and D6 to 0 (closed state) and the same opening as the supply / exhaust damper D3. Control every degree. Then, the controller 12 turns on only the cooler 7 and mixes the air cooled from the manned zone Z1 with the outside air and supplies it to the unmanned zone Z2. The cooling temperature of the cooler 7 is set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D4 and D6.

(D) When the temperature of the outside air is not less than the predetermined range and the humidity is not less than the predetermined range (area (4) shown in FIG. 2).
The controller 12 controls the total opening degree of the supply / exhaust dampers D3 and D4 to 1 (100%), and opens the opening degree of the supply / exhaust dampers D5 and D6 to 0 (closed state) and the same opening as the supply / exhaust damper D3. Control every degree. Then, the controller 12 turns on only the cooler 7 and mixes the air cooled from the manned zone Z1 with the outside air and supplies it to the unmanned zone Z2. The cooling temperature of the cooler 7 is set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D4 and D6.

(E) When the temperature of the outside air is not less than a predetermined range and the humidity is excessive (area (5) shown in FIG. 2)
The controller 12 controls the total opening degree of the supply / exhaust dampers D3 and D4 to 1 (100%), and opens the opening degree of the supply / exhaust dampers D5 and D6 to 0 (closed state) and the same opening as the supply / exhaust damper D3. Control every degree. Then, the controller 12 turns on both the cooler 7 and the heater 8 and mixes the cooled air discharged from the manned zone Z1 with the heated outside air and supplies the mixed air to the unmanned zone Z2. The cooling temperature of the cooler 7 and the heating temperature of the heater 8 are set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D4 and D6.

(F) When the temperature of the outside air is within a predetermined range, but the humidity is not less than the predetermined range (area (6) shown in FIG. 2).
The controller 12 controls the supply / exhaust dampers D3, D4 to open and closed, respectively, and controls the total opening degree of the supply / exhaust dampers D5, D6 to 1 (100%). Then, the controller 12 mixes and supplies the unheated zone Z2 with a mixture of the outside air cooled by turning on only the heater 8 and the outside air heated. The heating temperature of the heater 8 is set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D5 and D6.

(G) When the temperature of the outside air is below a predetermined range and the humidity is insufficient (area (7) shown in FIG. 2)
The controller 12 controls the total opening degree of the supply / exhaust dampers D3 and D4 to 1 (100%), and opens the opening degree of the supply / exhaust dampers D5 and D6 to 0 (closed state) and the same opening as the supply / exhaust damper D3. Control every degree. Then, the controller 12 turns on only the heater 8 and mixes the air discharged from the manned zone Z1 with the heated outside air and supplies the mixed air to the unmanned zone Z2. The heating temperature of the heater 8 is set so that the temperature and humidity of the mixed outside air are within a predetermined range in consideration of the opening ratio of the supply / exhaust dampers D4 and D6.

  As is apparent from the above description, in the air conditioning system according to the embodiment of the present invention, the controller 12 controls the air conditioning rooms 2a and 2b according to the temperature and humidity of the outside air detected by the temperature sensor 10 and the humidity sensor 11. By controlling the air volume of the outside air to be supplied, the cooling temperature of the cooler 4, the heating temperature of the heater 5, and the humidification ratio of the humidifier 6, the outside air discharged from the air conditioning chambers 2 a and 2 b is mixed and set at a set temperature. In addition, the outside air adjusted to the set humidity is supplied to the painting booth. According to such an air conditioning system, the controller 12 can control the temperature and humidity of the outside air to the set temperature and the set humidity using the sensible heat and latent heat of the outside air. The required energy can be reduced.

  Moreover, the air conditioning system which becomes embodiment of this invention has the recycle air conditioner 3 which mixes the air discharged | emitted from the manned area Z1 and external air, and supplies it to the unmanned area Z2. Since the conventional recycle air conditioner using exhaust gas is configured to use all the exhaust amount, it requires a lot of energy to remove moisture contained in the exhaust gas. On the other hand, in the air conditioning system according to the embodiment of the present invention, the recycle air conditioner effectively uses the sensible heat and latent heat of the outside air and exhaust, and controls the exhaust amount and the outside air intake amount according to the season. Energy can be reduced.

  As mentioned above, although embodiment which applied the invention made by this inventor was described, this invention is not limited by the description and drawing which make a part of indication of this invention by this embodiment. For example, instead of the main air conditioner 2, a main air conditioner 2 as shown in FIG. The main air conditioner 2 shown in FIG. 4 has a cooler 20, a humidifier 21, and a warmer 22. As shown in FIG. 5, the cooler 20 has a cooling area R <b> 1 that cools and passes outside air arranged in a lattice shape, and a non-cooling area R <b> 2 that passes outside air without being cooled. The humidifier 21 mixes and humidifies the outside air that has passed through the cooling area R1 of the cooler 20 and the outside air that has passed through the non-cooling area R2. The warmer 22 heats the outside air discharged from the humidifier 21 and supplies it to the manned zone Z1. According to such a configuration of the main air conditioner 2, energy required for temperature and humidity control of the outside air can be reduced as in the above embodiment. As described above, other embodiments, examples, operation techniques, and the like made by those skilled in the art based on the present embodiment are all included in the scope of the present invention.

It is a block diagram which shows the structure of the air conditioning system used as the 1st Embodiment of this invention. It is a figure which shows area division of the air diagram used for the temperature / humidity control of external air. It is a figure which shows the temperature / humidity control of the external air using the area division shown in FIG. It is a schematic diagram which shows the structure of the air conditioning system used as the 2nd Embodiment of this invention. It is a top view which shows the structure of the cooler shown in FIG.

Explanation of symbols

1: Painting booth 2: Main air conditioner 3: Recycled air conditioners 2a, 2b, 3a, 3b: Air conditioners 4, 7, 20: Coolers 5, 8, 22: Heater 6, 21: Humidifier 10: Temperature Sensor 11: Humidity sensor 12: Controllers D1-D6: Supply / exhaust dampers F1-F3: Fans L1, L2, L7, L8: Outside air introduction path L3, L9: Supply path L4, L6: Exhaust path L5: Circulation path Z1: Manned Zone Z2: Unattended zone

Claims (2)

An air conditioning system that regulates and regulates the outside air to a predetermined temperature and humidity and supplies it to the painting booth,
A cooling unit that cools the outside air taken in via the first outside air introduction path to a first temperature;
A heating unit that heats the outside air taken in via the second outside air introduction path to a second temperature;
A humidifying unit for humidifying the outside air discharged from the heating unit to a first humidity;
A supply unit for mixing outside air discharged from the cooling unit and the humidifying unit and supplying the mixed air to the first area of the coating booth;
A first opening / closing portion for opening / closing the first outside air introduction path;
A second opening / closing part for opening / closing the second outside air introduction path;
An outside temperature detector for detecting the temperature of the outside air;
An outside air humidity detector for detecting the humidity of the outside air;
According to the temperature and humidity of the outside air detected by the outside air temperature detection unit and the outside air humidity detection unit, the first and second temperatures, the first humidity, and the first and second opening / closing units An air conditioning system comprising: a control unit that controls the opening degree. The air conditioning system according to claim 1 ,
A second cooling unit for cooling the air discharged from the first area;
A second heating unit for heating the outside air taken in via the third outside air introduction path;
An air conditioning system comprising: a second supply unit that mixes air discharged from the second cooling unit and the second heating unit and supplies the mixed air to a second area of the coating booth.

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