JP3838629B2 - Dehumidification system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a dehumidification system for a store having a work room for processing products such as foods and the like in stores where products and the like are displayed.
[0002]
[Prior art]
Conventionally, a dehumidifying device that dehumidifies the air in a store such as a supermarket (sales floor) has an air conditioner such as a cooler consisting of a refrigeration cycle. And the like, and the defrosting is performed by defrosting the frost or dropping water droplets. However, in such an air conditioner, the temperature in the vicinity of the floor in the store may be too low. In addition, a work room which is a so-called back room is provided in the store, and processing operations such as preparation of food, cooking and packing are performed in this work room. Water is used for this processing operation, and water is used for cleaning after the operation. For this reason, the humidity in the working room is high. However, in the conventional work room, the temperature is adjusted by an air conditioner such as a cooler, but the humidity is not adjusted.
[0003]
[Problems to be solved by the invention]
By the way, in order to prevent a decrease in temperature near the floor in the store (so-called “cold aisle”), it has been studied to adopt a so-called desiccant air conditioner using a rotary dehumidifier. In this desiccant air conditioner, the temperature of the discharged air can be made relatively high, and this warm air is discharged near the floor. In this way, cold aisle can be eliminated.
[0004]
On the other hand, in order to reduce the humidity, sterilize, and dry the equipment in the work room, it is considered to dehumidify in the same manner as in the store. However, installation of two rotary dehumidifiers, that is, a store-type rotary dehumidifier and a work room rotary dehumidifier, requires equipment costs. Therefore, it is conceivable to use the rotary dehumidifier for both dehumidification in the store and dehumidification in the work room, but various problems occur as follows.
(1) Since foods are processed in the work room, odors may be generated. If the rotary dehumidifier blows air to both the work room and the store at the same time, the smell of the work room may flow into the store and the store may smell.
(2) Even if the air blowing to the work room and the air blowing to the store are alternately switched, if the rotary dehumidifier is used in both the work room and the store, the smell of the work room is turned into the rotary dehumidifier. The odor remaining in the rotary dehumidifier may flow into the store.
(3) Since the temperature of the air from the rotary dehumidifier is relatively high, the temperature of the working chamber becomes high, which may adversely affect the equipment installed in the working chamber.
(4) When a plurality of work chambers are provided, each work chamber may not be efficiently dehumidified.
[0005]
An object of the present invention is to provide a dehumidifying system capable of efficiently dehumidifying both a store and a work room.
[0006]
[Means for Solving the Problems]
The dehumidification system of the present invention dehumidifies the air in a store having a store (1) and a work room (2, 3). The dehumidifying system rotates the moisture adsorption element (51) to adsorb moisture in the moisture adsorption region (52) and release moisture in the moisture release region (53), A dehumidifying blower that sucks in the air from the store air intake (12) and passes the air through the moisture adsorption region of the rotary dehumidifier and returns the air from the store air discharge port (21) to the store again. 45), a regenerative air blower (46) that takes in the regenerative air and sequentially passes this air through the regenerative heater (44) and the moisture release area of the rotary dehumidifier, and the store air intake is provided in the store A store interior intake duct (16a) connected to the store, a store interior discharge duct (22a) connecting the store air discharge port to the store, and a work room side intake connecting the store air intake to the work room Duct (1 b, 16c), a work room side discharge duct (22b, 22c) for connecting the store air outlet to the work room, and a flow from the store to the store air intake provided in the store inner intake duct. A store inside intake damper (31) that opens and closes, a store inside discharge damper (33) that is provided in the store inside discharge duct and opens and closes the flow from the store air outlet to the store, and the work room side intake duct. A work room side intake damper (32, 71, 72) provided to open and close the flow from the work room to the store air intake, and the work room side discharge duct provided from the store air discharge port to the work room. A work room side discharge damper (34, 73, 74) for opening and closing the flow, and a damper control means for controlling each of the dampers to selectively switch to one of ventilation into the store or ventilation into the work room, The working room humidity detecting means (9, 77) for detecting the humidity in the working room, and when the humidity detected by the working room humidity detecting means is less than the working room humidity set value, Working air venting end means for stopping the air blowing device, the regenerative heater and the regenerating air blowing device and switching to the air flow into the store after outputting the stop signal to the dehumidifying air blowing device And.
[0007]
[0008]
Also The dehumidifying system controls each damper to selectively switch between ventilation to the store or ventilation to the working room, and working room ventilation that is an elapsed time after switching to ventilation to the working room. When the time is measured and it is determined that the working room ventilation time has reached the ventilation time setting value, the rotary dehumidifier, the dehumidifying blower, the regenerative heater and the regenerating blower are stopped, and the dehumidifying blower is moved to After the stop signal is output, there may be provided working room ventilation end means for switching to the ventilation into the store.
[0009]
[0010]
And In some cases, the dehumidification system operates the regenerative heater and the regenerative air blower before the ventilation to the work room is finished, thereby performing a dehumidification operation.
[0011]
Further, when the dehumidifying system determines that the working room ventilation time has reached the ventilation time set value and the working room ventilation end means determines that the regenerating blower has already stopped, an operation signal is sent to the regenerating blower. After outputting and operating the regeneration air blower for a set time, the rotary dehumidifier, the dehumidifier air blower, the regeneration heater and the regeneration air blower are stopped, and each damper is stopped after the dehumidification air blower is stopped. An end-time dehumidifying operation ensuring means may be provided to control and switch to ventilation in the store.
[0012]
The dehumidification system is provided with an in-store humidity detecting means (7) for detecting the humidity in the store. When the ventilation into the store is performed after the ventilation into the work room, the in-store humidity detecting means detects Regardless of the humidity in the store, the regenerative heater and the regenerative air blower may be operated to perform a dehumidifying operation.
[0013]
In addition, the dehumidifying system stops the regenerative heater and the regenerative air blower when the humidity detected by the in-store humidity detecting means and the in-store humidity detecting means when the air is ventilated in the store falls below the set humidity for the store. When the humidity detected by the in-store humidity detection means exceeds the set humidity for the store, the regenerative heater and the regenerative air blower are operated to switch from the blow operation to the dehumidification operation. In the initial stage of ventilation into the store after switching from ventilation to the work room to ventilation in the store, control by the humidity control means in the store is stopped for a set time, and the regeneration heater and the regeneration blower are operated. There may be provided dehumidifying operation means at the start of in-store ventilation when starting to ventilate the store.
[0014]
[0015]
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Next, a first embodiment of the dehumidifying system according to the present invention will be described with reference to FIGS. FIG. 1 is a schematic diagram of a dehumidifying system according to a first embodiment. FIG. 2 is a schematic view of a dehumidifying unit of the dehumidifying system of FIG. FIG. 3 is a schematic diagram of the input / output of the control device. FIG. 4 is a time chart of the control pattern 1. FIG. 5 is a flowchart of the control pattern 1. FIG. 6 is a time chart of the control pattern 2. FIG. 7 is a flowchart of the control pattern 2.
[0017]
As shown in FIG. 1, in a store such as a supermarket, a store (that is, a sales floor) 1 in which a display stand such as a cooling open showcase is installed, and a work room 2 that processes products such as food displayed on the display stand. , 3 are provided. In the store 1, an in-store temperature detecting device 6 for detecting the in-store temperature and an in-store humidity detecting device 7 for detecting the in-store humidity are installed. Two working chambers 2 and 3 are provided, and one working chamber 2 is provided with a working chamber temperature detecting device 8 for detecting the working chamber temperature and a working chamber humidity detecting device 9 for detecting the working chamber humidity. ing.
[0018]
In order to dehumidify and air-condition the store 1 and the work rooms 2 and 3, a dehumidifying air-conditioning unit 11 is installed as a dehumidifying unit. The in-store air intake 12 of the dehumidifying air conditioning unit 11 is connected to the intake port 17 of the store 1 and the intake ports 18 and 19 of the work chambers 2 and 3 through an intake duct 16. The intake duct 16 includes an in-store intake duct 16a connected to the intake port 17 of the store 1, branch ducts 16b and 16c connected to the intake ports 18 and 19 of the respective work chambers 2 and 3, and for this work chamber. An assembly duct 16d in which the branch ducts 16b and 16c are assembled, and an integrated duct 16e in which the assembly duct 16d and the store-side intake duct 16a join together, and the integrated duct 16e is in the store of the dehumidifying air conditioning unit 11 It is connected to the air intake 12. The branch ducts 16b and 16c for the work room and the collective duct 16d constitute a work room side intake duct.
[0019]
On the other hand, the in-store air discharge port 21 of the dehumidifying air conditioning unit 11 is connected to the discharge port 26 in the store 1 and the discharge ports 27 and 28 in the work rooms 2 and 3 through the discharge duct 22. The discharge duct 22 includes a store-side discharge duct 22a connected to the discharge port 26 in the store 1, branch ducts 22b and 22c connected to the discharge ports 27 and 28 of the work chambers 2 and 3, and a branch duct for the work chamber. 22b, 22c is a collective duct 22d, and the collective duct 22d and the store-side discharge duct 22a are joined together to form an integrated duct 22e. The integrated duct 22e is an in-store air discharge port of the dehumidifying air conditioning unit 11. 21 is connected. The working chamber branch ducts 22b and 22c and the collective duct 22d constitute a working chamber discharge duct. The dehumidifying air conditioning unit 11, the intake duct 16, the discharge duct 22 and the like constitute a dehumidifying air conditioning system.
[0020]
The air flow in the ducts 16 and 22 is controlled to be opened and closed by the following motor dampers 31 to 34. A motor damper 31 for opening and closing the air flow from the store 1 to the dehumidifying air conditioning unit 11 is provided in the store inner intake duct 16a. A motor damper 32 for opening and closing the air flow from the work chambers 2 and 3 to the dehumidifying air conditioning unit 11 is provided in the collective duct 16d on the work chamber side. A motor damper 33 for opening and closing the air flow from the dehumidifying air conditioning unit 11 to the store 1 is provided in the store inner discharge duct 22a. A motor damper 34 for opening and closing the air flow from the dehumidifying air conditioning unit 11 to the work chambers 2 and 3 is provided in the collective duct 22d on the work chamber side. The motor dampers 31 to 34 are electric dampers that are opened and closed by a motor. The motor dampers 31 to 34 allow the air flow in the duct when open, and block the air flow in the duct when closed.
[0021]
As shown in FIG. 2, the dehumidifying air conditioning unit 11 includes a rotary dehumidifying device 41, a cooling heat exchanger 42, a heating heat exchanger 43, a regenerative heater 44 such as an electric heater, a dehumidifying blower 45, and a regenerative blower. A device 46 is provided. The rotary dehumidifier 41 is a so-called desiccant dehumidifier, and the rotary dehumidifier 41 is provided with a moisture adsorption element 51 such as a disk-shaped silica gel. The moisture adsorption element 51 is a motor (not shown). Is driven to rotate. The flow path of air flowing through the moisture adsorption element 51 is divided into two, one flowing through the moisture adsorption region 52 and the other flowing through the moisture release region 53. When the moisture adsorption element 51 rotates, the moisture adsorption region 52 and the moisture release region 53 are alternately passed. That is, when the moisture adsorption element 51 rotates, the portion located in the moisture adsorption region 52 moves to the moisture release region 53, and then sequentially moves to the moisture adsorption region 52 again.
[0022]
The air flow path blown by the dehumidifying blower 45 is connected to the dehumidifying blower 45, the moisture adsorption region 52 of the rotary dehumidifier 41, the cooling heat exchanger 42, from the in-store air intake 12 on the upstream side. The heating heat exchanger 43 and the store air outlet 21 are sequentially connected, and an outside air intake device 56 is connected between the store air intake 12 and the dehumidifying blower 45.
[0023]
The air flow path blown by the regeneration air blower 46 is connected to the regeneration heater 44, the moisture release region 53 of the rotary dehumidifier 41, the regeneration air blower 46, and the regeneration air from the regeneration air intake 58 on the upstream side. Exhaust ports 59 are sequentially connected. Further, the dehumidifying air conditioning unit 11 is provided with an outside air temperature detecting device 61 for detecting the outside air temperature and an outside air humidity detecting device 62 for detecting the outside air humidity. Further, a control device 66 is built in the dehumidifying air conditioning unit 11.
[0024]
The control device 66 is constituted by a microcomputer or the like. As shown in FIG. 3, various electrical components are connected to the control device 66. As electrical components related to the present invention, an in-store temperature detection device 6, an in-store humidity are provided on the input side. The detecting device 7, the working chamber temperature detecting device 8, the working chamber humidity detecting device 9, the outside air temperature detecting device 61, the outside air humidity detecting device 62 and the like are connected. On the other hand, the motor dampers 31 to 34 and the rotary type dehumidifying device 41 are connected to the output side. The motor, the regeneration heater 44, the dehumidifying blower 45, the regeneration blower 46, and the like are connected. Other electrical components connected to the control device 66 include, for example, a medium pump (not shown) for the cooling heat exchanger 42 connected to the output side, and a medium pump for the heating heat exchanger 43. (Not shown) and an outside air intake device 56. The control device 66 has a built-in timer that can measure elapsed time and the like, and stores a control program. Further, various setting values are set in the control device 66 in advance.
[0025]
Next, the operation when dehumidifying the in-store 1 and the work rooms 2 and 3 in the dehumidifying system of the embodiment configured as described above will be described. When the inside of the store 1 is dehumidified, the motor damper 31 of the store-side intake duct 16a and the motor damper 33 of the store-side discharge duct 22a are opened, and the motor damper 32 and the work chamber-side discharge duct of the collective duct 16d in the work chamber-side intake duct are opened. The motor damper 34 of the collective duct 22d is closed. On the other hand, when dehumidifying the working chambers 2 and 3, the motor damper 31 of the store interior intake duct 16a and the motor damper 33 of the store interior discharge duct 22a are closed, and the motor damper 32 of the collective duct 16d and the motor damper 34 of the collective duct 22d are opened. ing. Either the store 1 or the work chambers 2 and 3 is selectively dehumidified so that the odors of the work chambers 2 and 3 do not flow into the store 1.
[0026]
During dehumidification, the dehumidifying blower 45, the regenerating blower 46, and the regenerating heater 44 are operated, and the moisture adsorption element 51 of the rotary dehumidifying device 41 is rotated by a motor. Then, by the operation of the dehumidifying blower 45, the air in the store 1 or the work chambers 2, 3 is sucked from the store air intake 12 and flows into the moisture adsorption region 52 of the rotary dehumidifier 41. In the moisture adsorption region 52, moisture contained in the air is adsorbed by the moisture adsorption element 51, and the humidity of the air is lowered. Further, the moisture adsorbed on the moisture adsorption element 51 moves from the moisture adsorption region 52 to the moisture release region 53 as the moisture adsorption element 51 rotates. As will be described later, outside air heated by the regenerative heater 44 flows into the moisture release region 53, and moisture is released from the moisture adsorption element 51 and dried. Further, the temperature of the moisture adsorbing element 51 rises due to the heated outside air. The portion where the temperature of the moisture adsorption element 51 is increased and dried moves from the moisture release area 53 to the moisture adsorption area 52 with the rotation of the moisture adsorption element 51, and as described above, from the store air intake 12. Adsorbs moisture from the air and raises the temperature of the air.
[0027]
The low-humidity and relatively high-temperature air from the moisture adsorption region 52 passes through the cooling heat exchanger 42 and the heating heat exchanger 43, which are temperature adjustment devices, and is temperature-adjusted. 21 is discharged into the store 1 or the work rooms 2 and 3. When the outside air is introduced into the store 1 or the work rooms 2 and 3, the outside air intake device 56 is opened. Outside air is introduced from the outside air intake device 56, passes through the store air discharge port 21 through the dehumidifying blower 45, the rotary dehumidifying device 41, the cooling heat exchanger 42 and the heating heat exchanger 43. It is discharged into the store 1 or the work rooms 2 and 3.
[0028]
Due to the operation of the regeneration air blower 46, outside air that is regeneration air is sucked from the regeneration air inlet 58, and the suctioned regeneration air is heated by the regeneration heater 44, the temperature rises, and the moisture of the moisture adsorption element 51 is increased. It flows into the discharge area 53. In the moisture release region 53, the regeneration air releases moisture from the moisture adsorption element 51. The moisture adsorbing element 51 is dried and regenerated, and the humidity of the regeneration air increases. The regeneration air having increased humidity is discharged from the regeneration air exhaust port 59. In this way, moisture in the air from the store 1 and the work rooms 2 and 3 is released from the store air intake 12 to the outside through the regenerative air exhaust port 59 through the rotating rotary dehumidifier 41. .
[0029]
Further, when the store 1 and the work rooms 2 and 3 are sufficiently dehumidified, the dehumidifying air conditioning unit 11 is switched from the dehumidifying operation to the air blowing operation. In the dehumidifying operation, as described above, the dehumidifying blower 45, the rotary dehumidifying device 41, the regenerating blower 46, and the regenerating heater 44 are operating. On the other hand, in the blowing operation, the dehumidifying blower 45 is operating, but the regeneration blowing device 46, the regeneration heater 44, and the rotary dehumidifying device 41 are stopped. The rotary dehumidifier 41 can be operated and rotated.
[0030]
Next, an example of a control pattern by the control device 66 will be described. Various control patterns are conceivable, but typical ones are shown below.
Control pattern (1)
In the time chart of FIG. 4 and the flowchart of FIG. 5, the blower to the store 1 and the blower to the work chambers 2 and 3 are alternately switched by opening and closing the motor dampers 31 to 34. And before and after the opening and closing of the motor dampers 31 to 34, the blowing of the dehumidifying blower 45 is stopped to prevent the malfunction of the motor dampers 31 to 34 due to the differential pressure.
[0031]
In FIG. 5, it is assumed that in the initial state of Step 0, the dehumidifying air conditioning unit 11 is in a dehumidifying operation or a blowing operation, and the dehumidifying blower 45 is in operation. In addition, it is assumed that the motor dampers 31 and 33 are opened, the motor dampers 32 and 34 are closed, and the motor dampers 31 to 34 are switched so that the dehumidifying air conditioning unit 11 can ventilate the store 1.
[0032]
In step 1, when a ventilation switching signal is generated manually or automatically in the control device 66, the control device 66 outputs a stop signal to the dehumidifying blower 45, and stops the dehumidifying blower 45. Next, at step 2, the control device 66 determines whether or not 1 minute, which is the set time before damper switching, has elapsed, and goes to step 3 after 1 minute has elapsed. In step 3, the control device 66 outputs an operation signal to the motor dampers 31 to 34. In other words, the motor dampers 31 and 33 are closed by outputting a close signal, and the motor dampers 32 and 34 are opened by outputting an open signal. In this manner, the motor dampers 31 to 34 are switched so that the ventilation is on the working chambers 2 and 3 side.
[0033]
Then, the process proceeds to step 4, where the control device 66 determines whether or not 5 minutes, which is the set time after damper switching, has elapsed, and proceeds to step 5 after 5 minutes. In step 5, the control device 66 outputs an operation signal to the dehumidifying blower 45 and starts blowing. Next, returning to Step 1, when the next switching signal is generated in the control device 66, Step 1 to Step 5 are repeated, the motor dampers 31 to 34 are operated, and the ventilation is switched to the in-store 1 side.
[0034]
Control pattern (2)
The time chart of FIG. 6 and the flowchart of FIG. 7 are examples of the daily operation of the dehumidifying air conditioning system. During the opening of the store, the store 1 is dehumidified, and after the store is closed, the work rooms 2 and 3 are dehumidified. And when the dehumidification of the work chambers 2 and 3 is completed, the dehumidifying air conditioning unit 11 stops. In addition, since the temperature of the air from the dehumidifying air conditioning unit 11 is relatively high, the temperature of the work chambers 2 and 3 is excessively increased, which may adversely affect the equipment installed in the work chambers 2 and 3. Therefore, when the temperature of the working chambers 2 and 3 rises, the operation mode of the dehumidifying air conditioning unit 11 is switched from the dehumidifying operation to the air blowing operation. After that, when the temperature of the working chambers 2 and 3 decreases, the air blowing operation is switched to the dehumidifying operation. Yes.
[0035]
In FIG. 7, in the initial state of step 10, the dehumidifying air conditioning unit 11 is stopped. In addition, it is assumed that the motor dampers 31 and 33 are opened, the motor dampers 32 and 34 are closed, and the motor dampers 31 to 34 are switched so that the dehumidifying air conditioning unit 11 can ventilate the store 1.
[0036]
In step 11, the control device 66 determines whether or not the store opening 20 minutes before the store opening initial dehumidification securing time has been set. In step 12, the control device 66 outputs a dehumidifying operation start signal to the dehumidifying air conditioning unit 11. That is, the control device 66 outputs an operation signal to the dehumidifying blower 45, the motor of the rotary dehumidifier 41, the regeneration heater 44, and the regeneration blower 46. Then, the dehumidifying air conditioning unit 11 performs a dehumidifying operation. Then go to step 13. In step 13, the control device 66 determines whether or not a preset opening time has been reached, and goes to step 14 when the opening time is reached.
[0037]
In step 14, the dehumidifying air conditioning unit 11 is in a normal operation. That is, the control device 66 determines whether or not the in-store humidity detected by the in-store humidity detection device 7 is equal to or lower than the in-store humidity set in the control device 66 in advance. Puts the dehumidifying air conditioning unit 11 into the air blowing operation mode and goes to step 17. On the other hand, if it is determined in step 14 that the control device 66 exceeds the in-store set humidity, the process goes to step 15, the control device 66 puts the dehumidifying air conditioning unit 11 into the dehumidifying operation mode, and goes to step 17.
[0038]
In step 17, the control device 66 determines whether or not the closing time set in advance is reached. If the closing time is not reached, the control device 66 returns to step 14. On the other hand, when the store closing time is reached, the process goes to step 18. In step 18, the controller 66 outputs a damper operation signal to the motor dampers 31 to 34, switches the ventilation to the working chambers 2 and 3 side, and goes to step 19. In step 19, the control device 66 determines whether or not the working chamber temperature detected by the working chamber temperature detection device 8 has reached or exceeded a preset working chamber set temperature of 40 ° C. 21, the control device 66 puts the dehumidifying air conditioning unit 11 into the air blowing operation mode, and goes to step 22. On the other hand, if it is determined in step 19 that the control device 66 is lower than the working room set temperature, the process goes to step 20, and the control device 66 puts the dehumidifying air conditioning unit 11 into the dehumidifying operation mode, and goes to step 22.
[0039]
In step 22, the control device 66 determines whether or not the measurement time from the start of dehumidification of the work chambers 2 and 3 has reached a preset work room ventilation time of 3 hours, and the work room ventilation time is set. If not, the process returns to step 19. On the other hand, if the working room ventilation time is reached, the process goes to step 23. In step 23, the control device 66 outputs a stop signal to the dehumidifying air conditioning unit 11, stops the dehumidifying air conditioning unit 11, and goes to step 24. In step 24, the control device 66 outputs a damper operation signal to the motor dampers 31 to 34, switches the ventilation to the in-store 1 side, and returns to step 11.
In addition, the ventilation switching in step 18 stops the blowing of the dehumidifying blower 45 from one minute before to five minutes after the output of the damper operation signal, similarly to steps 2 to 4 of the control pattern 1. .
[0040]
Control pattern (3)
Instead of the operation of step 22 in the control pattern (2) described above, the control device 66 determines that the working chamber humidity detected by the working chamber humidity detection device 9 is equal to or lower than a preset working chamber set humidity (for example, 30%). It is determined whether or not. In the following cases, the process goes to Step 23, and when the working room set humidity is exceeded, the process goes to Step 19.
[0041]
Control pattern (4)
The next step 22-1 and step 22-2 are inserted between step 22 and step 23 of the control pattern (2). In Step 22-1, the control device 66 determines whether the operation mode of the dehumidifying air conditioning unit 11 is the air blowing operation or the dehumidifying operation. In the case of the air blowing operation, the process goes to Step 22-2, and after performing the dehumidifying operation for a preset time in the control device 66, the process goes to Step 23. On the other hand, in step 22-1, in the case of the dehumidifying operation, the process immediately goes to step 23.
[0042]
In this way, the control device, which is a control means, controls each damper to selectively switch between ventilation in the store or ventilation in the work room, and this damper control means outputs a damper operation signal. When operating the motor damper by outputting, a stop signal is output to the dehumidifying blower before outputting the damper operating signal, and an operating signal of the dehumidifying blower is output after the output of the damper operating signal. Further, there is provided a ventilation switching air stop control means for stopping the ventilation of the dehumidifying blower 45 when the damper is operated. In addition, when it is determined that the humidity detected by the working room humidity detection device has become equal to or lower than the working room humidity set value, the rotary dehumidifier, the dehumidifying blower, the regenerative heater, and the regenerative blower are stopped and dehumidified. There may be provided a work room ventilation end means for switching to ventilation in the store after outputting a stop signal to the blower.
As described above, the control device includes means for executing each action corresponding to each action to be executed, in addition to the above means. Moreover, it is not always necessary to have all the means described above.
[0043]
Next, a second embodiment of the dehumidifying system in the present invention will be described with reference to FIG. FIG. 8 is a schematic view of a dehumidifying system according to a second embodiment. In the description of the second embodiment, the same reference numerals are given to the components corresponding to the components of the first embodiment, and the detailed description thereof is omitted.
[0044]
FIG. 8 is a diagram corresponding to FIG. 1 of the first embodiment, and the working chamber side collective duct is configured so that the first working chamber 2 and the second working chamber 3 can individually switch the ventilation. Instead of the motor dampers 32 and 34 provided in 16d and 22d, motor dampers 71 to 74 are provided in the respective work room side branch ducts 16b, 16c, 22b and 22c. When the motor damper 71 and the motor damper 74 are opened, the second working chamber 3 can be ventilated, and when the motor damper 72 and the motor damper 73 are opened, the first working chamber 2 can be ventilated. The motor dampers 71 to 74 are controlled by the control device 66. Further, the working chamber temperature detecting device 8 and the working chamber humidity detecting device 9 are provided in the first working chamber 2, but the working chamber temperature detecting device 76 and the working chamber humidity detecting device 77 are also provided in the second working chamber 3. The control device 66 can control the ventilation to the working chambers 2 and 3 individually for each of the working chambers 2 and 3. As for other controls, the dehumidifying air conditioning system of the second embodiment is also controlled by the control device 66 in substantially the same manner as the dehumidifying air conditioning system of the first embodiment.
[0045]
As described above, in the embodiment, since the dehumidifying blower 45 is stopped before and after the switching of the motor dampers 31 to 34 and 71 to 74, malfunctions of the motor dampers 31 to 34 and 71 to 74 due to differential pressure, etc. Can be prevented.
Further, since the ventilation to the store 1 and the ventilation to the work rooms 2 and 3 are selectively switched, it is possible to prevent the odor of the work rooms 2 and 3 from flowing into the store 1 as much as possible.
[0046]
Further, when the air is blown into the store 1 after the air blowing mode for the work chambers 2 and 3 is set, the odor of the work chambers 2 and 3 is caused by the moisture in the rotary dehumidifier 41 during the air blowing mode to the work rooms 2 and 3. The odor adsorbed by the adsorbing element 51 and adsorbed by the moisture adsorbing element 51 may flow into the in-store 1 when the air is blown into the in-store 1. Therefore, when the air is blown into the store 1 after setting the air blowing mode to the work chambers 2 and 3, the operation mode of the dehumidifying air conditioning unit 11 is temporarily set to the dehumidifying operation, and the odor of the work chambers 2 and 3 enters the store 1. I try not to flow.
[0047]
And when the working chamber temperature detection device 8 is provided and the working chamber temperature becomes high, the dehumidifying operation is switched to the air blowing operation, so that the temperature of the working chambers 2 and 3 rises and is installed in the working chambers 2 and 3. It is possible to prevent as much as possible from adversely affecting the equipment.
[0048]
Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims. Can be done. Examples of modifications of the present invention are illustrated below.
(1) In the embodiment, the dehumidifying unit is a dehumidifying air conditioning unit, but the air conditioning function is not necessarily required. For example, it is possible not to provide a cooling heat exchanger or a heating heat exchanger.
[0049]
(2) If the in-store temperature detecting device 6 and the in-store humidity detecting device 7 can detect the temperature and humidity of the in-store 1, the structure and arrangement thereof can be changed as appropriate. For example, it is possible to use a temperature sensor, a thermostat or the like, and it is also possible to install in a place other than the store 1 (for example, in a duct or a dehumidifying air conditioning unit). Similarly, as long as the working room temperature detecting device 8 and the working room humidity detecting device 9 can detect the temperature and humidity of the working rooms 2 and 3, the structure and arrangement thereof can be changed as appropriate.
(3) Although the dehumidifying blower 45 is provided on the upstream side of the air flow path and the regeneration blower 46 is provided on the downstream side of the air flow path, the arrangement can be changed as appropriate.
[0050]
(4) The outside air intake device 56 is not necessarily provided.
(5) Each set value set in the control device 66 can be changed as appropriate.
[0051]
(6) The material of the moisture adsorbing element 51 can be appropriately selected as long as it can adsorb moisture and can be regenerated, and materials other than silica gel can also be used.
(7) The regenerative heater 44 is not limited to an electric heater as long as it can heat regenerative air (outside air), and its structure and type can be selected as appropriate.
(8) Each control pattern can be changed as appropriate. It is also possible to combine the control patterns.
(9) When ventilating the store after ventilating the work room, the dehumidifying operation is performed regardless of the humidity of the work room. It is possible at any time until the air blowing into the store is started.
(10) The number of stores (sales floors) and the number of work rooms can be changed as appropriate, and can be singular or plural.
[0052]
【The invention's effect】
According to the present invention, since the inside of the store and the working room are dehumidified by the rotary dehumidifier, the dehumidification can be efficiently performed without lowering the temperature in the store. As a result, cold aisle can be prevented as much as possible. In addition to the inside of the store, the work room can be dehumidified, and the work room can be sterilized and the equipment installed in the work room can be dried. Also, damper control means is provided to control each damper to selectively switch between ventilation to the store or ventilation to the work room, so that the rotary dehumidifier can be used for both dehumidification in the store and dehumidification in the work room. In addition, it is possible to prevent the odor of the work room from flowing into the store as much as possible without simultaneously blowing air into the store and the work room.
[0053]
And When it is determined that the humidity detected by the working room humidity detection means is equal to or lower than the working room humidity set value, the rotary dehumidifying device, the dehumidifying blower, the regenerative heater and the regenerating blower are stopped and the dehumidifying blower is stopped. After the stop signal is output to the device, by providing a work room ventilation end means that controls each damper to switch to the ventilation in the store, when the humidity in the work room decreases, dehumidification of the work room is stopped and It can be switched to ventilation. As a result, it is possible to prevent the work chamber from being dehumidified for an unnecessarily long time, and to reduce the running cost.
[0054]
Furthermore, when the working room ventilation time, which is the elapsed time after switching to the ventilation to the working room, is measured and it is determined that the working room ventilation time has reached the ventilation time setting value, the rotary dehumidifier and the dehumidifying fan In addition to stopping the apparatus, the regenerative heater and the regenerative air blower, and providing a work room ventilation end means for controlling each damper and switching to the air flow into the store after outputting a stop signal to the dehumidifying air blower, When dehumidification is performed for a predetermined time, it is possible to stop dehumidification in the work room and to switch to ventilation in the store. As a result, it is possible to prevent the work chamber from being dehumidified for an unnecessarily long time, and to reduce the running cost.
[0055]
[0056]
In addition, before the ventilation to the work room is completed, the regeneration air blower is operated to perform the dehumidifying operation, and the odor of the work room adsorbed on the moisture adsorption element of the rotary dehumidifier is operated. Can be discharged together with the outside air. As a result, it is possible to prevent as much as possible that the odor of the working room adsorbed by the moisture adsorbing element flows into the store.
[0057]
In addition, when the work room ventilation end means determines that the work room ventilation time has reached the ventilation time set value, if the regeneration blower is already stopped, an operation signal is output to the regeneration blower and set. After operating the regenerative blower for a certain period of time, the rotary dehumidifier, the dehumidifier blower, the regenerative heater and the regenerative blower are stopped, and each damper is controlled after the dehumidifier blower is stopped. By providing means for ensuring dehumidifying operation at the end of switching to ventilating air, the odor in the working chamber adsorbed by the moisture adsorbing element of the rotary dehumidifier can be released to the outside along with the outside air by operating the regenerative blower. After that, it switched to the ventilation to the store. As a result, it is possible to prevent as much as possible that the odor of the working room adsorbed by the moisture adsorbing element flows into the store.
[0058]
Then, when ventilating the store after ventilating the work room, the dehumidifying operation is performed by operating the regeneration heater and the regeneration blower regardless of the in-store humidity detected by the in-store humidity detecting means. Therefore, the odor in the working chamber adsorbed by the moisture adsorbing element of the rotary dehumidifier can be released to the outside together with the outside air by the operation of the regeneration blower. As a result, it is possible to prevent as much as possible that the odor of the working room adsorbed by the moisture adsorbing element flows into the store.
[0059]
In addition, at the initial stage of ventilation into the store after switching from ventilation to the work room to ventilation in the store, control by the humidity control means in the store is stopped for a set time, and the regeneration heater and the regeneration blower are operated. By providing a dehumidifying operation means at the start of ventilation in the store at the start of ventilation in the store, the odor in the work room adsorbed by the moisture adsorption element of the rotary dehumidifier is removed together with the outside air by the operation of the regeneration blower. Can be released. As a result, it is possible to prevent the odor of the working room adsorbed by the moisture adsorption element from flowing into the store as much as possible.
[Brief description of the drawings]
FIG. 1 is a schematic view of a dehumidifying system according to a first embodiment.
FIG. 2 is a schematic view of a dehumidifying unit of the dehumidifying system of FIG.
FIG. 3 is a schematic diagram of input / output of a control device.
FIG. 4 is a time chart of a control pattern 1;
FIG. 5 is a flowchart of a control pattern 1;
FIG. 6 is a time chart of a control pattern 2;
FIG. 7 is a flowchart of a control pattern 2;
FIG. 8 is a schematic view of a dehumidifying system according to a second embodiment.
[Explanation of symbols]
1 Inside the store
2 Working room
3 Working room
7 In-store humidity detector (in-store humidity detection means)
8 Work room temperature detection device (work room temperature detection means)
9 Work room humidity detection device (work room humidity detection means)
12 In-store air intake
16a In-store intake duct
16b Branch duct (work chamber side intake duct)
16c Branch duct (work chamber side intake duct)
16d Collecting duct (work chamber side intake duct)
21 In-store air outlet
22a Inside store discharge duct
22b Branch duct (work chamber side discharge duct)
22c Branch duct (work chamber side discharge duct)
22d Collecting duct (work chamber side discharge duct)
31 Motor damper (inside store intake damper)
32 Motor damper (work chamber side intake damper)
33 Motor damper (inside store discharge damper)
34 Motor damper (work chamber side discharge damper)
41 Rotary dehumidifier
44 Regenerative heater
45 Air blower for dehumidification
46 Blower for regeneration
51 Moisture adsorption element
52 Moisture adsorption area
53 Water release area
66 Control device
71 Motor damper (work chamber side intake damper)
72 Motor damper (work chamber side intake damper)
73 Motor damper (work chamber side discharge damper)
74 Motor damper (work chamber side discharge damper)
76 Working room temperature detecting device (working room temperature detecting means)
77 Working room humidity detector (working room humidity detection means)

Claims (6)

A dehumidification system for dehumidifying air in a store and a store having a work room,
A rotary dehumidifier that rotates the moisture adsorption element to adsorb moisture in the moisture adsorption area and releases moisture in the moisture release area;
A dehumidifying blower that sucks air in the store from the store air intake, passes the air through the moisture adsorption region of the rotary dehumidifier, and returns the air from the store air outlet to the store again;
A regenerative air blower that takes in the regenerative air and sequentially passes this air through the regenerative heater and the moisture release region of the rotary dehumidifier;
A store interior intake duct connecting the store air intake to the store;
A store inside discharge duct connecting the store air outlet to the store;
A work room side intake duct connecting the store air intake to the work room;
A work room side discharge duct connecting the air outlet in the store to the work room;
A store-side intake damper that is provided in the store-side intake duct and opens and closes a flow from the store to the store air intake;
A store-side discharge damper that is provided in the store-side discharge duct and opens and closes the flow from the store air discharge port to the store;
A work room side intake damper that is provided in the work room side intake duct and opens and closes a flow from the work room to the store air intake;
A work room side discharge damper that is provided in the work room side discharge duct and opens and closes a flow from the air discharge port in the store to the work room;
Damper control means for controlling each damper and selectively switching to one of ventilation to the store or ventilation to the work room;
A working room humidity detecting means for detecting the humidity in the working room;
When it is determined that the humidity detected by the working room humidity detection means is equal to or lower than the working room humidity set value, the rotary dehumidifying device, the dehumidifying blower, the regeneration heater, and the regenerating blower are stopped and the dehumidifying device is used. A dehumidification system comprising: a work room ventilation end means for switching to ventilation in a store after a stop signal is output to a blower. A dehumidification system for dehumidifying air in a store and a store having a work room,
A rotary dehumidifier that rotates the moisture adsorption element to adsorb moisture in the moisture adsorption area and releases moisture in the moisture release area;
A dehumidifying blower that sucks air in the store from the store air intake, passes the air through the moisture adsorption region of the rotary dehumidifier, and returns the air from the store air outlet to the store again;
A regenerative air blower that takes in the regenerative air and sequentially passes this air through the regenerative heater and the moisture release region of the rotary dehumidifier;
A store interior intake duct connecting the store air intake to the store;
A store inside discharge duct connecting the store air outlet to the store;
A work room side intake duct connecting the store air intake to the work room;
A work room side discharge duct connecting the air outlet in the store to the work room;
A store-side intake damper that is provided in the store-side intake duct and opens and closes a flow from the store to the store air intake;
A store-side discharge damper that is provided in the store-side discharge duct and opens and closes the flow from the store air discharge port to the store;
A work room side intake damper that is provided in the work room side intake duct and opens and closes a flow from the work room to the store air intake;
A work room side discharge damper that is provided in the work room side discharge duct and opens and closes a flow from the air discharge port in the store to the work room;
Damper control means for controlling each damper and selectively switching to one of ventilation to the store or ventilation to the work room;
The rotary dehumidifying device and the dehumidifying blower device are measured when the working chamber ventilation time, which is the elapsed time after switching to the ventilation to the working chamber, is measured and it is determined that the working chamber ventilation time has reached the ventilation time setting value. A dehumidification system comprising: a work room ventilation end means for switching the ventilation to the inside of the store after stopping the regeneration heater and the regeneration blower and outputting a stop signal to the dehumidification blower. The dehumidification system according to claim 1 or 2 , wherein the dehumidifying operation is performed by operating the regenerative heater and the regenerative blower before the end of ventilation to the working chamber. When the working chamber ventilation end means determines that the working chamber ventilation time has reached the ventilation time setting value, when the regeneration blower is already stopped, an operation signal is output to the regeneration blower, After operating the blower for regeneration for a set time, the rotary dehumidifier, the dehumidifier blower, the regeneration heater, and the regeneration blower are stopped, and each damper is controlled after the dehumidifier blower is stopped. The dehumidifying system according to claim 1 or 2, further comprising means for ensuring dehumidifying operation at the end of switching to ventilation in the store. In-store humidity detection means for detecting the humidity in the store is provided,
When ventilating the store after ventilating the work room, the dehumidifying operation is performed by operating the regenerative heater and the regenerative air blower regardless of the in-store humidity detected by the in-store humidity detecting means. The dehumidification system of any one of Claims 1 thru | or 4 characterized by these. In-store humidity detecting means for detecting the humidity in the store;
When the humidity detected by the in-store humidity detecting means is lower than the set humidity for in-store during ventilation into the store, the regeneration heater and the regeneration blower are stopped and switched from the dehumidifying operation to the air-blowing operation, while the in-store humidity detection is performed. When the humidity detected by the means exceeds the set humidity for the store, the store humidity management means for operating the regeneration heater and the regeneration blower to switch from the blowing operation to the dehumidifying operation,
At the initial stage of the ventilation into the store after switching from the ventilation to the work room to the ventilation in the store, the control by the in-store humidity management means is stopped for a set time, and the regeneration heater and the regeneration blower are operated. The dehumidification system according to any one of claims 1 to 4, further comprising a dehumidifying operation means at the start of ventilation in the store at the start of ventilation in the store.

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