KR101508908B1 - Driving method of auto desiccator for stable humidity condition - Google Patents

Abstract

The present invention relates to a driving method of an auto desiccator. In previous regeneration processes of a water-absorbing composition, there is a problem that as an outdoor air can be flown into a dehumidification unit, moisture can also be drawn into the same to be resided therein such that moisture can be flown reversely into a dehumidification box (cabinet) in a consequent drying process thereof; given such the above problem, the present invention provides a driving method whereby, after a regeneration process, an outdoor air inflow shutter is closed, an outdoor air discharge shutter is opened, and an inflow shutter communicated to a humidification box is opened instead, thereby allowing a drying process to be performed after discharging residual humidity inside a humidification box to the outside.

Description

Technical Field [0001] The present invention relates to a method of operating an autodisciator for maintaining a stable humidity,

[0001] The present invention relates to a method of operating an autodisciator, wherein moisture is introduced into the dehumidifying unit during the regeneration process of the desiccant, and the dehumidified air is remained in the dehumidifying unit, The outdoor air flow-out shutter is closed and the outdoor air outflow shutter is opened. Instead, the outdoor air flow-in shutter, which is communicated by dehumidification, is opened and remains in the dehumidification controller. The moisture is discharged to the outside and then the drying process is performed to maintain a stable humidity state.

An auto desiccator is schematically illustrated in FIGS. 1 and 2, which automatically dehumidify the interior of a dehumidifier with an openable door having a sight window, It is a device to store in a humidity condition requiring expensive electronic parts.

In the drawings, reference numeral 1 denotes a viewing window, reference numeral 2 denotes a door handle, reference numeral 3 denotes a shelf rack inside the dehumidifier, reference numeral 4 denotes a dehumidifying unit provided on the rear surface of the autodisciator, and reference numeral 5 denotes a status display window (display).

3, the dehumidifying unit 4 is provided with a moisture absorbent 41, a heater 42 and a fan 43 therein. The dehumidifying unit 4 is provided between the dehumidifying unit 4 (see FIG. 2) and the dehumidifying unit 4 An air inflow inlet shutter 44 and an air inflow outflow shutter 45 for collecting moisture inside the dehumidifying unit 4 by the moisture absorbent 41, a dehumidifying unit 4 And an outside air inflowing shutter 46 and an outside air outflow shutter 47 formed between the outside (outdoor) and the outside (outside).

As shown in FIG. 4, the shutter 44, 45, 46, 47 is opened and closed by one actuator 48. In the drying process, the inside air inlet shutter 44 and the inside air outlet shutter 45 Is opened so that the air in the dehumidifying chamber is circulated toward the dehumidifying unit 4 to remove the moisture contained in the air inside the dehumidifying chamber 41 by the moisture absorbent 41.

5, the inside air inlet shutter 44 and the inside air outlet shutter 45 are closed and the outside air inflow shutter 46 and the outside air outflow shutter 47 are closed, The moisture of the moisture absorber 41 is discharged to the outside by the introduction of the outside air and the regeneration of the moisture absorber is performed.

In such an autodisci- cal device, for example, one cycle is set to 6 hours by a timer, and the moisture absorber is regenerated by opening and closing operation of the shutter for absorbing and discharging water while heating the moisture absorber for about 30 minutes And dehumidifying by repeating a drying process for dehumidifying by dehumidifying by air circulation for the rest of the time. In order to improve the dehumidifying effect, a plurality of dehumidifiers A dehumidifying unit is also installed and operated.

On the other hand, in the above-described conventional autodisciator, external moisture is introduced into the dehumidifying unit simultaneously with the inflow of the outside air into the dehumidifying unit. At this time, the introduced moisture remains in the dehumidifying unit , The moisture remaining in the dehumidifying unit is dehumidified in the subsequent drying process. The dehumidifying air flows into the inside of the dehumidifying unit. The humidity in the inside of the dehumidifying chamber rises again, so that the humidity is not stably maintained and fluctuates. There is a possibility that a problem arises in the storage state of chemical agents and the like.

Open Patent Publication No. 10-2002-0007567 (published on Jan. 29, 2002) Patent Registration No. 10-0641294 (registered on October 25, 2006) Registration Utility Model Bulletin No. 20-0239573 (Registered on July 11, 2001)

It is an object of the present invention to provide an automatic desiccator which is capable of preventing moisture from entering the dehumidifying unit during the regeneration of the desiccant contained in the dehumidifying unit, And the humidity of the dehumidified air is increased. Thus, it is possible to maintain the dehumidification in a stable manner.

In order to achieve the above object, according to the present invention, there is provided a process for removing moisture remaining in the dehumidifying unit to the outside after the outside air inflowing shutter is closed, the outside air discharging shutter is opened, A dehumidifying unit having a dehumidifier, a humidifier, a heater and a fan; a dehumidifying unit formed between the dehumidifying unit and the dehumidifying unit to circulate the air inside the dehumidifying unit, And an outside air outflow shutter formed between the dehumidifying unit and the outside. In the drying process, the inside air inflowing shutter and the inside air outflow shutter are opened to remove dehumidifying air from the dehumidifying unit, Dehumidification by the desiccant while the air inside the enclosure is circulated. In the regeneration process, the indoor air inlet shutter and the indoor air outlet shutter are closed, and the outside air inlet shutter and the outside air outlet shutter are opened to regenerate the moisture absorber. Wherein the air inlet opening shutter and the air outlet opening shutter which are communicated to the dehumidifying compartment after the regeneration process are opened and the outdoor air inlet shutter of the outdoor air outlet shutter and the outdoor air outlet shutter of the outdoor air outlet shutter are opened, And the fan is operated to remove the moisture remaining in the dehumidifying unit during the regeneration process due to the inflow of the outside air, and then the dehumidifying drying process is performed.

In the present invention, after the regeneration process of the hygroscopic agent, the drying process of the dehumidifying unit is not performed, but the drying process of the dehumidifying unit is performed after removing the residual moisture inside the dehumidifying unit caused by the introduction of the outside air, The moisture introduced into the unit can be reversely introduced into the dehumidifying chamber to eliminate the phenomenon that the humidity is high, so that the dehumidifying chamber has a useful effect of keeping the inside of the chamber in a stable humidity state.

1 is a front view showing a schematic configuration of a conventional autodisciator,
2 is a side sectional view of a conventional autodetector,
3 is a schematic diagram of a dehumidifying unit of a conventional autodisciator,
FIG. 4 is a view showing a state in which the shutter is opened and closed during the drying process of the conventional autodisciator,
Fig. 5 is a view showing a state in which the shutter is opened and closed in the process of regenerating the moisture absorber of the conventional autodisciator,
6 shows the configuration of an automatic desiccator according to the present invention, which shows the state of the shutter open and closed and the state of air flow in the course of regenerating the moisture absorbent,
7 shows the state of opening and closing of the shutter and the flow of air in the dehumidifying process of the desiccant in the autodisciator according to the present invention,
8 is a view showing an open / closed state of a shutter and an air flow state in a drying process in an autodisciator according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIGS. 6, 7 and 8 show the flow of air and the opening and closing states of the shutters in regeneration of the desiccant, dehumidification of the desiccant, and drying of the dehumidifier in the autodisciator according to the preferred embodiment of the present invention.

In this embodiment as well, the structure of the autodisciator is composed of a dehumidifying unit 4 (not shown) and a dehumidifying unit 4 communicating with the dehumidifying unit 4 The regeneration process of the moisture absorber 41 is controlled by controlling the inflow and outflow shutters 44 and 45 to be formed and the opening and closing operations of the outside air inflow and outflow shutters 46 and 47 formed between the dehumidifying unit 4 and the outside air, (Dehumidification of moisture absorbent) and drying of the dehumidifier can be performed, and it is possible to maintain a stable humidity condition inside the dehumidifier as the above-mentioned regeneration, It is.

In the description and drawings of the present invention, the same components as those of the conventional autodisciator have been described with the same reference numerals for the sake of convenience.

A dehumidifying unit 4 having a dehumidifier (not shown), a desiccant 41, a heater and a fan 43 for storing a chemical or the like, a dehumidifying unit 4 4 and an inside air outlet shutter 45 for circulating the air inside the dehumidifying chamber to collect the air in the dehumidifying unit 4 with the moisture absorbent 41 of the dehumidifying unit 4, 6, during the regeneration process of the moisture absorbent 41, the inside air inflowing shutter 44 and the inside air outflow shutter 45 (see FIG. 6) Is closed and only the outside air inflow opening shutter 46 and the outside air outflow shutter 47 are opened to regenerate the moisture absorbent 41. After the regeneration process is completed, Outflow shutter 44 and the inflow-outflow shutter 45 communicated with the inflow-outflow- The heater of the dehumidifying unit 4 and the fan 43 are separated from each other by the outside air inlet shutter 46 and the outside air outlet shutter 47 which are opened only by the air outlet 44 and open to the outside, 8, the dehumidifying unit 4 is operated to remove dehumidified moisture during the regeneration process due to the inflow of outside air, and then the desiccant is dried. In the drying process, And the air outflow shutter 45 are opened so that the air inside the dehumidifying chamber is circulated toward the dehumidifying unit 4 and the moisture contained in the air inside the dehumidifying chamber is removed by the moisture absorber 41.

In the present invention, the dehumidifying unit 4 is divided into upper and lower zones S1, S2, S3 and S4. Actuators 48 and 49 are installed in the uppermost and lowermost zones S1 and S4, And the uppermost and lower end zones S1 and S4 are horizontally divided again into two zones S2 and S3.

A humidifier 41 is installed in the upper section S2 and a fan 43 is installed in the lower section S3. The side and rear walls of the upper section S2 are provided with dehumidifying / And shutters 45 and 47 for opening and closing the passages communicating with the outside by dehumidification are provided on the side wall and the rear wall of the lower section S3.

The shutters 44 and 46 of the upper zone S2 are controlled by the actuator 48 of the uppermost zone and the shutters 45 and 47 of the lower zone S3 are controlled by the actuators 48 of the lower zone S4, Closing operation is controlled by the control unit 49. [

In the present invention, the actuators 48 and 49 for opening and closing the shutters 44, 45, 46, and 47, respectively, open and close the shutters 44 and 46 as shown in FIGS. An actuator 48 for opening and closing the shutter 45 and 47 and an actuator 49 for opening and closing the shutter 45 and 47 are provided separately from the shutter 48. The shutters 44 and 46 are rotatably mounted on the rotary shaft 48a rotated by the actuator 48 The opening and closing operation of the shutter is selectively performed through the turning operation and the opening and closing operation of the shutter 46.47 is selectively performed by the turning operation of the rotary shaft 49a rotated by another actuator 49, So that the air circulation passage in the mode (dehumidification, regeneration, and drying) can be controlled.

Hereinafter, the shutter opening / closing state and the air flow direction in each process will be described in more detail.

[Regeneration of the desiccant]

6, the open / close state of the shutter and the air flow are shown by the arrows in the regeneration process of the moisture absorbent. In the regeneration process of the moisture absorbent, the indoor air inlet shutter 44 and the indoor air outlet shutter 45 are kept closed, The heater 42 and the fan 43 are operated in a state where only the outside air inlet shutter 46 and the outside air outlet shutter 47 on the side of the outdoor unit are open and the regeneration of the moisture absorber 41 by circulation of the outside air .

In the regeneration process of the moisture absorbent, when the humidity of the outside air is high, the moisture absorbed by the moisture absorbs the moisture contained in the outside air and moisture remains in the moisture absorbent. Therefore, when the drying process of the dehumidification is performed without removing the residual moisture, The humidity of the moisture absorbent is rapidly increased. Therefore, the following desiccant desiccant should be dehumidified.

[Dehumidification of the desiccant]

As shown in FIG. 7, in order to dehumidify the moisture absorbent, water contained in the moisture is left in the outside air by the above regeneration process. Among the inside air inflowing shutter 44 and the inside air outflow shutter 45 communicated with the dehumidifying side, Only the air inflow opening shutter 44 is opened and only the outside air outflow shutter 47 is opened from the outside air inflowing shutter 46 and the outside air inflowing shutter 47 communicating with the outside. When the heater 42 and the fan 43 of the air conditioner 41 are operated, the dehumidified air (arrow 1) flows into the desiccant and passes through the outdoor air outflow shutter 47 The moisture contained in the moisture absorbent 41 is discharged to the outside, thereby removing the moisture remaining in the dehumidifying unit 4 during the regeneration of the moisture absorbent.

[Drying of dehumidifier]

8, only the inside air inlet shutter 44 and the inside air outlet shutter 45 are opened to circulate the air (arrows 1 and 2) in the dehumidifying chamber to the dehumidifying unit 4 side, ) Dehumidification by moisture Absorbs the moisture contained in the inside air, so it is dehumidified by the moisture absorber without being influenced by the outside air Dehumidification is done by the inside drying process The humidity inside can be dried while maintaining the stable condition .

The above-described regeneration of the hygroscopic agent, the dehumidification of the hygroscopic agent, and the drying step of dehumidification are successively repeated so that the humidity of the dehumidification can be maintained at a constant state at all times.

In the present invention, the automatic shut-off of the shutters and the automatic shut-off of the heaters and the fans during the automatic opening and closing of the shutters can be controlled through current sensing. A temperature / humidity sensor is installed inside the dehumidifier, The set humidity can be controlled automatically, and storage of the temperature and humidity data during operation is performed.

As described above, according to the method of operating the autodisciator of the present invention, after the regeneration process of the desiccant is completed, the drying process is not continued, the outside air inflow shutter is closed, the outside air outflow shutter is opened, The fan and the heater are operated in the state that the inflow shutter is open so that the moisture remaining in the desiccant 41 of the dehumidifying unit is discharged to the outside and then the drying process is performed to thereby provide a useful effect of stably maintaining the inside humidity .

1: viewing window
2: Door
3: Shelf rack
4: Dehumidifying unit
41: Moisture absorbent
42: heater
43: Fans
44: inlet shutter
45: Outflow Shutter
46: Outside air intake shutter
47: Outside air outflow shutter
48: Actuator
49: Actuator

Claims (1)

A dehumidifying unit formed between the dehumidifying unit and the dehumidifying unit to circulate the air inside the dehumidifying unit and collecting the moisture in the dehumidifying unit as a desiccant; And an outside air inflow opening formed between the dehumidifying unit and the outside. In the drying process, the inflow and outflow shutters are opened to dehumidify the inside of the dehumidifier, And the outflow shutter and the outside air outflow shutter are opened to allow the regeneration of the moisture absorber, the method comprising:
The air inlet opening shutter of the dehumidifying unit and the air outlet opening shutter of the dehumidifying unit are opened while only the outside air inlet shutter of the air outlet opening shutter and the outside air inlet shutter of the outside air outlet shutter are opened, And the fan is operated to remove the moisture remaining in the dehumidifying unit during the regeneration process due to the inflow of the outside air, and then the dehumidifying drying process is performed.

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