KR101073638B1 - A dry type dehumidifying air-conditioner - Google Patents

Abstract

The present invention relates to a dry dehumidification air conditioner, and more particularly, foreign matters such as fine dust adhered to a desiccant contained inside the dehumidification rotor by ultrasonic vibration, and then easily drop foreign matters such as fine dust dropped to the outside. It relates to a dry dehumidifier.
The present invention provides a dehumidification rotor (10) for dehumidifying indoor air sucked into a processing side passage by a blower fan with low humidity air and a dehumidified air by the dehumidification rotor (10). A first exhaust fan 15 to be discharged, a regeneration heater 20 installed in a regeneration side passage in a state of being close to the dehumidification rotor to evaporate the moisture of the dehumidification rotor 10, and the dehumidification rotor 10. After the evaporation of the moisture of the chamber 30 to collect the high-temperature air discharged from the dehumidification rotor, and connected to the chamber 30 via the discharge passage 45 of the high temperature collected in the chamber 30 In the dry dehumidification air conditioner including a second exhaust fan 40 for discharging air to the outside, the dehumidification rotor to drop the fine dust attached to the drying agent dried by the regeneration heater 20 by ultrasonic vibration Ultrasonic vibrator 50 is installed in close proximity to (10), A suction pump connected to the chamber 30 through a suction flow path 65 to suck the fine dust collected together with the hot air into the chamber 30 after being separated from the desiccant by the ultrasonic vibrator 50 ( 60 and one side is connected to the suction pump 60 and the other side is discharged so that hot air and fine dust sucked by the suction pump 60 are discharged to the outside through the second exhaust fan 40. It is installed in the discharge passage 45 between the connecting passage (70) connected to the passage 45, the connection point 75 and the chamber 30 is connected to the discharge passage 45, the connection passage 70 is And a first motorized volume damper 80 for opening and closing the flow path of the discharge flow path, and a second motorized volume damper 90 provided in the suction flow path 65 for opening and closing the flow path of the suction flow path. It is usually configured by the flow path closing operation of the second motorized volume damper 90 The suction passage 65 is blocked, and the discharge passage 45 is opened by the passage opening operation of the first motorized volume damper 80 so that hot air is passed through the second exhaust fan 40. It is configured to be discharged to the outside, when the fine dust attached to the desiccant of the dehumidification rotor 10 by the ultrasonic vibrator 50 by the flow path closing operation of the first motorized volume damper 80 The discharge passage 45 is blocked, and the suction passage 65 is opened by the passage opening operation of the second motorized volume damper 90, so that hot air and fine dust cause the suction pump 60 to flow. It is characterized in that it is configured to be discharged to the outside through the second exhaust fan 40 through the connection flow path 70 through.

Description

Dry dehumidification air conditioner {A DRY TYPE DEHUMIDIFYING AIR-CONDITIONER}

The present invention relates to a dry dehumidification air conditioner, and more particularly, foreign matters such as fine dust attached to a desiccant contained inside the dehumidification rotor are dropped by ultrasonic vibration, and then foreign matters such as fine dust dropped easily to the outside. It relates to a dry dehumidifier.

In general, the dehumidification air conditioner is a device that continuously removes moisture contained in the indoor air by using the moisture absorption and moisture absorption action of the dehumidification rotor.

In detail, the dehumidification rotor provided in the dehumidification air conditioner adsorbs moisture in the air introduced through the suction passage. Air dehumidified through the dehumidification rotor is discharged to the outside of the dehumidification air conditioner through the discharge passage.

In addition, the dehumidifying rotor including moisture is dried (heated) by a predetermined drying and heating means, and the drying (heating) means may include a heat exchanger and a heater.

The general configuration of the dehumidifying air conditioner as described above will be briefly described with reference to FIG. 3.

As shown in FIG. 4, a filter 1 for filtering external air, a dehumidification rotor 2 through which air introduced through the filter 1 passes through dehumidification, and a dehumidification air blower for discharging the dehumidified air Has (3).

In addition, the dehumidifying rotor 2 is configured to be connected to the drive motor 6 to rotate.

In addition, the moisture absorbed by the dehumidification rotor 2 allows a part of the air introduced or the air introduced separately through the dehumidification rotor 2 to pass through the heating heater 4 so as to increase the temperature.

In addition, the heated air passes through the dehumidification rotor 2 again to discharge the moisture absorbed in the dehumidification rotor 2 to the outside through a separate discharge blower (5).

However, in the conventional dehumidification air conditioner, foreign matter such as fine dust adheres to the inner desiccant of the dehumidification rotor 2, thereby deteriorating the water absorption ability of the dehumidification rotor 2, as well as dehumidification due to the installation of a new dehumidification rotor. The maintenance and repair cost of the air conditioner is excessively occurring.

The present invention was devised in view of the above circumstances, and an object of the present invention is to drop foreign substances such as fine dust attached to a desiccant contained inside the dehumidification rotor by an ultrasonic vibrator, and then remove foreign substances such as fine dust dropped. It is to make it easy to discharge to the outside through the exhaust fan to facilitate the rehumidification function of the rehumidification rotor.

The present invention for achieving the above object is a dehumidification rotor (10) for dehumidifying the indoor air sucked into the processing side passage by the blower fan with low humidity air in a state in which the desiccant is accommodated in the inside, and the dehumidification rotor (10) A first exhaust fan 15 for discharging the air dehumidified by the air, and a regeneration heater 20 installed in the regeneration side passage in a state close to the dehumidification rotor to evaporate the moisture of the dehumidification rotor 10; After evaporating the moisture of the dehumidification rotor 10, the chamber 30 collects hot air discharged from the dehumidification rotor 10, and the chamber 30 is connected to the chamber 30 through a discharge passage 45. In the dry dehumidification air conditioner comprising a second exhaust fan 40 for discharging the high-temperature air collected in 30) to the outside, the fine dust attached to the drying agent dried by the regeneration heater 20, ultrasonic vibration Close to the dehumidifying rotor 10 to be separated by A suction flow path 65 in the chamber 30 to suck the fine dust collected by the ultrasonic vibrator 50 and the ultrasonic vibrator 50 away from the desiccant and collected with the hot air into the chamber 30. The suction pump (60) connected via the medium, and one side of the suction pump (60) so that the hot air and fine dust sucked by the suction pump 60 is discharged to the outside through the second exhaust fan (40) 60 is connected to the connection flow path 70 and the other side is connected to the discharge flow path 45, the connection point 75 and the chamber 30 of the connection flow path 70 is connected to the discharge flow path 45 A first motorized volume damper 80 provided in the discharge flow passage 45 to open and close the flow path of the discharge flow path, and a second motor rise provided in the suction flow path 65 to open and close the flow path of the suction flow path. The de-volume damper 90 is further included, and normally, the second motorized volume The suction flow path 65 is blocked by the flow path closing operation of the fur 90, and the discharge flow path 45 is opened by the flow path opening operation of the first motorized volume damper 80 so that hot air is released. It is configured to be discharged to the outside through the second exhaust fan 40, when the fine dust attached to the desiccant of the dehumidification rotor 10 by the ultrasonic vibrator 50, the first motorized volume The discharge passage 45 is blocked by the passage closing operation of the damper 80, and the suction passage 65 is opened by the passage opening operation of the second motorized volume damper 90 so that hot air and Fine dust is introduced through the suction pump 60 is characterized in that configured to be discharged to the outside through the second exhaust fan 40 via the connection flow path (70).

As described above, according to the present invention, foreign matters such as fine dust attached to the desiccant housed inside the dehumidification rotor are easily dropped by the ultrasonic vibrator, and foreign matters such as fine dust dropped are sucked out by the suction pump and exhausted. The dehumidification function of the dehumidification rotor can be smoothly performed for a long time by being discharged to the outside through the fan, thereby reducing the maintenance and repair cost of the dehumidification air conditioner.

1 is a block diagram showing a dry dehumidification air conditioner according to the present invention,
Figure 2 is a schematic perspective view showing a state in which the ultrasonic vibrator is installed in close proximity to the dehumidification rotor according to the present invention,
3 is a schematic cross-sectional view schematically showing a state in which the ultrasonic vibrator is installed in close proximity to the dehumidifying rotor according to the present invention;
Figure 4 is a state diagram showing a conceptual diagram of a conventional dehumidification air conditioner.

Hereinafter, with reference to the accompanying drawings will be described in detail the dry dehumidification air conditioner according to the present invention.

1 is a block diagram showing a dry dehumidification air conditioner according to the present invention,

Figure 2 is a schematic perspective view showing a state in which the ultrasonic vibrator is installed in close proximity to the dehumidification rotor, Figure 3 is a schematic cross-sectional view showing a state in which the ultrasonic vibrator in accordance with the present invention is installed in close proximity to the dehumidification rotor.

The dry dehumidification air conditioner according to the present invention is attached to the desiccant contained in the inside of the dehumidification rotor to reduce the moisture absorption efficiency of the desiccant, so that the foreign matter such as fine dust attached to the inner desiccant of the dehumidification rotor is subjected to ultrasonic vibration. After dropping, it is configured to increase the water absorption efficiency of the desiccant housed inside the dehumidification rotor to facilitate the discharge of foreign matter such as fine dust dropped to the outside.

In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, the terms to be described later are terms set in consideration of functions in the present invention, and these terms may vary according to the intention or custom of the producer producing the product, and the definition of the terms should be made based on the contents throughout the present specification.

As described above, the dry dehumidification air conditioner according to the present invention to drop foreign substances such as fine dust attached to the inner desiccant of the dehumidifying rotor to increase the moisture absorption efficiency of the desiccant is processed by a blower fan in a state where the desiccant is accommodated inside. A dehumidification rotor for dehumidifying the indoor air sucked by low humidity air, a first exhaust fan for discharging the air dehumidified by the dehumidification rotor to the room, and a proximity of the dehumidification rotor to evaporate the moisture of the dehumidification rotor. A regeneration heater installed in the regeneration side passage in a state, a chamber for evaporating moisture of the dehumidification rotor and collecting hot air discharged from the dehumidification rotor, and the chamber and the discharge passage connected to each other through the chamber. In the dry dehumidification air conditioner including a second exhaust fan for discharging the collected high-temperature air to the outside, installed in close proximity to the dehumidification rotor (10) The ultrasonic vibrator 50, the suction pump 60, the connection flow path 70, the first motorized volume damper (MVD: MOTORIZED VOLUME DAMPER) (80), the second motorized volume damper (MVD: MOTORIZED VOLUME DAMPER) 90 is further included.

Here, a brief look at the drying dehumidification air conditioner before explaining the configuration of the feature according to the present invention,

The dry dehumidification air conditioner rehumidifies moisture contained in the indoor air introduced into the processing side passage A by the blowing fan 11 by the dehumidifying rotor 10 and then through the first exhaust fan 15. The air is discharged back to the room, and the moisture adsorbed on the dehumidification rotor 10 is dehumidified by repeating the dry regeneration operation as the regeneration heater 20 installed in the regeneration side passage B.

At this time, the processing side passage (A) and the regeneration side passage (B) is partitioned via a partition wall, and the regeneration heater (20) is installed in the regeneration side passage (B) to be adjacent to the dehumidifying rotor (10). A chamber 30 for collecting the hot air passing through the dehumidification rotor 10 is installed at a position close to the dehumidification rotor 10 opposite to the regeneration heater 20, and the chamber 30 is formed in a second position. It is connected via a second exhaust fan 40 and the discharge passage 45, the hot air collected in the chamber 30 is discharged to the outside through the second exhaust fan 40 via the discharge passage 45. .

In addition, the rehumidification rotor 10 is a honeycomb structure is installed in a direction perpendicular to the processing side passage (A) and the regeneration side passage (B), rotatably installed by a drive motor, the rehumidification rotor (10) The inside of the desiccant is accommodated so that the desiccant absorbs moisture contained in the air.

When the dry dehumidification air conditioner is continuously used as described above, foreign substances such as fine dust are attached to the desiccant of the dehumidification rotor 10. In this case, there is a problem in performing the function as the dehumidification rotor 10, and maintenance. As the cost is increased, in the present invention, the ultrasonic plate vibrator 50 is installed in close proximity to the dehumidification rotor 10, and the suction pump 60 receives foreign substances such as fine dust dropped by the ultrasonic plate vibrator 50. Inhalation is to be discharged to the outside through the second exhaust fan (40).

The ultrasonic plate vibrator 50 is installed in close proximity to the dehumidifying rotor 10 to drop fine dust attached to the drying agent dried by the regeneration heater 20 by ultrasonic vibration.

That is, as shown in FIG. 2, the ultrasonic vibrator 50 is installed in the regeneration side passage B. Looking at the preferred installation position, the dehumidification rotor 10 of the regeneration side passage B is one. The regeneration heater 20 is installed in the side direction, and the chamber 30 is installed in the other side direction, and the fixed frame near the outer periphery of the reheating rotor 10 between the regeneration heater 20 and the chamber 30. The ultrasonic vibrator 50 is installed through 55.

 Here, the fixing frame 55 is a fixing member configured to be fixed to the inside of the body of the dehumidification air conditioner, so that the ultrasonic vibrator 50 is installed close to the outer periphery of the dehumidification rotor 10.

In addition, the suction pump 60 is connected to the chamber 30 through the suction flow path 65, and after being separated by the ultrasonic vibrator 50, is collected together with the hot air into the chamber 30. Inhale fine dust in the condition.

In addition, the connection passage 70 is installed to be connected to the discharge passage 45 to discharge the hot air and fine dust sucked by the suction pump 60 to the outside through the second exhaust fan 40. To be.

That is, one side of the suction passage 65 is connected to the chamber 30, the other side is connected to the suction pump 60, the hot air and fine dust collected in the chamber 30 is the suction It is moved to the suction flow path 65 by the operation of the pump 60,

One side of the connection passage 70 is connected to the suction pump 65 and the other side is connected to the discharge passage 45 so that hot air and fine dust passing through the suction passage 65 are discharged to the discharge passage 45. After passing through) is discharged to the outside by the second exhaust fan (40).

In this case, a first motorized volume damper 80 is installed in the discharge passage 45 between the connection point 75 to which the connection passage 70 is connected to the discharge passage 45 and the chamber 30. A second motorized volume damper 90 is installed in the suction passage 65.

That is, the first and second motorized volume dampers 80 and 90 are controlled by a control unit (not shown) provided in the dehumidification air conditioner, and the operation of the first and second motorized volume dampers 80 and 90 is performed. Referring to the state, the suction passage 65 is normally blocked by the flow path closing operation of the second motorized volume damper 90, and the flow path opening operation of the first motorized volume damper 80 is blocked. As a result, the discharge passage 45 is opened, whereby hot air is discharged to the outside through the second exhaust fan 40.

When the micro address attached to the desiccant of the dehumidification rotor 10 is dropped by the ultrasonic vibrator 50, the discharge passage 45 is formed by closing the flow path of the first motorized volume damper 80. ) And the suction passage 65 is opened by the passage opening operation of the second motorized volume damper 90 so that hot air and fine dust are introduced through the suction pump 60 to connect the connection. It is discharged to the outside through the second exhaust fan 40 via the flow path (70).

On the other hand, a separate portable controller is connected to the control unit installed in the dehumidification air conditioner wired / wireless, which is to facilitate the management and operation of the dehumidification air conditioner by allowing the administrator to remotely control the control unit. to be.

Looking at the operating state of the configuration of the features of the present invention configured as described above, the dehumidification rotor is usually rotated while passing through the processing side passage (A) and the regeneration side passage (B) by the reduction motor, the processing side in this process Air entering the passage A is dehumidified by the rehumidifying rotor 10, and the rehumidifying rotor 10 of the regeneration side passage B is dried by the regenerating heater 20. At this time, the hot air discharged from the regenerative heater 20 and passing through the dehumidification rotor 10 is discharged to the outside through the discharge passage 45 through the suction passage, and installed in the suction passage 65. The suction flow passage 65 is blocked by the motorized volume damper 90.

In this state, when the dry dehumidification air conditioner is used for a long time, foreign matters such as fine dust are attached to the desiccant contained inside the dehumidification rotor 10. Since deterioration occurs, foreign matters such as fine dust attached to the desiccant should be dropped.

Therefore, when dropping foreign matters such as fine dust attached to the desiccant as described above, the ultrasonic vibrator 50 installed in close proximity to the dehumidification rotor 10 is operated by a control unit (not shown) installed in the dehumidification air conditioner to dehumidify the dehumidification. The fine dust adhering to the desiccant in the state accommodated inside the rotor 10 is dropped.

Here, the operation of the ultrasonic vibrator 50 may be cleaned according to a cycle input to the timer using a timer of the control unit installed in the dehumidification air conditioner.

The foreign matter such as fine dust dropped from the desiccant is sucked by the suction pump 60 through the second exhaust fan 40 while passing through the suction passage 65, the connection passage 70, and the discharge passage 45. It is discharged to the outside.

In this case, the discharge passage 45 is blocked by the first motorized volume damper 80 installed in the discharge passage 45, and the second motorized volume installed in the suction passage 65. The suction flow path 65 is in an open state by the damper 90.

As such, foreign matters such as fine dust attached to the desiccant contained inside the dehumidification rotor of the dry dehumidification air conditioner are dropped by the ultrasonic vibrator and discharged to the outside, thereby improving the water absorption efficiency of the desiccant contained inside the dehumidification rotor. Therefore, there is an effect that the maintenance and repair cost of the dehumidification air conditioner is reduced.

Although specific embodiments of the present invention have been described in detail, those skilled in the art will appreciate that various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined not only by the patent registration scope described later but by those equivalent to the claims.

<Description of the symbols for the main parts of the drawings>
A: process side passage B: regeneration side passage
1: Dehumidification rotor 11: blower fan
15: first exhaust fan 20: regeneration heater
30: chamber 40: second exhaust fan
45: discharge passage 50: ultrasonic oscillator
55: fixed frame 60: suction pump
65: suction flow path 70: connection flow path
75: connection point 80: first motorized volume damper
90: second motorized volume damper

Claims (2)

Dehumidification rotor 10 for dehumidifying the indoor air sucked into the processing-side passage by the blower fan with low-humidity in the state that the desiccant is accommodated inside, and the agent for discharging the air dehumidified by the dehumidification rotor 10 to the room The exhaust fan 15, the regeneration heater 20 installed in the regeneration side passage in the state adjacent to the dehumidification rotor to evaporate the moisture of the dehumidification rotor 10, and the moisture of the dehumidification rotor 10 After the evaporation, the chamber 30 collects the hot air discharged from the dehumidification rotor, and the hot air collected in the chamber 30 is connected to the chamber 30 through the discharge passage 45. In the dry dehumidification air conditioner comprising a second exhaust fan 40 discharged to
Ultrasonic vibrator 50 is installed in close proximity to the dehumidifying rotor 10 to drop the fine dust attached to the drying agent dried by the regeneration heater 20 by the ultrasonic vibration,
A suction pump connected to the chamber 30 through a suction flow path 65 to suck the fine dust collected together with the hot air into the chamber 30 after being separated from the desiccant by the ultrasonic vibrator 50 ( 60),
One side is connected to the suction pump 60 so that hot air and fine dust sucked into the suction pump 60 are discharged to the outside through the second exhaust fan 40, and the other side is connected to the discharge passage 45. A connection flow path 70 to be connected,
The first motorized volume is installed in the discharge passage 45 between the connection point 75 and the chamber 30 connected to the discharge passage 45 and the chamber 30 to open and close the flow passage of the discharge passage 45. Damper 80,
The second motorized volume damper 90 is installed in the suction flow path 65 to open and close the flow path of the suction flow path.
Usually, the suction flow path 65 is blocked by the flow path closing operation of the second motorized volume damper 90, and the discharge flow path (the flow path opening operation of the first motorized volume damper 80 is performed). 45 is opened so that hot air is discharged to the outside through the second exhaust fan 40.
When the fine dust attached to the desiccant of the dehumidification rotor 10 is dropped by the ultrasonic vibrator 50, the discharge passage 45 is closed by the closing of the flow path of the first motorized volume damper 80. And the suction flow path 65 is opened by the flow opening operation of the second motorized volume damper 90 so that hot air and fine dust flow through the suction pump 60 to connect the flow path ( Dry dehumidification air conditioner, characterized in that configured to be discharged to the outside through the second exhaust fan 40 through 70). The method of claim 1,
Dry dehumidification air conditioner characterized in that it further comprises a portable controller wired / wirelessly connected to the control unit installed in the dry dehumidification air conditioner to allow the administrator to remotely control the dry dehumidification air conditioner of claim 1.

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