KR101656174B1 - Dehumidification system using blower module - Google Patents

Abstract

The present invention relates to a dehumidification system using a blower module and a method of operating the dehumidification system. More particularly, the present invention relates to a compressor that compresses an incoming refrigerant and discharges the refrigerant into a high-temperature, high-pressure refrigerant; A first heating coil and a second heating coil provided on one side surface and the other side surface of the main body, respectively, the refrigerant discharged from the compressor flows and is condensed; An expansion valve for expanding the refrigerant discharged from each of the first heating coil and the second heating coil; The first heating coil and the main air vents provided on one side of the main body and the main air vents provided on the other side of the second heating coil and the main body so that the refrigerant discharged from the expansion valve is evaporated A first dehumidifying coil and a second dehumidifying coil; And at least one blower module provided on an upper side of the main body and having a first blower for blowing air from the lower side to the upper side and a second blower for blowing air from the upper side to the lower side, The present invention relates to a dehumidifying system using the same.

Description

A dehumidification system using a blower module and a dehumidification system using blower module [

The present invention relates to a dehumidification system using a blower module and a method of operating the dehumidification system. More particularly, the present invention relates to a dehumidification system capable of continuous dehumidification irrespective of whether or not a dehumidification coil is implanted and a defrost operation, and an operation method thereof.

Test conditions for evaluating the performance of the dehumidifier specified in KS C 9317 (dehumidifier) are as follows: standard condition of dry bulb temperature of 27 ° C, overload condition of 32 ° C, low temperature condition of 18 ° C (A type), low temperature condition of 5 ° C )to be. However, it is quite difficult to produce a dehumidifier with excellent dehumidification performance in all temperature zones as in the above test conditions. Therefore, in the case of the conventional dehumidifier, dehumidification is effectively performed only in a specific temperature range.

1 is a perspective view schematically showing the structure of a dehumidifier 1 of a conventional dehumidification type. 2 shows a cross-sectional view of the dehumidifier 1 of the conventional cycle conversion type, which operates in a constant cycle.

2, the dehumidifier 1 of the conventional cycle conversion system includes a compressor 60, a four-way valve 63, a first heat exchanger 4 (first compressor) having a first coil 5 and a second coil 6 A second expansion valve 64, a second expansion valve 65, a second heat exchanger 7 having a first coil 8 and a second coil 9, a liquid separator 61, a blower 13 A first check valve 66, a second check valve 67, a condensate fan 50, a drain port, a drain hose 51, a drain tank 52, and the like.

2, in the dehumidifying mode, that is, in the normal operation mode, the first coil 5 of the first heat exchanger 4 and the first coil 8 of the second heat exchanger 7 are connected to a dehumidifying coil And the second coil 6 of the first heat exchanger 4 and the second coil 8 of the second heat exchanger 7 operate as heating coils (condensers).

Accordingly, when the blower 13 is operated, a humidifier is connected to the first heat exchanger (not shown) through the ventilation holes 21 and 22 provided on the other side and the side surface of the main body 20, The first coil 5 of the first heat exchanger 4 and the first coil 8 of the second heat exchanger 7 are continuously connected to the second coil 6 of the first heat exchanger 4 and the second coil 6 of the second heat exchanger 7 through the second coil 9 and then to the blowing port 13 side.

Therefore, the air introduced into the first coil 5 of the first heat exchanger 4 and the first coil 8 of the second heat exchanger 7 comes into contact with the surface of the first coils 5, The second coil 6 of the first heat exchanger 4 continuously operates as a condenser and the second coil 6 of the refrigerant flowing along the second coil 9 of the second heat exchanger 7, The condensation heat is transferred to the condenser and the temperature is increased, and then the condensed condensed water is discharged to the indoor space through the blower.

When the dehumidifier 1 is operated under a low temperature condition, the first coil 5 of the first heat exchanger 4 and the first coil 8 of the second heat exchanger 7, which function as a dehumidifying coil, Defrosting is required. Fig. 3 shows a cross-sectional view of a dehumidifier 1 of the conventional cycle conversion type, which operates in a reverse cycle.

That is, when the dehumidifier 1 is used under the ambient condition in which conception may occur, the first coil 5 of the first heat exchanger 4 and the first coil 8 of the second heat exchanger 7, ), Defrosting is required.

In the case of a heat pump type dehumidifier, a reverse cycle operation mode is adopted as a defrosting method. As shown in FIG. 3, the four-way valve 63 is used as a dehumidifying coil for operating the first heat exchanger 4, The first coil 8 of the first heat exchanger 5 and the first coil 8 of the second heat exchanger 7 are operated as heating coils and the second coil 6 of the first heat exchanger 4, The second coil 9 of the two-heat exchanger 7 functions as a dehumidifying coil (evaporator) so as to prevent the frost formed on the first coils 5 and 8 and to continue to flow through the heating coil converted to the evaporator Dehumidification can be done.

However, in order to switch to the inverse cycle, the compressor 60 must be stopped, and it takes a certain period of time to reach the steady state after restarting the compressor 60. Therefore, not only the system performance is reduced but also the compressor 60 ) Is expected to be shortened.

As a method for overcoming such a problem, Korean Patent Registration No. 1231978 (dehumidifier and its control method) describes a method of using two bidirectional blowers 3.

4 shows a cross-sectional view of a dehumidifier 2 using a conventional bidirectional blower in a normal mode. 5 shows a cross-sectional view of the dehumidifier using the conventional bidirectional blower 3 in a state in which the second bidirectional blower 3-2 is stopped. 6 is a sectional view of the dehumidifier 2 using the conventional bidirectional blower 3 in a state where the first bidirectional blower 3-1 is stopped and the second bidirectional blower 3-2 is operated in the reverse direction Respectively. 7 shows a sectional view of the dehumidifier 2 using the conventional bidirectional blower 3 in a state in which the first bidirectional blower 3-1 and the second bidirectional blower 3-2 are operated in the reverse direction .

4, in the normal mode, the two bidirectional blowers 3-1 and 3-2 are all operated in the forward direction, and the humidifier introduced through the ventilation openings 21 and 22 is connected to the first dehumidifying coil 31 The moisture is removed while being condensed by the second dehumidifying coil 41 and is continuously heated through the first heating coil 32 and the second heating coil 42 and exhausted to the room through the air outlet.

When defrosting is required in the first dehumidifying coil 31 and / or the second dehumidifying coil 41 so that the first dehumidifying coil 32 and / or the second dehumidifying coil 41 are defrosted, As shown in FIG. 5, one of the two bidirectional blowers, for example, the second bidirectional blower 3-2 is stopped and the first bidirectional blower 3-1 is continuously rotated, And the heat of evaporation can be received, so that the surge of the condensation pressure can be prevented and continuous dehumidification can be performed.

Then, as shown in FIG. 6, the first bidirectional blower 3-1 is stopped when the rotational speed reaches a steady state after the second bidirectional blower 3-2 is rotated in the reverse direction. Accordingly, the second bidirectional blower 3-2 is driven in the reverse direction, so that air is introduced into the dehumidifier through the upper portion of the dehumidifier, and the introduced air is heated through the first heating coil 32 and the second heating coil 42 The first dehumidifying coil 31 and the second dehumidifying coil 41 pass through the first dehumidifying coil 31 and the second dehumidifying coil 41 by the air heated by the first heating coil 32 and the second heating coil 42, ) And the second dehumidifying coil 41 are removed.

7, when both the first bidirectional blower 3-1 and the second bidirectional blower 3-2 are driven in the reverse direction and the maximum reverse blowing amount is introduced into the dehumidifier 2, The coil 32 and the second heating coil 42 emit the heat of condensation to the maximum extent. The air heated by the condensation heat quickly removes the frost formed on the first dehumidifying coil 31 and the second dehumidifying coil 41.

However, such a bidirectional blower 3 has a drawback in that the blowing efficiency is worse than that of the one-way blower and the control is complicated. In order to switch from the forward direction to the reverse direction, the blower must be stopped and then rotated in the reverse direction, have. Therefore, in order not to generate abnormally high pressure in the system, the blower must be operated at all times since the heating coil (serving as the condenser) must sufficiently discharge the heat of condensation through the forced convection heat transfer. Therefore, it is necessary to use at least two blowers to switch the blowing direction stepwise without stopping.

Korean Patent No. 10-1231978 Korean Patent No. 10-1296468 Korean Patent No. 10-1258391 Korean Patent Publication No. 10-2014-0013753 Korean Patent Publication No. 10-2013-0119655

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a dehumidifying and heating coil capable of defrosting without switching the functions of a dehumidifying coil and a heating coil, And a dehumidifying system using the blower module having an excellent dehumidification performance because the dehumidification can be continuously performed in a steady state.

In addition, according to the embodiment of the present invention, there is no need for a process for stopping and restarting the compressor for defrosting, so that there is no reduction in the service life of the compressor due to the intermittent operation of the compressor, And to provide a dehumidification system using a blower module capable of reducing the number of check valves and reducing the cost and improving the performance by simplifying the refrigerant pipe.

Further, according to the embodiment of the present invention, since the first blower is stopped (powered off) and the second blower is operated (powered) in the operation of the blower module, the blower is in a normal state Which can reduce the time required for the fan module to reach a predetermined temperature.

According to an embodiment of the present invention, an auxiliary ventilation opening and a revolving door are installed between a blower module in which the blowing operation is performed from the lower side to the upper direction and a blower module in which the blowing operation is performed from the upper side to the lower direction, And to provide a dehumidification system using the blower module which can improve the blowing performance by reducing the flow resistance.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. It can be understood.

A first object of the present invention is to provide a dehumidification system which is capable of compressing an introduced refrigerant and discharging it as high-temperature, high-pressure refrigerant; A first heating coil and a second heating coil provided on one side surface and the other side surface of the main body, respectively, the refrigerant discharged from the compressor flows and is condensed; An expansion valve for expanding the refrigerant discharged from each of the first heating coil and the second heating coil; The first heating coil and the main air vents provided on one side of the main body and the main air vents provided on the other side of the second heating coil and the main body so that the refrigerant discharged from the expansion valve is evaporated A first dehumidifying coil and a second dehumidifying coil; And at least one blower module provided on an upper side of the main body and having a first blower for blowing air from the lower side to the upper side and a second blower for blowing air from the upper side to the lower side, Can be accomplished as a dehumidification system using the same.

Further, in the dehumidification mode, the first blower is operated and the operation of the second blower is stopped, and in the conception mode, the second blower is operated and the operation of the first blower is stopped And a control unit.

In the dehumidification mode, the humidifier introduced by the main air vents of one side surface and the other side surface of the main body is removed by the first dehumidifying coil and the second dehumidifying coil by the operation of the first blower, And is heated by the heating coil and the second heating coil and exhausted to the room through the first blower.

In addition, in the defrosting mode, air is introduced into the main body through the second blower by the operation of the second blower, and the air is heated by the first heating coil and the second heating coil, 1 dehumidifying coil and the second dehumidifying coil are removed, and the air is exhausted through the main vent.

A condensed water fan into which the condensed water formed on the outer surface of the first dehumidifying coil and the second dehumidifying coil flows; A drain tank for storing the condensed water introduced into the condensate fan; And a drain hose connecting the condensate fan and the drain tank.

A second object of the present invention is to provide a method of operating the dehumidification system according to the first aspect of the present invention in a dehumidification mode, comprising the steps of: compressing a refrigerant into which a compressor has been introduced and discharging the refrigerant into a high temperature and high pressure refrigerant; Condensing the refrigerant discharged from the compressor by the first heating coil and the second heating coil provided on one side surface and the other side surface of the main body, respectively; The refrigerant discharged from each of the first heating coil and the second heating coil is expanded through the expansion valve; A first dehumidifying coil provided between the first heating coil and the main air vents provided on one side of the main body, and a second dehumidifying coil provided between the second heating coil and the main air vents provided on the other side of the main body, Evaporating the refrigerant discharged from the expansion valve; And a step in which the refrigerant discharged from the first dehumidifying coil and the second dehumidifying coil flows into the compressor again, and a first blower provided on an upper end side of the main body for guiding blowing from the lower side to the upper side is operated The moisture dehumidifying device according to claim 1, wherein the moisture dehumidifying device includes a first dehumidifying coil and a second dehumidifying coil, And the air is exhausted to the room through the first blower.

The method of claim 1, further comprising the steps of: introducing condensed water formed on a surface of the first dehumidifying coil and the second dehumidifying coil into a condensed water pan; And the condensate water of the condensed water pan is stored in the drain tank by the drain hose.

A third object of the present invention is to provide a method of operating the dehumidifying system according to the first aspect of the present invention in a defrost mode, comprising the steps of: compressing a refrigerant introduced into a compressor and discharging the compressed refrigerant into a high-temperature and high- Condensing the refrigerant discharged from the compressor by the first heating coil and the first heating coil provided on one side surface and the other side surface of the main body, respectively; The refrigerant discharged from each of the first heating coil and the second heating coil is expanded through the expansion valve; A first dehumidifying coil provided between the first heating coil and the main air vents provided on one side of the main body, and a second dehumidifying coil provided between the second heating coil and the main air vents provided on the other side of the main body, Evaporating the refrigerant discharged from the expansion valve; And a second blower for stopping the operation of the first blower and guiding blowing from the upper side to the lower side, wherein the second blower includes: a first blower Air is introduced into the main body through the second blower side to be heated by the first heating coil and the second heating coil to be heated by the heated air so that the first dehumidifying coil and the second dehumidifying coil Removing the frost, and exhausting the air through the ventilation hole. The method for operating the dehumidification system using the blower module can be achieved.

A fourth object of the present invention is to provide a dehumidification system, comprising: a compressor for compressing an introduced refrigerant and discharging the refrigerant as high-temperature, high-pressure refrigerant; A first heating coil and a second heating coil provided on one side surface and the other side surface of the main body, respectively, the refrigerant discharged from the compressor flows and is condensed; An expansion valve for expanding the refrigerant discharged from each of the first heating coil and the second heating coil; The first heating coil and the main air vents provided on one side of the main body and the main air vents provided on the other side of the second heating coil and the main body so that the refrigerant discharged from the expansion valve is evaporated A first dehumidifying coil and a second dehumidifying coil; At least one first blower provided at an upper end side of the main body and guiding blowing from a lower side to an upper side; At least one second blower spaced apart from the first blower by a predetermined distance in a vertical direction and guiding blowing from the upper side to the lower side; An auxiliary vent hole provided on one side of the main body and the other side of the main body between the first blower and the second blower; And a second revolving door for opening and closing the auxiliary vents provided on the other side of the main body, wherein the first revolving door opens and closes the auxiliary vents provided on one side of the main body, .

In the dehumidifying mode, the first blower is operated and the operation of the second blower is stopped, and each of the first and second revolving doors closes the auxiliary vents. In the conception mode, the second blower And a controller for controlling operation of the first blower so as to stop the operation of the first blower, and controlling the first and second revolving doors to open the auxiliary vents, respectively.

In the dehumidification mode, the humidifier introduced by the main air vents of one side surface and the other side surface of the main body is removed by the first dehumidifying coil and the second dehumidifying coil by the operation of the first blower, And is heated by the heating coil and the second heating coil to be exhausted to the room through the gap between the second blower blade gap and the space between the second blower and the side surface of the main body.

In the defrosting mode, air is introduced into the main body through the gap between the first fan blades and the auxiliary vents through operation of the second blower, and is heated by the first heating coil and the second heating coil, The first dehumidifying coil and the second dehumidifying coil are removed by the air, and the air is exhausted through the main vent.

A fifth object of the present invention is to provide a method of operating the dehumidification system according to the fourth aspect of the present invention in a dehumidification mode, comprising the steps of: compressing a refrigerant into which a compressor has been introduced and discharging the refrigerant into a high- Condensing the refrigerant discharged from the compressor by the first heating coil and the first heating coil provided on one side surface and the other side surface of the main body, respectively; The refrigerant discharged from each of the first heating coil and the second heating coil is expanded through the expansion valve; A first dehumidifying coil provided between the first heating coil and the main air vents provided on one side of the main body, and a second dehumidifying coil provided between the second heating coil and the main air vents provided on the other side of the main body, Evaporating the refrigerant discharged from the expansion valve; And a step in which the refrigerant discharged from the first dehumidifying coil and the second dehumidifying coil flows into the compressor again, and a first blower provided on an upper end side of the main body for guiding blowing from the lower side to the upper side is operated And the humidifier introduced by the ventilation openings on one side and the other side of the main body is removed by the first dehumidifying coil and the second dehumidifying coil and heated by the first heating coil and the second heating coil, And the air is exhausted to the room through a space between the second blower blade gap and a space between the second blower and the side surface of the main body.

The control unit may be configured to operate the first blower and stop the operation of the second blower, and to control each of the first and second revolving doors to close the auxiliary vents.

A sixth object of the present invention is to provide a method of operating the dehumidification system according to the fourth aspect of the present invention in a defrost mode, comprising the steps of: compressing a refrigerant introduced into a compressor and discharging the compressed refrigerant into a high-temperature and high- Condensing the refrigerant discharged from the compressor by the first heating coil and the first heating coil provided on one side surface and the other side surface of the main body, respectively; The refrigerant discharged from each of the first heating coil and the second heating coil is expanded through the expansion valve; A first dehumidifying coil provided between the first heating coil and the main air vents provided on one side of the main body, and a second dehumidifying coil provided between the second heating coil and the main air vents provided on the other side of the main body, Evaporating the refrigerant discharged from the expansion valve; And a second blower for stopping the operation of the first blower and guiding blowing from the upper side to the lower side, wherein the second blower includes: a first blower Air is introduced into the main body through the auxiliary vents and the gap between the first fan blades and heated by the first heating coil and the second heating coil so that the first dehumidifying coil and the second dehumidifying coil are heated by the heated air, 2 dehumidification coil is removed, and the air is exhausted through the ventilation hole. The method for operating the dehumidification system using the blower module can be achieved.

Further, the control unit may operate the second blower to stop the operation of the first blower, and each of the first and second revolving doors controls to open the auxiliary vents.

According to an embodiment of the present invention, it is possible to perform defrosting without switching the functions of the dehumidifying coil and the heating coil, as in the conventional reverse cycle operation, and to perform dehumidification continuously in a steady state without stopping the compressor. .

In addition, according to the embodiment of the present invention, there is no need for a process for stopping and restarting the compressor for defrosting, so that there is no reduction in the service life of the compressor due to the intermittent operation of the compressor, , Two check valves can be reduced, resulting in cost reduction and performance improvement through simplification of refrigerant piping.

Further, according to the embodiment of the present invention, since the first blower is stopped (powered off) and the second blower is operated (powered) in the operation of the blower module, the blower is in a normal state Can be shortened.

According to an embodiment of the present invention, an auxiliary ventilation opening and a revolving door are installed between a blower module in which the blowing operation is performed from the lower side to the upper direction and a blower module in which the blowing operation is performed from the upper side to the lower direction, So that the blowing performance can be improved by reducing the flow resistance.

It should be understood, however, that the effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those skilled in the art to which the present invention belongs It will be possible.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, It should not be construed as limited.
1 is a perspective view schematically showing the structure of a conventional dehumidifying type dehumidifier,
Fig. 2 is a sectional view of a dehumidifier of a conventional cycle conversion type,
3 is a cross-sectional view of a dehumidifier of a conventional cycle conversion type,
4 is a cross-sectional view of a dehumidifier using a conventional bidirectional blower in a normal mode,
5 is a sectional view of a conventional dehumidifier using a bidirectional blower in a state where a second bidirectional blower is stopped;
6 is a cross-sectional view of a dehumidifier using a conventional bidirectional blower in a state where the first bidirectional blower is stopped and the second bidirectional blower is operated in the reverse direction,
7 is a cross-sectional view of a dehumidifier using a conventional bidirectional blower in a state in which a first bidirectional blower and a second bidirectional blower are operated in opposite directions,
8A is a plan view of the blower module unit according to the first embodiment of the present invention,
8B is a perspective view schematically showing a configuration of the first blower module according to the first embodiment of the present invention,
FIG. 8C is a perspective view schematically showing the configuration of the second blower module according to the first embodiment of the present invention, FIG.
9 is a sectional view of a dehumidification system using a blower module in a normal operation mode according to the first embodiment of the present invention,
10 is a sectional view of a dehumidification system using a blower module in a defrost mode according to the first embodiment of the present invention,
11 is a sectional view of a dehumidification system using a blower module in a normal operation mode according to a second embodiment of the present invention,
12 is a cross-sectional view of a dehumidification system using a blower module in a defrost mode according to a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, it includes not only a case where it is directly connected but also a case where the other part is indirectly connected with another part in between. In addition, the inclusion of an element does not exclude other elements, but may include other elements, unless specifically stated otherwise.

< First Embodiment >

Hereinafter, the configuration and functions of the dehumidifying system 100 using the blower module according to the first embodiment of the present invention will be described. 8A is a plan view of the blower module unit 10 according to the first embodiment of the present invention. 8B is a perspective view schematically showing the configuration of the first blower module 11 according to the first embodiment of the present invention. FIG. 8C is a perspective view of the second blower module 11 according to the first embodiment of the present invention. 2 is a perspective view schematically showing a configuration of the module 12. As shown in FIG.

8A, 8B and 8C, the blower module unit 10 applied to the dehumidifying system 100 according to the first embodiment of the present invention includes the first blower module 11 and the second blower module 11, (12). &Lt; / RTI &gt; The first blower module 11 includes a first blower 13-1 and a second blower 14-1, each of which is constituted by a unidirectional blower and have opposite blowing directions, . The second blower module 12 also includes a first blower 13-2 and a second blower 14-2, each of which is constituted by a unidirectional blower and have opposite blowing directions, .

That is, the blower modules 11 and 12 applied to the dehumidifying system 100 according to the first embodiment of the present invention are composed of a plurality of blowers, but all of them are configured as unidirectional blowers.

9 is a sectional view of a dehumidification system 100 using a blower module in a normal operation mode according to the first embodiment of the present invention. 9, the dehumidifying system 100 using the blower module according to the first embodiment of the present invention includes a hexagonal body 20, a blower module unit 10 provided at the upper end of the body 20, Ventilation openings 21 and 22 provided on one side of the main body 20 and the other side opposite to the one side and the ventilation holes 21 and 22 provided continuously on the side of the ventilation opening 21 provided on one side of the main body 20 A second dehumidifying coil 41 and a second heating coil 42 which are continuously provided on a side of a ventilation opening 22 provided on the other side of the main body 20, and a first dehumidifying coil 31, a first heating coil 32, An expansion valve 62, a compressor 60, a liquid separator 61, a condensate fan 50, a drain hose 51, a drain tank 52, and the like.

9, the dehumidifying system 100 according to the first embodiment of the present invention does not require the check valves 66 and 67 and the four-way valve 63 shown in FIG. 7, 8A, 8B and 8C is provided at the upper end of the upper portion. In the dehumidifying system 100 according to the first embodiment of the present invention, the refrigerant cycle is not converted, and the high-temperature, high-pressure refrigerant discharged from the compressor 60 is always supplied to the first Flows into each of the heating coil 32 and the second heating coil 42 and is condensed to discharge heat. After passing through the expansion valve 62, the first dehumidifying coil 31 and the second dehumidifying coil 41 are passed Evaporated and flowed into the compressor (60) through the liquid separator (61) and circulated. This circulation cycle causes the refrigerant to circulate in the same manner in the dehumidification mode and the defrost mode.

In the blower module unit 10 of the dehumidifying system 100 according to the first embodiment of the present invention, the first blower 13-1 of the first blower module 11 is operated only in the forward direction, The blower 14-1 is operated only in the reverse direction and the first blower 13-2 of the second blower module 12 is also operated in the forward direction only and the second blower 14-2 is operated only in the reverse direction . In the dehumidifying mode, the first blower 13-1 of the first blower module 11 and the first blower 13-2 of the second blower module 12 are operated as shown in Fig. 9, It can be seen that the second blower 14-1 of the blower module 11 and the second blower 14-2 of the second blower module 12 are not operated.

Accordingly, only the first blower 13-1 of the first blower module 11 and the first blower 13-2 of the second blower module 12 are operated, The first dehumidifying coil 31 and the second dehumidifying coil 31 are connected to the first dehumidifying coil 31 and the second dehumidifying coil 41 while moisture is removed while passing through the first dehumidifying coil 31 and the second dehumidifying coil 41, 41, and is continuously heated through the first heating coil 32 and the second heating coil 42, and then is exhausted to the room through a blowing port.

The condensed water formed by the first dehumidifying coil 31 and the second dehumidifying coil 41 is stored in the drain tank 52 connected to the drain hose 51 through the drain port of the condensate water fan 50.

When the dehumidification mode is operated in a low temperature condition, after a certain time, the first dehumidification coil 31 and the second dehumidification coil 41 are frosted to operate in the defrost mode.

10 is a sectional view of a dehumidification system 100 using a blower module in a defrost mode according to the first embodiment of the present invention. As shown in FIG. 10, the circulation direction of the refrigerant does not change in the defrost mode according to the first embodiment of the present invention.

However, in the blower module unit 10, the operation of the first blower 13-1 of the first blower module 11 and the first blower 13-2 of the second blower module 12 is stopped, The second blower 14-1 of the one blower module 11 and the second blower 14-2 of the second blower module 12 are operated.

Accordingly, the room air is introduced into the dehumidification system 100 through the upper part of the dehumidifier, heated by the first heating coil 32 and the second heating coil 42, and heated by the first dehumidifying coil 31 And the second dehumidifying coil 41 are melted, so that the frost can be easily removed.

This method is superior in dehumidification performance because it can perform defrosting without switching the functions of the dehumidifying coil and the heating coil as in the reverse cycle operation, and can continuously dehumidify in the steady state without stopping the compressor (60). In addition, since the compressor 60 is stopped for restart and the process of restarting the compressor 60 is not required, there is no reduction in the service life of the compressor 60 due to the intermittent operation of the compressor 60. In addition, the four-way valve, one expansion valve, and two check valves, which are necessary for switching the direction of the refrigerant flow, can be reduced, resulting in cost reduction and performance improvement by simplifying the refrigerant piping. Further, in the operation of the blower module, since the first blower is stopped (power is cut off) and the second blower is operated (power is supplied), the time required for the blower to reach the steady state is shortened compared with the case of using the bidirectional blower.

< Second Embodiment >

Hereinafter, the configuration and functions of the dehumidifying system 100 using the blower module according to the second embodiment of the present invention will be described. 11 is a cross-sectional view of a dehumidification system 100 using a blower module in a normal operation mode according to a second embodiment of the present invention. 12 is a cross-sectional view of a dehumidification system 100 using a blower module in a defrost mode according to a second embodiment of the present invention.

The dehumidifying system 100 using the blower module according to the second embodiment of the present invention is similar to the blower shown in Figs. 8A, 8B and 8C according to the first embodiment, in which two blowers are continuously installed This is a method for improving the performance of a blower that does not work if it acts as a flow resistance to lower the performance of the operating blower.

11, the dehumidifying system 100 according to the second embodiment of the present invention includes two unidirectional blowers provided in series with each other on the upper face side of the main body 20, And a second blower unit 72 which includes a first blower unit 71 and two unidirectional blowers which are spaced apart from the first blower unit 71 and are spaced apart from the lower side of the specific interval in series with each other .

The first blower unit 71 and the second blower unit 72 are both constituted by at least one unidirectional blower and the blower constituting the first blower unit 71 is formed from the lower side to the upper side And the blower constituting the second blower unit 72 corresponds to the lower side from the upper side in which the blowing direction is reverse.

The auxiliary ventilation holes 73 are provided on one side surface of the main body 20 between the first blower unit 71 and the second blower unit 72 and on the other side of the main body 20, 73) and a second revolving door (75).

11, when the dehumidifying system 100 according to the second embodiment operates in the dehumidifying operation, that is, in the normal operation, the blowers constituting the first blower unit 71 are operated, The operation of the unit 72 is stopped so that the humidifier is introduced into the dehumidification system 100 through the ventilator and the moisture is removed by the first dehumidifying coil 31 and the second dehumidifying coil 41, The air is heated while passing through the first heating coil 32 and the second heating coil 42 and is exhausted to the room by the operation of the first blower unit 71.

At this time, the auxiliary ventilation hole 73 and the first revolving door 74 are provided between the first blower unit 71 in which the airflow is operated from the lower side to the upper side and the second blower unit 72 in which the airflow is operated from the upper side to the lower side, It is possible to improve the blowing performance by reducing the flow resistance by operating the revolving doors 74 and 75 according to the blowing direction of the system 100 by the first and second revolving doors 75 and 75. [

That is, when the first blower unit 71 is operated, the humidifier is sucked from the main air vents 21 and 22, passes through the first and second dehumidifying coils 41 and the first and second heating coils 42, A part of which is passed through the space between the two blower blades constituting the second blower unit 72 and the first blower door 74 and the second blower door 75 through the first blower unit 71 .

12 is a cross-sectional view of a dehumidification system 100 using a blower module in a defrost mode according to a second embodiment of the present invention. 12, when the dehumidifying system 100 according to the second embodiment of the present invention is operated in the defrosting mode, the operation of the first blower unit 71 is stopped and the operation of the second blower unit 72 And the first revolving door 74 and the second revolving door 75 open the auxiliary ventilation openings 73 and open the space between one side of the second blower unit 72 and one side of the main body 20, And the space between the other side surfaces is closed.

That is, in order to remove the frost formed on the first and second dehumidifying coils 31 and 41 using the dehumidifying system 100 under the conceptional condition, as shown in Fig. 12, the second blower unit 72 The first and second revolving doors 74 and 75 are operated not only in the vane clearance of the first blower unit 71 but also in the outside air through the auxiliary vents 73, So that the blowing performance can be improved.

The air introduced into the gap between the auxiliary ventilation holes 73 and the blade of the first blower unit 71 passes through the first and second heating coils 32 and 42 and the first and second dehumidifying coils 31 and 41, When the air heated while passing through the first and second heating coils 32 and 42 passes through the first and second dehumidifying coils 31 and 41, It is possible to remove the frost by melting the frost which is conceived on the first and second heat exchangers 31 and 41.

It should be noted that the above-described apparatus and method are not limited to the configurations and methods of the embodiments described above, but the embodiments may be modified so that all or some of the embodiments are selectively combined .

1: Conventional reverse cycle dehumidifier
2: Dehumidifier using conventional two-way blower
3: Bidirectional blower
3-1: First Bidirectional Blower
3-2: second bidirectional blower
4: first heat exchanger
5: first coil of the first heat exchanger
6: the second coil of the first heat exchanger
7: Second heat exchanger
8: first coil of the second heat exchanger
9: Second coil of the second heat exchanger
10: blower module unit
11: First blower module
12: Second blower module
13-1: First blower of the first blower module
13-2: First blower of the second blower module
14-1: Second blower of the first blower module
14-2: Second blower of the second blower module
20:
21: One side main vent
22: Other Side Main Vent
31: First dehumidifying coil
32: first heating coil
41: Second dehumidifying coil
42: second heating coil
50: Condensate fan
51: drain hose
52: drain tank
60: Compressor
61: liquid separator
62: Expansion valve
63: Four way valve
64: first expansion valve
65: second expansion valve
66: first check valve
67: second check valve
71: first blower unit
72: second blower unit
73: auxiliary tuyere
74: 1st revolving door
75: 2nd revolving door
100: Dehumidification system using blower module

Claims (16)

In a dehumidifying system,
A compressor for compressing the introduced refrigerant and discharging it as high-temperature, high-pressure refrigerant;
A first heating coil and a second heating coil provided on one side surface and the other side surface of the main body, respectively, the refrigerant discharged from the compressor flows and is condensed;
An expansion valve for expanding the refrigerant discharged from each of the first heating coil and the second heating coil;
The first heating coil and the main air vents provided on one side of the main body and the main air vents provided on the other side of the second heating coil and the main body so that the refrigerant discharged from the expansion valve is evaporated A first dehumidifying coil and a second dehumidifying coil;
At least one first blower provided at an upper end side of the main body and guiding blowing from a lower side to an upper side;
At least one second blower spaced apart from the first blower by a predetermined distance in a vertical direction and guiding blowing from the upper side to the lower side;
An auxiliary vent hole provided on one side of the main body and the other side of the main body between the first blower and the second blower; And
And a second revolving door that opens and closes the auxiliary vents provided on the other side of the main body, wherein the first revolving door opens and closes the auxiliary vents provided on one side of the main body.
The method according to claim 1,
In the dehumidification mode, the first blower is operated and the operation of the second blower is stopped, and each of the first and second revolving doors closes the auxiliary vents,
And a control unit for operating the second blower and stopping the operation of the first blower and controlling the first and second revolving doors to open the auxiliary vents in the concealing mode Dehumidification system using blower module.
3. The method of claim 2,
In the dehumidification mode, by the operation of the first blower,
The humidifier introduced by the main air vents at one side of the main body and the other side of the main body is dehumidified by the first dehumidifying coil and the second dehumidifying coil and heated by the first heating coil and the second heating coil
And the air is exhausted to the room through a space between the second blower blade gap and a space between the second blower and the side surface of the body.
The method of claim 3,
In the defrost mode, by the operation of the second blower,
Air is introduced into the main body through the gap between the first fan blades and the auxiliary ventilation holes and is heated by the first heating coil and the second heating coil and is heated by the heated air to cool the first dehumidifying coil and the second And a dehumidifying system using the blower module, wherein the dehumidifying coil is removed from the dehumidification coil and exhausted through the main vent.
A method of operating a dehumidification system in a dehumidification mode,
Compressing the refrigerant into which the compressor flows, and discharging the compressed refrigerant into the high-temperature and high-pressure refrigerant;
Condensing the refrigerant discharged from the compressor by the first heating coil and the first heating coil provided on one side surface and the other side surface of the main body, respectively;
The refrigerant discharged from each of the first heating coil and the second heating coil is expanded through the expansion valve;
A first dehumidifying coil provided between the first heating coil and the main air vents provided on one side of the main body, and a second dehumidifying coil provided between the second heating coil and the main air vents provided on the other side of the main body, Evaporating the refrigerant discharged from the expansion valve; And
And the refrigerant discharged from the first dehumidifying coil and the second dehumidifying coil flows into the compressor again,
And a first blower provided at an upper end side of the main body and guiding blowing from the lower side to the upper side is operated so that a humidifier introduced by the ventilation holes on one side of the main body and the other side of the main body is connected to the first dehumidifying coil and the second dehumidifying coil And is heated by the first heating coil and the second heating coil to be exhausted to the room through a space between the second blower blade gap and a space between the second blower and the side surface of the main body, A method of operating a dehumidifying system using the method.
6. The method of claim 5,
Wherein the controller controls the first blower to operate and the operation of the second blower to be stopped so that each of the first and second revolving doors closes the auxiliary vents. How it works.
A method of operating a dehumidification system in a defrost mode,
Compressing the refrigerant into which the compressor flows, and discharging the compressed refrigerant into the high-temperature and high-pressure refrigerant;
Condensing the refrigerant discharged from the compressor by the first heating coil and the first heating coil provided on one side surface and the other side surface of the main body, respectively;
The refrigerant discharged from each of the first heating coil and the second heating coil is expanded through the expansion valve;
A first dehumidifying coil provided between the first heating coil and the main air vents provided on one side of the main body, and a second dehumidifying coil provided between the second heating coil and the main air vents provided on the other side of the main body, Evaporating the refrigerant discharged from the expansion valve; And
And the refrigerant discharged from the first dehumidifying coil and the second dehumidifying coil flows into the compressor again,
The operation of the first blower is stopped and a second blower for blowing air from the upper side to the lower side is operated so that air flows into the main body through the auxiliary vents and the first blower blade gap, Wherein the first dehumidifying coil and the second dehumidifying coil are heated by the second heating coil to remove the frost of the first dehumidifying coil and the second dehumidifying coil by the heated air and exhausted through the ventilation hole. .
8. The method of claim 7,
Wherein the controller controls the second blower to stop the operation of the first blower and controls the first and second revolving doors to open the auxiliary air vents. Lt; / RTI &gt; delete delete delete delete delete delete delete delete

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