KR101400710B1 - Easily-drainable structure of dehumidifier - Google Patents

Abstract

The present invention relates to a simple automatic drainage structure of a dehumidifier in which water dehumidified by a dehumidifier can be manually, automatically, or continuously selected by the user.
The dehumidifier of the present invention comprises: a dehumidifying means for sucking in air to remove moisture in the sucked air and discharging dry air; A water collecting unit for collecting dehumidified water through the dehumidifying unit; A drain port for discharging the water when the water level of the water storage portion reaches a predetermined height or more; And a discharging means for discharging water collected in the reservoir to the outside of the dehumidifier.
The discharge means includes a discharge pipe connected to the reservoir to discharge the water in the reservoir by a free-fall method, a branch pipe branched from the discharge pipe, and a drain pump for forcibly discharging water from the reservoir to the branch pipe .

Description

EASILY-DRAINABLE STRUCTURE OF DEHUMIDIFIER "

The present invention relates to a dehumidifier, and more particularly, to a simple automatic drainage structure of a dehumidifier in which water dehumidified by a dehumidifier can be manually or automatically or continuously discharged by a user.

Generally, a dehumidifier is a device for removing moisture contained in the air, and various types of dehumidification methods are provided.

In many cases, a dehumidifier is a cooling dehumidifier that uses moisture in the air to condense moisture when the air passes through an evaporator using a refrigeration cycle.

The dehumidifier includes a case having an outer shape, a fan installed inside the case to suck outside air, dehumidifying means for condensing the moisture contained in the sucked air to remove moisture, And a storage tank to store the water.

The dehumidifying means includes a compressor for compressing the gaseous refrigerant at a high temperature and a high pressure, a condenser for condensing the high-temperature and high-pressure refrigerant gas discharged from the compressor, and a low-pressure refrigerant passing through the capillary (expansion tube) And an evaporator for evaporating the liquid.

In such a dehumidifier, the refrigerant is circulated from the evaporator through the condenser and the capillary to the evaporator through the compressor. When the air is sucked into the case by the rotation of the fan, the sucked air passes through the evaporator, And the moisture contained in the air is condensed into dew.

Then, the moisture that has been removed drops freely and is stored in the water storage tank inside the dehumidifier. When the water storage tank is filled with water, it is discharged to the outside.

In order to discharge the water stored in the water storage tank of the dehumidifier, the water storage tank installed in the dehumidifier is separated and the water is manually discharged, or a drain pump connected to the water storage tank is installed outside the dehumidifier to operate the drain pump The water in the reservoir tank is discharged by discharging the water from the reservoir tank to the outside or discharging the water by operating the drain pump installed in the dehumidifier.

As a prior art for discharging the water contained in the water storage tank of such a dehumidifier, there are known publicly known patent publications, for example, JP-A-10-0088605 and JP-A-10-2010-0033719.

The dehumidifier of the prior art is provided with an inlet formed in a water storage tank (bucket) and a water drain device is inserted into the water inlet to discharge the water contained in the water storage tank, or a connecting member having a drain pump is connected to the water storage tank, The water stored in the water storage tank is discharged to the outside.

However, such a prior art is complicated in the structure of the insertion port and the connection member for discharging the water of the water tank to the outside, and it takes a lot of time and cost to manufacture and assemble the water inlet and the connection member.

Further, since the drainage device and the connection member are connected to or separated from the water storage tank in order to discharge the water in the water storage tank to the outside, the use of the water storage tank is cumbersome and inconvenient, and the outlet of the water storage tank is opened and closed while the elastic member is being tensioned or compressed.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the prior art. An object of the present invention is to provide a dehumidifier which can easily, Of the present invention.

The dehumidifying means includes a dehumidifying means for sucking in air to remove moisture in the sucked air and discharging the dried air; A water collecting unit for collecting dehumidified water through the dehumidifying unit; A drain port for discharging the water when the water level of the water storage portion reaches a predetermined height or more; And a discharging means for discharging water collected in the reservoir to the outside of the dehumidifier.

The discharge means includes a discharge pipe connected to the reservoir to discharge the water in the reservoir by a free-fall method, a branch pipe branched from the discharge pipe, and a drain pump for forcibly discharging water from the reservoir to the branch pipe. .

Each end of the discharge pipe and branch pipe is provided with a cap capable of being opened and closed, respectively, and the drain pump is constituted by a geared pump.

The drain pump is connected to a portion of the drain pipe connected to the drain pipe. The drain pipe is provided with a water level sensing device for driving / stopping the drain pump according to the level of the water level.

Wherein the water level sensing device operates in a switch-on state when the level of the water level is higher than a certain level as the float is raised or lowered, and when the level of the water level is lower than a certain level, And stops operation / driving of the drain pump.

The simple and automatic drainage structure of the dehumidifier according to the present invention is characterized in that the dehumidified water is discharged through the dehumidifier to the water storage tank through the dehumidifier to manually drain the water or to discharge water naturally continuously through the discharge pipe connected to the water storage, It can be discharged automatically through the branch line branched from the discharge pipe by driving. Therefore, it can be installed anywhere without restriction on the place of use of the dehumidifier.

In addition, since the water stored in the reservoir can be discharged in a convenient manner by the user, it is convenient to use the dehumidifier.

1 is an exploded perspective view showing a main part of a dehumidifier to explain a simple automatic drainage structure of a dehumidifier according to the present invention.
2 is a front view of the state in which FIG. 1 is assembled.
3 is a plan view of the state in which FIG. 1 is assembled.
4 is a cross-sectional view taken along the line A-A 'in FIG. 2, illustrating the natural drainage.
5 is a sectional view for explaining continuous drainage as a state of use of a simple automatic drainage structure of a dehumidifier according to the present invention.
6 is a cross-sectional view taken along line B-B 'in Fig. 2 for explaining automatic draining.
7 is a sectional view taken along the line C-C 'in Fig.

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

FIG. 1 is an exploded perspective view showing a main part of a dehumidifier for explaining a simple automatic drainage structure of a dehumidifier according to the present invention, FIGS. 2 and 3 are a front view and a plan view, respectively, 7 is a sectional view of a dehumidifier provided with a simple automatic drainage structure of the dehumidifier according to the present invention and a view for explaining the state of use thereof.

As shown in the drawings, the dehumidifier provided with the simple automatic drainage structure of the dehumidifier according to the present invention includes dehumidifying means for sucking in air to remove moisture in the inhaled air and discharging dry air, and dehumidifying means for collecting dehumidified water (Not shown).

The dehumidifying means includes a compressor for compressing the gaseous refrigerant at a high temperature and a high pressure, a condenser for condensing the high-temperature and high-pressure refrigerant gas discharged from the compressor, and an evaporator for evaporating the low-pressure refrigerant passing through the condenser through the capillary May be used. In the present embodiment, the evaporator refers to a heat exchanger 4 comprising a refrigerant pipe through which refrigerant is circulated.

A fan (not shown) for sucking air to the dehumidifying means side is installed at the rear of the condenser.

The dehumidifying means may be a conventional refrigeration cycle or a dehumidifying means of another type, so a detailed description thereof will be omitted.

The lower portion of the heat exchanger (4) constituting the dehumidifying means is provided with a reservoir portion (2) in which water is condensed while moisture is removed when the air passes through the heat exchanger (4)

The water storage portion 2 is located at a predetermined height from a base 6 on which a dehumidifier is placed on the floor and a heat exchanger 4 is fixed to the upper surface of the water storage portion 2.

The water storage portion 2 is formed in an inclined surface around the water storage portion 2 so that condensed water in the heat exchanger 4 flows and flows.

When the water level of the water storage portion 2 becomes equal to or higher than a predetermined height, the water storage portion 8 is formed in the water storage portion 2 such that water contained therein is discharged naturally. A water storage tank (10) is detachably installed on the base (6).

In addition, a discharge means is provided in the reservoir (2) to discharge water collected in the reservoir (2) to the outside of the dehumidifier.

The discharge means includes a discharge pipe line 12 connected to the reservoir unit 2 for discharging the water of the reservoir unit 2 in a free-fall manner and discharging the water, a branch pipe line 14 branched from the discharge pipe line 12, And a drain pump 16 for forcibly discharging the water in the reservoir portion 2 to the branch pipe 14.

The discharge pipe passage 12 is connected to a lower portion of the reservoir portion 2 so that when water is collected in the reservoir portion 2, it can be immediately discharged to the outside of the dehumidifier through a discharge pipe passage 12 in a free fall manner .

Opening and closing caps 18 and 20 are respectively provided at the ends of the discharge pipe line 12 and the branch line passage 14 so that the user can selectively open and close the plugs 18 and 20, 20 can be discharged through the discharge pipe 12, the branch pipe 14, or the drain port 8.

The branch pipe 14 can be configured such that the end of the branch pipe 14 is located at a position higher than the drain port 8 of the reservoir portion 2. Only by driving the drain pump 16, Can be forcibly discharged to the branch passage (14).

That is, in the dehumidifier provided with the simple automatic drainage structure of the dehumidifier of the present invention, when the stoppers 18 and 20 are coupled to the end portions of the discharge pipe line 12 and the branch line passage 14, Is drained to the drain port (8) and stored in the storage tank (10).

When the stopper 18 of the discharge pipe 12 is opened and the branch pipe 14 is closed by the stopper 20 as shown in FIG. 5, water in the reservoir 2 is discharged to the outside of the dehumidifier Respectively.

When the drain pump 16 is driven in a state in which the cap 18 of the discharge line 12 is closed and the cap 20 of the branch line 14 is opened, the water in the reservoir 2 And is discharged to the outside of the dehumidifier through the branch passage (14).

Accordingly, the water in the reservoir 2 can be drained to the reservoir tank 10 through the drain port 8 or continuously drained to the outside of the dehumidifier through the drain line 12 in accordance with the user's needs, 16 via the branch passage 14 by the driving of the branch pipes 14.

The drain pump 16 is configured to communicate with the drain pipe 12 even when the drive is stopped and water in the reservoir 2 is continuously drained along the drain pipe 12 even if the drain pump 16 is not driven .

The drainage pump 16 may be a geared pump that combines a motor and a reduction gear device to produce a high output with a small motor.

With the use of such a geared pump, a high output can be obtained while minimizing the volume. Thus, even if the length of the discharge pipe 12 is long, sufficient output for discharging water of the reservoir 2 can be obtained.

Since the conventional geared pump can be applied, detailed description is omitted.

The dehumidifier provided with the simple automatic drainage structure of the dehumidifier according to the present invention is configured such that the water level sensing device is installed in the reservoir portion 2 so that the drain pump 16 can be stopped / driven according to the level of the reservoir portion 2 do.

The float 22 is provided with a float 22 and a float 22. The float 22 floats and floats according to the level of the reservoir 2. When the float 22 is raised or lowered, And an operation switch 24 that operates in a switch-off state to stop driving / stopping the drain pump 16 when the level of the reservoir 2 is below a certain level.

The operation switch 24 is a member which has a switching function to contact or drop a contact due to, for example, a magnetic force of a magnet. The operation switch 24 is electrically connected to a control unit (not shown) provided in the dehumidifier, 24 to switch on / off the operation of the drain pump 16 under the control of the control unit.

The float 22 and the operation switch 24 maintain a distance within a predetermined distance and are in the switch-off state, so that the drain pump 16 is not driven and the float 22 2 is higher than a predetermined level, the gap between the float 22 and the operation switch 24 is increased beyond a predetermined interval, and the switch is turned on to drive the drain pump 16.

The water in the reservoir 2 can be automatically discharged by the water level sensing device composed of the float 22 and the operation switch 24 and the drain pump 16 that stops driving / have.

The operation switch 24 that performs the switching operation may use a reed switch, a micro switch (limit switch), a constant voltage sensor, or the like.

A backflow prevention device 28 may further be installed in the discharge pipe 12 between the reservoir 2 and the drain pump 16. The backflow prevention device 28 may be a check valve, .

The backflow prevention device 28 serves to prevent water from flowing backward when the water in the water storage tank 2 is automatically discharged by driving the drain pump 16 driven by the water level sensing device.

The dehumidifier provided with the simple automatic drainage structure of the dehumidifier according to the present invention is characterized in that the water in the reservoir 2 is drained to the reservoir tank 10 through the drain 8 and is drained manually or connected to the reservoir 2 It can be drained continuously through the discharge pipe 12 or automatically discharged by driving the drain pump 16 driven by the water level sensing device installed in the discharge pipe 12. [

Accordingly, it is possible to drain the water in the storage section 2 by selecting the drainage system which is most convenient for the user in accordance with the place and location where the dehumidifier is used.

At this time, if the place where the water of the reservoir 2 is finally discharged is apart from the place where the dehumidifier is installed, the extension pipe 26 may be connected to the discharge pipe 12 or the branch pipe 14 and used.

In order to use the dehumidifier provided with the simple automatic drainage structure of the dehumidifier according to the present invention as described above, when the dehumidifier is powered, when the fan is driven, air is sucked into the dehumidifier and moisture in the air is removed from the dehumidifier. And is discharged to the outside.

At this time, the sucked air constitutes a dehumidifying means, and is cooled down to below the dew point by passing through the heat exchanger (4) through which the refrigerant is circulated, so that the moisture contained in the air is formed into dew. (2).

In order to manually drain the water collected in the reservoir 2 through the reservoir tank 10, the plugs 18 and 20 are first inserted into the discharge line 12 and the branch line 14, respectively, 2, the water in the reservoir 2 falls down through the drain port 8 and drained to the reservoir tank 10 (see FIG. 4).

When a predetermined amount of water is stored in the water storage tank 10, the user confirms the water, separates the water storage tank 10 from the dehumidifier, empties the water, and mounts the water in the dehumidifier.

In order to continuously drain the water collected in the water storage portion 2 to the outside of the dehumidifier 2, the water collected in the water storage portion 2 is discharged to the discharge pipe 12 (See Fig. 5).

At this time, the extension pipe 26 may be connected to the discharge pipe 18 as needed.

In order to automatically drain the water in the water storage tank 2 by using the drain pump 16, the stopper 18 is first inserted into the discharge pipe 12 and the stopper 20 of the branch pipe 14 is taken out.

The float 18 and the operation switch 24 are kept in the switch-off state and the drain pump 16 is maintained in the stopped state while the float 18 and the operation switch 24 are kept in the off- Since the end portion is located higher than the storage portion 2, the water in the storage portion 2 is not drained.

When this state continues, the dehumidified water is continuously collected in the water storage portion 2 and the water level rises, the float 22 continues to rise as in the water level.

When the water level of the water storage portion 2 reaches a predetermined height, the gap between the float 22 and the operation switch 24 is opened at a predetermined interval or more to be switched on, and the drain pump 16 is driven by the signal .

The water in the reservoir 2 can be discharged to the discharge pipe 12 and then discharged to the outside of the dehumidifier through the branch pipe 14 by driving the drain pump 16.

When the float 22 is lowered to a position close to the operation switch 24, the float 22 is also lowered as the water level in the reservoir 2 is discharged and the water level of the reservoir 2 is lowered, The operation of the drain pump 16 is stopped by the control of the control unit while the discharge of the water discharged to the branch passage 14 is stopped.

When the dehumidified water is dehumidified by the dehumidifying means, the drain pump 16 is driven to discharge the water to the outside of the dehumidifier. When the water in the water storage portion 2 is discharged to a certain amount, The water in the reservoir portion 2 is automatically discharged to the outside of the dehumidifier by repeating the process of stopping the water discharge while the driving is stopped.

At this time, due to the backflow prevention device 28, water discharged to the discharge pipe 12 can be discharged without flowing backward.

While the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

2: low water part 4: heat exchanger
6: Base 8: Drain
10: Reservoir tank 12: With discharge pipe
14: branch pipe 16: drain pump
18, 20: plug 22: float
24: operation switch 26: extension pipe
28: Backflow prevention device

Claims (10)

Dehumidifying means for sucking in air to remove moisture in the sucked air and discharging dry air;
A water collecting unit for collecting dehumidified water through the dehumidifying unit;
A drain port for discharging the water when the water level of the water storage portion reaches a predetermined height or more;
Discharging means for discharging the water collected in the reservoir portion to the outside of the dehumidifier;
/ RTI >
The discharge means includes a discharge pipe connected to the reservoir to discharge the water in the reservoir by a free-fall method, a branch pipe branched from the discharge pipe, and a drain pump for forcibly discharging water from the reservoir to the branch pipe A simple automatic drainage structure of dehumidifier. delete The method according to claim 1,
Wherein a cap capable of being opened and closed is provided at the end of the discharge pipe and the branch pipe, respectively. The method according to claim 1,
Wherein the drain pump is a geared pump. The method according to claim 1,
Wherein the drain pump is connected to a portion of the drain pipe connected to the drain pipe. The method according to claim 1,
And a water level sensing device for stopping the driving / driving of the drain pump according to the level of the low water level part is installed in the low water level part. The method of claim 6,
Wherein the water level sensing device operates in a switch-on state when the level of the water level is higher than a predetermined level as the float is raised or lowered, and when the level of the water level is lower than a certain level, And an operating switch for stopping the driving / driving of the drain pump. The method according to claim 1,
And a water storage tank is provided at a lower portion of the drain hole. The method according to claim 1,
Wherein a backflow prevention device is further installed in a discharge pipe between the reservoir and the drain pump. The method of claim 9,
Wherein the backflow prevention device is a check valve.

Images