KR102200379B1 - Dehumidifier - Google Patents

Abstract

The present invention relates to a dehumidifier. A dehumidifier according to an aspect includes: a body having a suction port and a discharge port; An evaporator provided in the body and exchanging heat with the air sucked through the suction port; A condenser spaced apart from the evaporator and heat-exchanging with air heat-exchanged with the evaporator; A first air passage through which the air sucked through the suction port passes through the evaporator; And a second air flow path through which the air sucked through the suction port does not pass through the evaporator and flows between the condenser and the evaporator.

Description

Dehumidifier}

The present invention relates to a dehumidifier.

In general, a dehumidifier reduces the humidity by inhaling the humid air from the indoor space into the case, passing the refrigerant through a heat exchanger consisting of a condenser and evaporator, and then discharging the dehumidified air back to the indoor space to lower the indoor humidity. Device.

In the prior document, Korea Patent Registration No. 0565510, a dehumidifier is disclosed.

The dehumidifier includes an evaporator for dehumidifying the sucked air, and a condenser for exchanging heat with the air passing through the evaporator.

In the case of a conventional dehumidifier, all of the air sucked through the suction hole passes through the evaporator and then passes through the condenser. Accordingly, the air is dehumidified while passing through the evaporator, and then the temperature rises while passing through the condenser.

Therefore, in the case of such a dehumidifier, there is a problem that the temperature of air discharged through the discharge hole of the dehumidifier is high, causing a user's emotional dissatisfaction.

It is an object of the present invention to provide a dehumidifier in which the discharge temperature of dehumidified air is lowered and comfort is improved.

A dehumidifier according to an aspect includes: a body having a suction port and a discharge port; An evaporator provided in the main body and exchanging heat with the air sucked through the suction port; A condenser spaced apart from the evaporator and heat-exchanging with air heat-exchanged with the evaporator; A first air passage through which the air sucked through the suction port passes through the evaporator; And a second air flow path through which the air sucked through the suction port does not pass through the evaporator and flows between the condenser and the evaporator.

The dehumidifier of the present invention includes a first support bracket for supporting the condenser, a second support bracket for supporting the evaporator and connecting the first support bracket, and one of the first support bracket and the second support bracket Above, at least one hole for forming the second air flow path is formed.

The dehumidifier of the present invention further includes a support bracket for simultaneously supporting the condenser and the evaporator, and at least one hole for forming the second air flow path is formed in the support bracket.

In the dehumidifier of the present invention, the one or more holes are elongated in a direction crossing the flow direction of air flowing through the first air flow path.

In the dehumidifier of the present invention, a plurality of holes are formed in at least one of the first support bracket and the second support bracket, and the plurality of holes are in a direction crossing the flow direction of the air flowing through the first air flow path. Are arranged as.

In the dehumidifier of the present invention, a plurality of holes are formed in the support bracket, and the plurality of holes are arranged in a direction crossing a flow direction of air flowing through the first air flow path.

The dehumidifier of the present invention further includes a receiving portion accommodating the condenser and the evaporator, a first supporting bracket supporting the condenser, and a second supporting bracket supporting the evaporator, and the first supporting bracket and the second supporting bracket 2 The support brackets are installed in the receiving portion while being spaced apart from each other so that the distance between the first support bracket and the second support bracket forms the second air flow path.

In the dehumidifier of the present invention, the condenser and the evaporator are accommodated, and the air is formed between the condenser and the evaporator so that the air sucked through the suction port does not pass through the evaporator and flows into the gap between the condenser and the evaporator It further includes a third air flow path to allow.

In the dehumidifier of the present invention, the upper end of the evaporator is positioned lower than the upper end of the condenser, so that the third air flow path is formed between the upper end of the evaporator and the receiving part.

According to the proposed invention, the flow rate of the air passing through the condenser is increased and the condensation temperature is lowered, so that the temperature of the discharged air is lowered, thereby improving comfort and minimizing user's emotional dissatisfaction.

1 is a perspective view of a dehumidifier according to this embodiment.
2 is a cross-sectional view of the dehumidifier according to the present embodiment.
3 is a perspective view of a heat exchange unit according to this embodiment.
4 is a conceptual diagram schematically showing the air flow in the dehumidifier according to the present embodiment.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the constituent elements of the embodiment of the present invention, terms such as first, second, A, B, (a), (b) may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but another component between each component It should be understood that may be “connected”, “coupled” or “connected”.

1 is a perspective view of a dehumidifier according to the present embodiment, FIG. 2 is a cross-sectional view of a dehumidifier according to this embodiment, FIG. 3 is a perspective view of a heat exchange unit according to the present embodiment, and FIG. 4 is a dehumidifier according to the present embodiment. It is a conceptual diagram schematically showing the air flow of

1 to 4, the dehumidifier 1 according to the present embodiment includes a body 10 forming an external shape. The main body 10 includes a suction port 102 for inhaling air and a discharge port 104 through which dehumidified air is discharged from the main body 10.

For example, the suction port 102 may be formed on the side of the main body 10, and the discharge port 104 may be formed on the upper surface of the main body 10, but in this embodiment, the suction port and the discharge port The location is not limited thereto.

The main body 10 may further include a louver 110 that opens and closes the discharge port 104 and adjusts a discharge direction of the dehumidified air discharged from the discharge port 104.

The body 10 may include a compressor 11, a condenser 12, an expander (not shown), an evaporator 14, and a fan 15 for dehumidification of humid air. The condenser 12 and the evaporator 14 form a heat exchange unit.

The body 10 is provided with a receiving portion 22 accommodating the heat exchange unit. The evaporator 14 and the condenser 12 may be arranged in a direction parallel to the flow direction of air in the receiving part 22. In addition, the air passing through the suction port 102 is dehumidified while passing through the evaporator 14 and dried while passing through the condenser 12. That is, the condenser 12 is disposed downstream of the evaporator 14.

The evaporator 14 and the condenser 12 may be supported by a support bracket. The condenser 12 is supported by a first support bracket 43, and the evaporator 14 is supported by a second support bracket 43.

Further, the first support bracket 41 and the second support bracket 42 may be fastened by a fastening member, and the condenser 12 and the condenser 12 and the condenser 12 The evaporator 14 is spaced at a predetermined interval in a direction parallel to the flow direction of air. That is, a gap (G) is formed between the condenser 12 and the evaporator 14.

In at least one of the first support bracket 41 and the second support bracket 42, the air sucked through the suction port 102 does not pass through the evaporator 14, and the evaporator 14 and the condenser (12) One or more holes 43 for flowing into the gap G may be formed. In this case, the hole 43 may be formed long in a direction crossing the air flow direction so that the flow rate passing through the hole 43 is increased.

When a plurality of holes 43 are formed in at least one of the first support bracket 41 and the second support bracket 42, the plurality of holes 43 may be arranged in a direction crossing the flow direction of air. I can.

The upper end of the evaporator 14 is positioned lower than the upper end of the condenser 12. Accordingly, a space S is formed between the upper wall of the receiving part 22 and the upper end of the evaporator 14. In addition, the air sucked through the inlet 102 may flow into the space S.

As another example, each of the support brackets 41 and 42 may be coupled to the accommodating part 22 in a state where they are not connected to each other but spaced apart. In this case, air may flow into the gap G between the evaporator 14 and the condenser 12 through the gap between the support brackets 41 and 42.

Meanwhile, a control box 23 may be provided on the upper side of the heat exchange unit, and a drain pan 25 for collecting condensed water may be provided at the lower side of the evaporator 14.

In addition, the main body 10 further includes a fan 15 for flow of air, a discharge guide 21 for discharge of dehumidified air, and a water tank 30 for storing condensate generated in the dehumidification process. Can include.

The main body 10 may further include a manipulation unit 40 for inputting a command for operating the dehumidifier. The manipulation unit 40 may include a selection unit for selecting a dehumidification mode.

In addition, the user can set a desired temperature or a desired humidity using the operation unit 40. In addition, the compressor 11 and the fan 15 are controlled according to the comparison result of the desired temperature and the current temperature or the comparison result of the desired humidity and the current humidity. For example, when the current temperature reaches a desired temperature, the compressor 11 may stop and the fan 15 may stop or maintain a rotating state.

In this embodiment, the flow path of air will be described as follows.

Some of the air sucked through the inlet 102 flows through the first air flow path P1. The first air flow path P1 is a flow path through which air passes through the evaporator 14.

Another part of the air sucked through the inlet 102 flows through the second air flow path P2. In the second air flow path P2, air does not pass through the evaporator 14 and flows into the gap G between the evaporator 12 and the condenser 14 through the one or more holes 43. It's euro. Accordingly, the one or more holes 43 define the second air flow path P2.

The remaining part of the air sucked through the inlet 102 flows through the third air flow path. The third air flow path P3 is a flow path through which air does not pass through the evaporator 14 and flows into the space S between the upper wall of the receiving part 22 and the upper end of the evaporator 14.

According to the present embodiment, the cross-sectional area of the first air passage P1 is greater than the sum of the cross-sectional areas of the first air passage P2 and the second air passage P3.

The dehumidified air flowing through the first air flow path P1 and the non-dehumidified air flowing through the second air flow path P2 and the third air flow path P3 are the condenser 12 and the evaporator 14 It passes through the condenser 14 after being merged in the gap G between.

Accordingly, the flow rate of air passing through the evaporator 14 hardly decreases, and the flow rate passing through the condenser 12 substantially increases, so that the condensation temperature of the condenser 12 may be lowered.

When the condensation temperature is lowered, not only the evaporation efficiency of the evaporator is improved, but also the temperature of the air discharged through the discharge port 104 is lowered, thereby improving comfort and minimizing user's emotional dissatisfaction.

In addition, since the temperature of the air discharged to the room is lowered, energy required for indoor cooling according to an increase in the temperature of the indoor space may be reduced.

In the above embodiment, it has been described that two support brackets are connected, but unlike this, one support bracket may support the condenser and the evaporator so as to be spaced apart, and a hole may be provided.

In the above, even if all the constituent elements constituting the embodiments of the present invention have been described as being combined into one or operating in combination, the present invention is not necessarily limited to these embodiments. That is, within the scope of the object of the present invention, all of the constituent elements may be selectively combined and operated in one or more. '

In addition, terms such as "include", "consist of" or "have" described above mean that the corresponding component may be present unless otherwise stated, excluding other components Rather, it should be interpreted as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art, unless otherwise defined. Terms generally used, such as terms defined in the dictionary, should be interpreted as being consistent with the meaning of the context of the related technology, and are not interpreted as ideal or excessively formal meanings unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

10: main body 12: condenser
14: evaporator P1: first air flow path
P2: 2nd air flow path P3: 3rd air flow path

Claims (9)

A main body having an air inlet and an outlet, and having a receiving portion therein;
A fan provided at the rear of the receiving unit so that air is sucked into the receiving unit in a first direction through the suction port;
A condenser provided in the receiving unit and having an upper end thereof in contact with the inner wall of the receiving unit;
An evaporator that is provided in the receiving portion to form a gap with the condenser, and has an upper end positioned lower than an upper end of the condenser to form a space spaced apart from the inner wall of the receiving portion;
A support bracket supporting the condenser and the evaporator and including one or more holes formed to allow air to flow through the gap;
A first air passage formed so that some of the air sucked into the receiving portion through the inlet port passes through the evaporator in the first direction;
A second air flow path formed by the hole and formed so that another part of the air sucked through the suction port bypasses the evaporator and flows into the gap along a second direction; And
And a third air flow path formed by the space and formed so that the remaining air of the air sucked through the inlet bypasses the evaporator and flows to the condenser in the first direction,
The suction port, the accommodating part, and the fan are arranged in a direction parallel to the first direction,
The second air flow path is formed to be elongated in a direction crossing the first direction such that the first direction and the second direction cross each other. The method of claim 1,
The support bracket,
A first support bracket supporting the condenser;
And a second support bracket for supporting the evaporator and connecting the first support bracket,
The hole is a dehumidifier formed in at least one of the first support bracket and the second support bracket. The method of claim 1,
The support bracket is a dehumidifier that simultaneously supports the condenser and the evaporator. delete delete delete delete delete The method of claim 1,
The dehumidifier in which the third air flow path is formed between the upper end of the evaporator and the receiving part.

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