JP2011179705A - Natural evaporation humidifier and air conditioner including the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a natural evaporation humidifier and an air conditioner including the same for preventing impurities in the supplied water from being deposited on an evaporation plate constituting a humidifying element by improving a structure of the humidifying element. <P>SOLUTION: The humidifier 50 includes at least an upper end face 36, a lower end face 37 and a curved end face 38 connecting the upper end face 36 and the lower end face 37 to form an arch shape. The humidifier 50 includes an evaporation plate 15 having a water supply tank immersion region 31 where a part of the lower end face 37 is projected downward to be immersed in the water, a draining region 32 where a part of the lower end face 37 is projected downward to drain the water absorbed from the water supply tank immersion region 31, and a curved section 34 formed on a region farthest from the water supply tank immersion region 31 and composed of a part of the upper end face 36, a part of the lower end face 37 and the curved end face 38. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a natural evaporative humidifier that incorporates a humidifying element and humidifies conditioned air by natural evaporation of water and an air conditioner including the natural evaporative humidifier, and more particularly to improvement of the structure of the humidifying element. is there.

  Conventionally, a natural evaporation type humidifier attached to a ceiling-embedded air conditioner is known. As such a natural evaporation type humidifier, an evaporation plate that sucks up the supply water from the water supply tank by capillarity is placed in the air passage of the air conditioner, the supply water is evaporated from the evaporation plate, and the blown air is humidified. There has been proposed a method in which surplus water is dropped into a drainage tank by a head difference (see, for example, Patent Document 1).

JP-A-1-174835 (Page 4, FIG. 1, etc.)

  In the humidifier as described in Patent Document 1, impurities in the feed water remain when the feed water evaporates, the concentration of impurities in the feed water increases, and impurities that cannot be completely dissolved in the water are on the evaporation plate. This causes the phenomenon of precipitation. If impurities in the supply water are deposited inside, the path for sucking up water is blocked by the capillary phenomenon, and the water absorption power of the evaporation plate is reduced. In addition, if impurities in the feed water are deposited on the surface of the evaporation plate, a phenomenon occurs in which impurities are further deposited on the deposited impurities. Eventually, problems such as dropping of impurities and dripping of water from impurities arise.

  The present invention has been made to solve the above-described problems, and is a natural evaporation humidifier that improves the structure of the humidifying element and suppresses the precipitation of impurities in the feed water on the evaporation plate constituting the humidifying element. A first object is to provide an apparatus and an air conditioner including the apparatus. In addition to the first object, the second object of the present invention is to provide a natural evaporation humidifier that improves the strength of the humidifying element without obstructing the flow of water, and an air conditioner equipped therewith. To do.

  A natural evaporation humidifier according to the present invention uses a capillary phenomenon to suck up water and supply a plurality of evaporation plates to which water is supplied as a whole, and a comb-like fixing member connecting the plurality of evaporation plates A natural evaporative humidifier that humidifies air by natural evaporation of water, wherein the evaporating plate is formed to form an arc at a corner of the end face, A water tank immersion part that protrudes downward and immerses in water, and a drainage part that protrudes a part of the lower end face downward and drains the water sucked up from the water tank immersion part. It is characterized by.

  According to the natural evaporation humidifier according to the present invention, since the shape of the evaporation plate constituting the humidifying element is devised, it is possible to suppress the precipitation of impurities in the supply water on the evaporation plate.

It is a partial perspective view which shows the state which looked at a part of internal structure of the air conditioning apparatus which concerns on embodiment of this invention from the side surface. It is the schematic which shows the shape of the evaporation board which comprises the humidification element with which the humidification apparatus which concerns on embodiment of this invention is equipped. It is a schematic perspective view which shows the structure of the comb-shaped fixing member which connects an evaporation board. It is a schematic perspective view which shows the external appearance shape of a humidification element. It is the schematic which shows the structure of the evaporation plate which provided the slit in the outer periphery of an evaporation plate as a general method of attaching a comb-shaped fixing member. It is the schematic which shows the structure of the evaporation plate which provided the slit different from a supply water distribution auxiliary | assistant slit.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a partial perspective view illustrating a state in which a part of the internal configuration of the air conditioner 100 is viewed from the side. Based on FIG. 1, the structure and operation | movement of the air conditioning apparatus 100 are demonstrated. In addition, in the following drawings including FIG. 1, the relationship of the size of each component may be different from the actual one.

  The air conditioner 100 is installed so as to be embedded in a ceiling (ceiling 3 shown in FIG. 1) in a room (a space to be air-conditioned) such as a house, a building, or a condominium, and uses the refrigeration cycle to generate conditioned air. It is supplied to the air conditioning target space. The air conditioner 100 is provided with a natural evaporation humidifier 50 (hereinafter simply referred to as the humidifier 50) for generating humid air as one of the conditioned air. The humidifier 50 will be described in detail with reference to FIG.

  The air conditioner 100 includes a main body 1 that is open at a part of the side and a lower side, a decorative panel 2 that is attached to the lower side of the main body 1, a heat exchanger 11 that is provided inside the main body 1, and a main body 1. And at least a humidifier 50 attached to the side surface. In FIG. 1, the flow of air supplied to the air-conditioning target space (hereinafter simply referred to as air 12) together with the blown air flow path 5 of the air-conditioned air generated in the main body 1 and supplied to the air-conditioning target space. Is shown).

  The main body 1 constitutes the outline of the air conditioner 100 and houses a blower (not shown) in addition to the heat exchanger 11 inside. The decorative panel 2 covers the lower part of the main body 1 and has an air inlet (not shown) for taking air into the main body 1 and an air outlet 2 a communicating with the air flow passage 5. The heat exchanger 11 functions as a condenser during heating operation, functions as an evaporator during cooling operation, and includes air supplied from a blower (not shown) and refrigerant supplied from a heat source unit (outdoor unit) (not shown). Heat exchange is performed between them to generate conditioned air. The blown air flow path 5 conducts air taken into the main body 1 from the air conditioning target space in the order of the heat exchanger 11 and the lower opening of the main body 1.

  The humidifier 50 includes at least the humidifier main body 4, the humidifying element 21, the water supply tank 13, and the drain pan 14. The humidifier main body 4 is attached to the side surface of the main body 1, and a part of the humidifying element 21 (water tank immersion part 31 and drainage part 32), the water tank 13 and the drain pan 14 are accommodated therein. The humidifying element 21 includes a plurality of evaporation plates 15 and a comb-shaped fixing member 22 that connects the plurality of evaporation plates 15. A part of the humidifying element 21 protrudes into the blown air flow path 5 in the main body 1. The water tank 13 stores water therein, and the water tank immersion part 31 of the evaporation plate 15 is located. The drain pan 14 is disposed below the drainage portion 32 of the evaporation plate 15 and receives drainage from the drainage portion 32.

An operation when supplying humidified air from the air conditioner 100 will be briefly described.
When the air conditioner 100 starts operation, a blower (not shown) rotates, and air in an air-conditioning target space where the air conditioner 100 is installed (hereinafter simply referred to as indoor air) is a suction port (not shown) of the decorative panel 2. Is sucked into the main body 1. The indoor air sucked into the main body 1 is guided to the heat exchanger 11 and is heat-exchanged with the refrigerant flowing through the heat exchanger 11 to become conditioned air. This conditioned air increases the humidity by being given moisture from the surface of the evaporation plate 15 via the evaporation plate 15 of the humidifying element 21 and becomes humidified air. The moisture supplied to the evaporation plate 15 humidifies the conditioned air by natural evaporation. This humidified air is blown into the air-conditioning target space from the blowout port of the decorative panel 2 through the blowout air flow path 5 by the rotation of the blower.

  FIG. 2 is a schematic view showing the shape of the evaporation plate 15 constituting the humidifying element 21. In this FIG. 2, the state which looked at the evaporation plate 15 from the surface side substantially parallel to the flow direction of the air which flows through the blowing air flow path 5 is shown. Based on FIG. 2, the humidification element 21 (especially the evaporation plate 15) is demonstrated in detail.

  The humidifying element 21 sucks up water by using a capillary phenomenon and is supplied with moisture as a whole. Further, the humidifying element 21 drains the water sucked up from the lower end in order to prevent accumulation of impurities (scale components (for example, calcium (Ca), magnesium (Mg), etc.)) contained in the supplied water. It has become.

  As described above, the humidifying element 21 includes the plurality of evaporation plates 15 and the comb-shaped fixing member 22 that connects the plurality of evaporation plates 15. The evaporation plate 15 has at least an upper end surface 36, a lower end surface 37, and a lateral end surface. And the evaporation plate 15 has the water tank immersion part 31 and the drainage part 32, and is formed so that an arc may be drawn in the corner part (corner part) of an end surface (curved part 34). In addition, as a material of the board | plate material which comprises the evaporation board 15, it is good to apply a foaming base material, a nonwoven fabric base material, a sintering base material, etc., for example.

  The water tank immersion part 31 is a part that is immersed in the water stored in the water tank 13 in order to pump up the water stored in the water tank 13. The water tank immersion portion 31 is formed by protruding a part of the lower end surface 37 of the evaporation plate 15 downward. The protrusion length of the water tank immersion part 31 is not specifically limited, and it is sufficient that the water tank has a length that can be immersed in water stored in the water tank 13.

  The drainage part 32 is a part for draining the water sucked up from the lower end (water tank immersion part 31) in order to prevent accumulation of impurities contained in the water supplied from the water tank immersion part 31. The drainage part 32 is formed by protruding a part of the lower end surface 37 of the evaporation plate 15 downward at a position adjacent to the water tank immersion part 31 via the water tank immersion locking part 39. Although the protrusion length of the drainage part 32 is not particularly limited, it may be formed so that the tip portion becomes the lowest end of the evaporation plate 15. The water tank immersion locking portion 39 is formed in a slit shape that is hooked on the wall surface of the water tank 13.

  The curved portion 34 is formed at a part farthest from the water tank immersion part 31. The curved portion 34 has a lateral end surface (a lateral end surface on the right side of the paper, a shape that draws an arc continuously connecting a part of the upper end surface 36, a part of the lower end surface 37, and the upper end surface 36 and the lower end surface 37). Hereinafter referred to as a curved end face 38).

  The humidifying element 21 is provided with a curved portion 34 at a part farthest from the water tank immersion part 31 because the amount of water supplied decreases as the part is farther from the supply water suction part (water tank immersion part 31). . By doing in this way, the range in which the water can flow locally when viewed at the curved portion 34 is 180 ° in the tangential direction, so that new supply water can easily enter and excess water can easily flow out. Therefore, it is possible to avoid the environment where impurities are likely to be deposited.

  If the amount of water supplied at a certain point on the evaporation plate 15 of the humidifying element 21 is equal to the amount of evaporation and impurities remaining in the surplus water cannot be transported, impurities in the evaporated supply water continue to remain. As a result, the concentration of impurities increases, leading to precipitation of impurities. This phenomenon can be avoided by flowing more water than the amount of evaporation to every location on the evaporation plate 15 and leaving the water that has not been evaporated completely together with the impurities in the supplied water. In the conventional evaporation plate, the upper end surface and the lateral end surface are connected at 90 °, and the path for the flow of water is limited by the range of the angle, and the supply water is locally supplied. Will be in a state where there is little inflow. If it does so, it will become easy to generate | occur | produce precipitation of an impurity especially in the front-end | tip of the corner | angular.

  On the other hand, the humidifying element 21 in the humidifying device 50 according to the present embodiment is provided with the curved portion 34 at a part farthest from the water tank immersion part 31. By doing in this way, the range in which the water can flow locally when viewed at the curved portion 34 is 180 ° in the tangential direction, so that new supply water can easily enter and excess water can easily flow out. Thus, it becomes possible to efficiently reduce the precipitation of impurities.

  Further, the further away from the water tank immersion part 31 on the evaporation plate 15, the more difficult it is to carry the supply water by capillary action. Therefore, it is desirable to incline the upper end surface 36 (inclination toward the curved end surface 38 toward the lower side) so that the lifting height of the supplied water decreases as the distance from the water tank immersion portion 31 increases. In FIG. 2, as will be described in detail with reference to FIG. 3, a state where a supply water distribution auxiliary slit (first slit) 33 is formed through the evaporation plate 15 is illustrated as an example.

  FIG. 3 is a schematic perspective view showing the configuration of the comb-shaped fixing member 22 that connects the evaporation plates 15. FIG. 4 is a schematic perspective view showing the external shape of the humidifying element 21. FIG. 5 is a schematic view showing a structure of an evaporation plate in which a slit 200 is provided on the outer periphery of the evaporation plate as a general method for attaching a comb-shaped fixing member. FIG. 6 is a schematic view showing the structure of the evaporation plate 15 provided with a slit (second slit) 35 different from the supply water distribution auxiliary slit 33. The humidifying element 21 will be described in more detail with reference to FIGS. As shown in FIG. 2, a supply water distribution auxiliary slit 33 is formed through the evaporation plate 15.

  The humidifying element 21 is configured by connecting a plurality of evaporation plates 15 by a fixing member 22. As shown in FIG. 3, the fixing member 22 is formed in a comb shape. This fixing member 22 is inserted into the supply water distribution auxiliary slit 33 shown in FIG. 2, and connects the evaporation plate 15 as shown in FIG. That is, the humidifying element 21 is configured to be connected by fitting the evaporation plate 15 into each gap formed between the comb teeth of the fixing member 22.

  The supply water distribution auxiliary slit 33 has a function of blocking the path through which the supply water lifted from the water supply tank 13 by capillary action flows to the drainage portion 32 according to gravity and guiding the supply water in the horizontal direction. That is, the supply water distribution auxiliary slit 33 plays a role of distributing the supply water to the whole on the evaporation plate 15. In the humidifying device 50 according to the present embodiment, the supply water distribution auxiliary slit 33 having such a role is used as an insertion port for the fixing member 22. By doing so, the strength of the humidifying element 21 can be improved without interfering with the flow of the supply water in the evaporation plate 15.

  The supply water distribution auxiliary slit 33 is inclined so as to descend in a direction away from the water tank immersion portion 31 in order to effectively use the influence of gravity in the horizontal flow, that is, downward toward the curved end surface 38. It is desirable to incline toward the side (see FIG. 2). The material of the fixing member 22 is not particularly limited. For example, a resin material (ABS (acrylonitrile butadiene styrene), AS (acrylonitrile styrene), PS (polystyrene), PP (polypropylene), etc.), foaming, etc. A substrate, a nonwoven fabric substrate, or the like may be applied.

  The effect of improving the connection strength of the evaporation plate 15 due to the insertion of the fixing member 22 is affected by the fitting property with the evaporation plate 15 and the rigidity of the fixing member 22 itself. This means that there is an effective insertion direction of the fixing member 22. The connection strength of the evaporating plate 15 increases as the fitting between the fixing member 22 and the evaporating plate 15 becomes better, and becomes stronger against the force acting in the horizontal direction with respect to the insertion direction of the comb teeth, and as the rigidity of the fixing member 22 increases. It becomes strong against the force acting in the direction perpendicular to the insertion direction of the comb teeth.

  FIG. 4 shows an example in which the fixing member 22 is inserted into the supply water distribution auxiliary slit 33 formed in the evaporation plate 15 and the evaporation plate 15 is connected, but this is effective for distribution of supply water. If the direction of the feed water distribution auxiliary slit 33 does not match the direction in which the fixing member 22 is inserted to improve the strength, it is necessary to provide a slit for connecting the fixing member 22 at another position.

  Generally, when connecting the evaporation plates with a comb-shaped fixing member, the assembly work may be easy, and a slit (as shown in FIG. 5) for inserting the fixing member into one of the outer circumferences of the evaporation plate. A slit 200) is often provided. However, in this case, a portion having an angle of 180 ° or less is generated at the base of the slit, which is not preferable from the viewpoint of suppressing the generation of precipitates in the supply water. FIG. 6 shows an example of a countermeasure when the supply water distribution auxiliary slit 33 is not allowed to play a supply water distribution auxiliary role.

  In FIG. 6, the fixing member 22 is inserted when the direction in which the fixing member 22 is inserted in the supply water distribution auxiliary slit 33 provided inside the evaporation plate 15 and the role of assisting the distribution of the supply water are not compatible. A state in which the slit 35 for insertion is formed through the evaporation plate 15 is shown. It is also desirable to suppress the precipitation of impurities in the supply water even when the supply water distribution auxiliary slit 33 is not allowed to play the auxiliary role of supply water distribution. For this purpose, a slit 35 for inserting the fixing member 22 may be provided inside the evaporation plate 15. The slit 35 is formed on the curved portion 34 side of the supply water distribution auxiliary slit 33 so that the comb teeth of the fixing member 22 to be inserted are in the vertical direction.

  By forming such a slit 35 in the evaporation plate 15, it is possible to make the supply water distribution auxiliary slit 33 take charge of the auxiliary role of supply water distribution and allow the slit 35 to take charge of improving the connection strength of the evaporation plate 15. become. Therefore, the supply water distribution auxiliary slit 33 can sufficiently exhibit the auxiliary function of supply water distribution, and the precipitation of impurities in the supply water can be suppressed.

  As described above, in the humidifying device 50, by forming the curved portion 34 on the evaporation plate 15 constituting the humidifying element 21, the range in which water can flow locally in the curved portion 34 is tangential. Since it is 180 ° open, it is easy to enter new supply water, and the excess water easily flows out, so that it is possible to avoid an environment where impurities are likely to precipitate. Further, in the humidifier 50, the supply water distribution auxiliary slit 33 is formed in the evaporation plate 15, so that the supply water can be distributed on the evaporation plate 15 as a whole while ensuring the connection strength of the evaporation plate 15. It has become. In addition, when the supply water distribution auxiliary slit 33 cannot perform the auxiliary role of the supply water distribution, the humidifier 50 can cope by forming a slit 35 different from the supply water distribution auxiliary slit 33. Yes.

  The air conditioner 100 provided with such a humidifier 50 has the same effect.

  DESCRIPTION OF SYMBOLS 1 Main body, 2 Cosmetic panel, 2a Air outlet, 3 Ceiling, 4 Humidifier main body, 5 Air flow path, 11 Heat exchanger, 12 Air, 13 Water supply tank, 14 Drain pan, 15 Evaporating plate, 21 Humidification element, 22 Fixation Member, 31 Water tank immersion part, 32 Drain part, 33 Supply water distribution auxiliary slit (first slit), 34 Curved part, 35 Slit (second slit), 36 Upper end face, 37 Lower end face, 38 Curved end face, 39 Supply Water tank immersion locking part, 50 humidifier, 100 air conditioner, 200 slit.

Claims (7)

A plurality of evaporation plates that suck up water by utilizing capillary action and are supplied with moisture, and a humidifying element including a comb-shaped fixing member that connects the plurality of evaporation plates, A natural evaporation humidifier that humidifies air by natural evaporation,
The evaporation plate is
It is formed to draw an arc at the corner of the end face,
A part of the lower end surface protrudes downward and is immersed in water.
A natural evaporative humidifier characterized by having a part of the lower end surface protruding downward and a drainage part for draining the water sucked up from the water tank immersion part. The natural evaporation humidifier according to claim 1, wherein an upper end surface of the evaporation plate is inclined downward toward the water tank immersion part. Forming a first slit through the evaporation plate to distribute moisture to the entire evaporation plate;
The natural evaporation humidifier according to claim 1 or 2, wherein the plurality of evaporation plates are connected by inserting the fixing member into the first slit. A first slit that distributes moisture to the entire evaporation plate is formed through the evaporation plate, and a second slit for inserting the fixing member is formed to draw an arc of the first slit of the evaporation plate. The spontaneous evaporation humidifier according to any one of claims 1 to 3, wherein the natural evaporative humidifier is formed so as to penetrate therethrough. The second slit is
The natural evaporation humidifier according to claim 4, wherein the inserted comb teeth of the fixing member are formed in a vertical direction. The natural evaporation humidifier according to any one of claims 3 to 5, wherein the first slit is inclined downward toward an end surface formed to draw an arc. An air-conditioning apparatus comprising the natural evaporation humidifier according to any one of claims 1 to 6.

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