JP2009168345A - Suction grille - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress attachment of dust with respect to an air suction grille. <P>SOLUTION: This suction grille comprises a plurality of bars 22, and an air suction opening 23 formed between the bars 22 in adjacent thereto. End faces at a windward side, of the bars 22 are respectively composed of a plane portion 2a and an arcuate angular portion 2b formed on both ends of the plane portion 2a. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

    The present invention relates to an air suction grille, and particularly relates to measures for suppressing dust adhesion.

2. Description of the Related Art A suction grill having a plurality of air suction ports formed in a slit shape has been known. For example, in patent document 1, the suction grill provided in the indoor unit of the air conditioning apparatus is disclosed. In such a suction grill, as shown in FIG. 10A, a plurality of crosspieces (101) are arranged in parallel to form a slit-like suction port (102) between the crosspieces (101). ing.
JP 2007-38215 A

    By the way, generally, in the suction grill as described above, dust in the air flowing into the suction port (102) adheres to the crosspiece (101). And when the adhesion amount of dust increased, there existed a problem that the distribution | circulation resistance of air increased.

    Accordingly, the inventors of the present application have elucidated the mechanism by which dust in the air adheres to the crosspiece (101) as follows. In general, the cross-sectional shape of the crosspiece (101) is formed in a rectangular shape (see FIG. 10B). In this case, when air flows into the suction port (102), an air vortex is generated at the corner of the windward (indoor side) end surface (103) of the crosspiece (101). Due to the generation of this vortex, dust in the air adheres to the corners and side surfaces of the crosspiece (101). When the suction grill is manufactured by injection molding, generally, a step (104) by a so-called parting line is formed on the side surface of the crosspiece (101) (see FIG. 10C). In this case, when air flows through the suction port (102), an air vortex is generated at the step (104) on the side surface of the crosspiece (101). Due to the generation of the vortex, dust in the air adheres to the side surface of the crosspiece (101).

    This invention is made | formed in view of this point, The objective is to suppress that dust adheres to a crosspiece in the suction grille in which the air inlet was formed by the some crosspiece.

    In the present invention, in order to solve the above problems, the shape of the crosspiece (22) is devised.

    Specifically, the first invention is a suction grill provided with a plurality of bars (22) and an air inlet (23) formed adjacent to the bars (22) and the bars (22). Is assumed. The windward end face of the crosspiece (22) is composed of a flat part (2a) and arcuate corners (2b) formed at both ends of the flat part (2a). .

    In the above invention, since the corner (2b) of the crosspiece (22) has an arc shape, no air vortex is generated at the corner (2b) when air flows into the suction port (23). Therefore, the adhesion of dust due to the generation of air vortices at the corners (2b) and side surfaces of the crosspiece (22) is suppressed.

    2nd invention presupposes the suction grille provided with several crosspieces (22) and the air inlet (23) formed adjacent between these crosspieces (22) and crosspieces (22). . The windward end surface of the crosspiece (22) is formed in a tapered shape.

    In the above invention, air flows along the tapered surface of the crosspiece (22) and smoothly flows to the side surface side of the crosspiece (22). At that time, air vortices are less likely to occur than when flowing through the corners (right-angled portions) of a conventional rectangular cross section. Thereby, the adhesion of dust due to the generation of air vortex is suppressed.

    According to a third invention, in the first or second invention, a cross section of the crosspiece (22) is formed in a U-shape opening to the leeward side.

    In the above invention, when manufactured by injection molding, as shown in FIG. 6, the cavity (42) which is a female mold has the same shape as the outer shape of the crosspiece (22), and the core is a male mold. (44) has the same shape as the hollow portion of the crosspiece (22) (that is, the U-shaped inner space). Then, the so-called parting line of the female type and the male type becomes the position of the upper surface (upper surface in FIG. 6) of the crosspiece (22). Therefore, no step due to the parting line occurs on the side surface of the crosspiece (22). That is, the side surface of the crosspiece (22) becomes flat. In this way, by making the cross section of the crosspiece (22) U-shaped (substantially U-shaped), the side face of the crosspiece (22) is made flat without any step even when manufactured by injection molding. Can do.

    Thereby, when air passes through the suction port (23), generation of air vortex due to a step is prevented on the side surface of the crosspiece (22). Therefore, the adhesion of dust due to the generation of air vortex on the side surface of the crosspiece (22) is suppressed.

    According to a fourth invention, in any one of the first to third inventions, the suction port (23) is formed in a tapered shape whose end portions are gathered at one point.

    In the above invention, when wiping away dust adhering to the side walls on both sides of the suction port (23), if the side walls are wiped from the center toward the end side, Any dust collects at one point on the end. Therefore, dust processing becomes easy.

    In a fifth aspect based on any one of the first to fourth aspects, the suction port (23) has a tapered end wall surface so that the opening gradually expands from the leeward side to the windward side. It is what has been.

    In the above invention, dust adhering to the side wall of the suction port (23) is collected at the end by wiping and cleaning. Here, the wall surface at the end of the suction port (23) is inclined so that the opening of the suction port (23) gradually expands toward the windward side (ie, the outside). Therefore, the dust collected at the end is easily taken out by the user.

    A sixth invention is provided in the indoor unit (1) of the ceiling-embedded air conditioner according to any one of the first to fifth inventions.

    In the above invention, the cleaning work of the dust adhering to the suction grill (20) is a high place work and is troublesome. However, since dust adhesion on the suction grill (20) is suppressed, it is not necessary to frequently perform the work at a high place.

    As described above, according to the present invention, the windward end surface of the crosspiece (22) is composed of the flat surface portion (2a) and the arc-shaped corner portions (2b) formed at both ends of the flat surface portion (2a). I tried to do it. Therefore, it is possible to prevent the generation of air vortex at the corner (2b) of the end face of the crosspiece (22). Thereby, adhesion of dust can be suppressed on the end face or side face of the crosspiece (22). As a result, the trouble of cleaning the suction grill (20) can be reduced. Furthermore, since the adhesion of dust to the suction grill (20) is suppressed, the appearance of the suction grill (20) is improved and the user's discomfort can be reduced.

    According to the second invention, the windward end face of the crosspiece (22) is tapered. Therefore, air can be smoothly circulated from the tapered surface to the side surface in the crosspiece (22). Thereby, generation | occurrence | production of an air vortex can be prevented in the connection part of the taper surface and side surface of a crosspiece (22), and adhesion of dust can be suppressed. As a result, as described above, the labor for cleaning the suction grill (20) can be reduced and the user's discomfort can be reduced.

    Further, according to the third invention, since the cross section of the crosspiece (22) is formed in a U-shape, even when manufactured by injection molding, a step due to the parting line is formed on the side surface of the crosspiece (22). Can be eliminated. Thereby, the side of a crosspiece (22) can be made flat. Therefore, it is possible to prevent the generation of vortices while air passes through the suction port (23). Therefore, it is possible to further suppress the adhesion of dust on the side surface of the crosspiece (22). As a result, the labor for cleaning the suction grill (20) can be greatly reduced.

    Moreover, according to 4th invention, it was made the taper shape which gathers the edge part of a suction inlet (23) in one point. Therefore, when dust adhering to the side walls on both sides of the suction port (23) is wiped and cleaned, any dust on the side walls on both sides can be collected at one end. That is, dust can be easily collected in one place. As a result, it becomes easy to treat dust, and the working efficiency related to cleaning of the suction grill (20) can be improved. Therefore, the user's labor can be reduced.

    According to the fifth invention, the wall surface of the end of the suction port (23) is formed in a tapered shape so that the opening of the suction port (23) gradually expands from the leeward side to the windward side. Therefore, it is easy to take out the dust collected at the end of the suction port (23) to the outside. Thereby, the work efficiency which concerns on the cleaning of a suction grill (20) can be improved further. User effort can be further reduced.

    Further, according to the sixth aspect of the invention, since it is provided in the indoor unit (1) of the ceiling-embedded air conditioner, the cleaning of the suction grill (20) becomes a high place work. You do not have to work frequently. As a result, the user's labor can be further reduced.

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

    The indoor unit (1) of the present embodiment is provided with a suction grill (20) according to the present invention. As shown in FIG. 1, the indoor unit (1) constitutes a part of a so-called ceiling-embedded air conditioner and is installed on the ceiling of the indoor space. The air conditioner includes a refrigerant circuit formed by connecting a compressor, an outdoor heat exchanger and an expansion valve provided in an outdoor unit, and an indoor heat exchanger (32) provided in the indoor unit (1). Yes. The refrigerant circuit performs a vapor compression refrigeration cycle by reversibly circulating the refrigerant. In the air conditioner, a cooling operation in which the indoor heat exchanger (32) functions as an evaporator in the refrigerant circuit and a heating operation in which the indoor heat exchanger (32) functions as a condenser in the refrigerant circuit are performed.

<Configuration of indoor unit>
The indoor unit (1) includes a casing (10) and a decorative panel (11). In the casing (10), an indoor heat exchanger (32), a drain pan (33), an indoor fan (31) and an air filter (36) are provided.

    The casing (10) is formed in a substantially rectangular parallelepiped box shape whose lower side is open. A heat insulating material (15) is laminated on the inner surface of the casing (10). The casing (10) is installed in a state where the lower part is inserted through the opening of the ceiling board.

    The decorative panel (11) is formed in a rectangular plate shape. The plan view shape of the decorative panel (11) is slightly larger than the plan view shape of the casing (10). The decorative panel (11) is attached so as to cover the lower side of the casing (10) with the seal member (14) interposed therebetween. In a state where the decorative panel (11) is attached to the casing (10), the decorative panel (11) is exposed indoors.

    The decorative panel (11) is provided with one suction grill (20) according to the present invention and four air outlets (12). The suction grill (20) is fitted into the central opening of the decorative panel (11), and the room air is sucked into the casing (10). Each blower outlet (12) is formed in an elongated rectangular shape, and is formed along each side of the decorative panel (11). Each air outlet (12) is provided with a wind direction adjusting plate (13). The wind direction adjusting plate (13) is rotated to adjust the wind direction (the blowing direction). The details of the suction grill (20) will be described later.

    The indoor fan (31) is a so-called turbo fan. The indoor fan (31) is disposed near the center of the casing (10) and is located above the suction grille (20). The indoor fan (31) includes a fan motor (31a) and an impeller (31b). The fan motor (31a) is fixed to the top plate of the casing (10). The impeller (31b) is connected to the rotation shaft of the fan motor (31a). A bell mouth (34) is provided on the lower side (suction side) of the indoor fan (31). In the casing (10), the bell mouth (34) partitions a space upstream of the indoor heat exchanger (32) into an indoor fan (31) side and a suction grille (20) side. The indoor fan (31) is configured to blow out the air sucked through the bell mouth (34) in the circumferential direction.

    The indoor heat exchanger (32) is a cross fin type fin-and-tube heat exchanger. The indoor heat exchanger (32) is formed in a square shape in plan view, and is disposed so as to surround the periphery of the indoor fan (31). In the indoor heat exchanger (32), heat is exchanged between the refrigerant and the indoor air (blown air) sent by the indoor fan (31).

    The drain pan (33) is provided below the indoor heat exchanger (32). The drain pan (33) is for receiving drain water generated by condensation of moisture in the air in the indoor heat exchanger (32). The drain pan (33) is provided with a drain pump for draining drain water (not shown). The drain pan (33) is sloped so that drain water collects at the location where the drain pump is installed.

    A partition plate (35) is provided below the bell mouth (34). The partition plate (35) partitions the space between the bell mouth (34) and the suction grille (20) vertically. That is, the partition plate (35) partitions the upstream space of the indoor heat exchanger (32) into the indoor heat exchanger (32) side including the bell mouth (34) and the suction grille (20) side.

    In the center of the partition plate (35), an opening is formed for the air sucked from the suction grill (20) to flow into the bell mouth (34), and an air filter (36) is provided in the opening. . The air filter (36) is sized to cover the inlet of the bell mouth (34). When the air sucked from the suction grille (20) passes through the air filter (36), dust in the air is captured.

    In the indoor unit (1) of the present embodiment, when the indoor fan (31) is driven, the indoor air sucked from the suction grill (20) passes through the air filter (36) and flows into the bell mouth (34). To do. The air flowing into the bell mouth (34) is blown out from the indoor fan (31). The blown air is cooled or heated by exchanging heat with the refrigerant in the indoor heat exchanger (32), and then supplied into the room from each outlet (12). Thereby, indoor cooling or heating is performed.

    Next, the suction grill (20) will be described in detail with reference to FIGS.

    As shown in FIG. 2, the suction grill (20) includes a grill body (21) formed in a panel shape having a substantially square shape in plan view. A plurality of crosspieces (22) are integrally formed at the center of the grill body (21). Each crosspiece (22) is formed in the shape of an elongated bar, and is arranged in parallel with each other. A suction port (23) is formed adjacent to each other between the crosspieces (22). That is, each suction port (23) opens in the shape of an elongated slit.

    As shown in FIG. 3, as a feature of the present invention, both end portions of each suction port (23) are formed in a semi-elliptical shape that is elongated in plan view. That is, both end portions of each suction port (23) have a tapered shape that gathers at one point. Here, when the user wipes off dust adhering to the side walls on both sides of the suction port (23) (that is, the side surfaces of the crosspiece (22)), the side walls are wiped from the center toward the end side. Then, any dust on the side walls on both sides gathers at one end. Therefore, dust can be easily removed. Moreover, since the end portion has an arc shape, for example, dust can be more easily removed as compared with a shape where the V shape is gathered at one point.

    Moreover, as shown also in FIG. 5, in each said inlet (23), the edge part wall surface (3a) of both sides is formed in the taper shape. Specifically, the end wall surface (3a) of the suction port (23) is inclined so that the opening of the suction port (23) gradually expands from the leeward side (unit inside) toward the windward side (indoor side). . This makes it easier for the user to take out the dust collected at the end of the suction port (23) to the outside (inside the room).

    Further, as shown in FIG. 4, as a feature of the present invention, the cross-sectional shape of each crosspiece (22) is devised. Specifically, the cross section of each crosspiece (22) is formed in a U-shape (substantially U-shape) that opens to the leeward side (unit side). And the whole side surface (left and right surface in FIG. 4) of each crosspiece (22) is a flat surface without a level | step difference. Furthermore, the windward (indoor side) end face of each crosspiece (22) is composed of a flat part (2a) and arcuate corners (2b) formed on both sides of the flat part (2a). Yes. The corner (2b) is set to, for example, R1.0 mm to R2.5 mm.

    The suction grill (20) of this embodiment is manufactured by injection molding. And the metal mold | die (41,43) shown in FIG. 6 is used for the injection molding of each crosspiece (22) and a suction inlet (23). Specifically, the cavity (42) of the cavity plate (41) which is a female mold has the same shape as the outer shape of the crosspiece (22). The core (44) of the core plate (43), which is a male mold, has the same shape as the hollow portion (that is, the U-shaped inner space) of the crosspiece (22). By this injection molding, the cross section of the crosspiece (22) is formed in a U-shape as described above. In this injection molding, the upper surface (the lower surface in FIG. 4) of the crosspiece (22) in FIG. 6 becomes a so-called mold parting line. Therefore, as described above, the side surface of the crosspiece (22) can be a flat surface without a step. That is, by providing a cavity that opens to the leeward side in the cross section of the crosspiece (22), it is possible to avoid the parting line of the mold coming to the side surface of the crosspiece (22).

    Due to the shape of the crosspieces (22), the air circulation state in the suction grille (20) is as shown in FIG. That is, the indoor air is divided in front of the windward end face of each crosspiece (22) and flows into the suction ports (23) on both sides of the crosspiece (22). Here, since the corner (2b) at the end face of the crosspiece (22) is formed in an arc shape, the indoor air is smoothly supplied to the inlet (23) without air vortex being generated at the corner (2b). Flow into. Thereby, the adhesion of dust due to the generation of air vortex is suppressed. Therefore, it is possible to suppress dust from adhering to the corners (2b) and side surfaces of the end face of the crosspiece (22).

    Furthermore, since the entire side surface of the crosspiece (22) is a flat surface, air vortices are not generated in the middle of passing through the suction port (23). Therefore, the adhesion of dust due to the generation of the air vortex is suppressed, and the adhesion of dust to the side surface of the crosspiece (22) can be further suppressed.

-Effect of the embodiment-
In the suction grill (20) of the present embodiment, the windward end surface of the crosspiece (22) is composed of a flat portion (2a) and arcuate corner portions (2b) formed at both ends of the flat portion (2a). I tried to do it. Therefore, it is possible to prevent the generation of air vortex at the corner (2b) of the end face of the crosspiece (22). Thereby, adhesion of dust can be suppressed on the end face or side face of the crosspiece (22). As a result, the trouble of cleaning the suction grill (20) can be reduced.

    In particular, in the case of the present embodiment, since it is an indoor unit (1) of a ceiling-embedded air conditioner, the labor of cleaning work at a high place can be reduced. Furthermore, since dust adhesion on the suction grill (20) is suppressed, the appearance of the indoor unit (1) is improved, and a comfortable air-conditioned space can be formed.

    Furthermore, although the suction grill (20) of this embodiment is manufactured by injection molding, since the cross section of the crosspiece (22) is formed in a U shape, it is parted on the side surface of the crosspiece (22). It is possible to prevent a step due to the line from occurring. Thereby, the side surface of a crosspiece (22) can be made into a flat surface. Therefore, it is possible to prevent the generation of vortices while air passes through the suction port (23). Therefore, it is possible to further suppress the adhesion of dust on the side surface of the crosspiece (22). As a result, it is possible to greatly reduce the labor of cleaning work at high places.

    Moreover, since the generation | occurrence | production of air vortex can be prevented in a suction grill (20) as mentioned above, the distribution | circulation resistance of the air in a suction grill (20) can be reduced. Therefore, the operating efficiency of the indoor fan (31), and thus the operating efficiency of the air conditioner (1) can be improved.

    Moreover, in the suction grill (20) of this embodiment, it was made to form in the taper shape which gathers the edge part of a suction inlet (23) in one point. Therefore, when the dust adhering to the side walls on both sides of the suction port (23) is wiped and cleaned, any dust on the side walls on both sides can be gathered at one end. That is, dust can be easily collected in one place. As a result, dust can be easily treated (removed), and the working efficiency related to dust cleaning of the suction grill (20) can be improved. Moreover, since the end of the suction port (23) has an arc shape, it is possible to remove dust more easily than a shape that collects at one point in a V shape, for example. In addition, coupled with the effect of the end shape described above, the labor of cleaning work at high places can be greatly reduced.

    Further, in the suction grill (20) of the present embodiment, the end wall surface (3a) of the suction port (23) is tapered so that the opening (opening area) of the suction port (23) gradually expands from the leeward side to the windward side. It was made to form in a shape. Therefore, the dust collected at the end of the suction port (23) can be easily taken out (inside the room). Thereby, the work efficiency which concerns on the dust cleaning of a suction grill (20) can be improved further.

    Moreover, in the suction grill (20), since the edge part of the suction inlet (23) has a tapered shape, it becomes small as a suction inlet (23) goes to an edge part. Thereby, it feels as if the end portion side of the suction port (23) has disappeared visually, and the length of the suction port (23) can be felt shorter than actual. Therefore, a visual flat feeling can be produced on the indoor side surface of the suction grill (20). As a result, particularly in the case of the ceiling-embedded indoor unit (1) as in this embodiment, the comfort of the air-conditioned space is improved.

<< Modification of Embodiment >>
The crosspiece (22) in the above-described embodiment may be formed such that the end face shape is tapered as shown in Modification 1 and Modification 2 below.

-Modification 1-
In this modification 1, as shown in FIG. 8, the end surface (2c) of the crosspiece (22) has a tapered arc shape. In this case, air flows along the arc surface and flows smoothly to the side surface. Therefore, no air vortex is generated at the connecting portion between the end face and the side face of the crosspiece (22). Thereby, adhesion of the dust by an air vortex can be suppressed.

-Modification 2-
In the second modification, as shown in FIG. 9, the end face (2d) of the crosspiece (22) has a tapered shape. That is, the end face (2d) has a triangular shape. In this case, air flows along the tapered surface and flows smoothly to the side surface as it is. Therefore, no air vortex is generated at the connecting portion between the end face and the side face of the crosspiece (22). Thereby, adhesion of the dust by the eddy of air can be suppressed.

    The end face of the crosspiece (22) may have a tapered shape other than the above modification. Further, in each of the above modifications, other configurations, operations, and effects are the same as those in the above embodiment.

<< Other Embodiments >>
The above embodiment may be configured as follows.

    For example, in the suction grill (20) of the above embodiment, the cross section of the crosspiece (22) is formed in a U-shape, but any shape can be used as long as the side face of the crosspiece (22) is flat. There may be.

    Moreover, in the said embodiment, it is not necessary to make the side surface of a crosspiece (22) flat. In this case, since the generation of air vortex at the corner (2b) of the crosspiece (22) can be prevented, it is possible to prevent dust from adhering to the corner (2b) and the side surface of the crosspiece (22).

    Moreover, in the said embodiment, of course, it is good also considering the edge part and edge part wall surface (3a) of a suction inlet (23) as another shape.

    In the above-described embodiment, the suction grill (20) provided in the indoor unit (1) of the ceiling-embedded air conditioner has been described. However, the present invention is not limited to the indoor unit, for example, a wall-mounted indoor unit. Needless to say, the present invention may be applied to a suction grill provided in the hood.

    Moreover, you may make it apply to the grill provided in the apparatus which inhales and processes air other than an air conditioning apparatus, and the grill provided in front of an air supply port and an exhaust port.

    In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

    As described above, the present invention is useful as a suction grille in which an air suction port is formed by a plurality of crosspieces.

It is a longitudinal cross-sectional view which shows the structure of the indoor unit which concerns on embodiment. It is a top view which shows the suction grill which concerns on embodiment from the indoor side. It is a top view which expands and shows the A section of FIG. It is a figure which shows the BB cross section of FIG. It is a figure which shows CC cross section of FIG. It is a figure for demonstrating the injection molding of a crosspiece. It is sectional drawing which shows the distribution | circulation state of the air in the suction inlet which concerns on embodiment. It is sectional drawing which shows the distribution | circulation state of the air in the suction inlet which concerns on the modification 1 of embodiment. It is sectional drawing which shows the distribution | circulation state of the air in the suction inlet which concerns on the modification 2 of embodiment. It is a figure which shows the conventional suction grille, (A) shows the principal part of a suction inlet, (B) and (C) illustrate about the cross-sectional shape of a crosspiece.

Explanation of symbols

1 Indoor unit
20 Suction grill
22 jetty
23 Suction port
2a Plane section
2b Corner

Claims (6)

A suction grille comprising a plurality of bars (22) and an air inlet (23) formed adjacent to the bars (22) and the bars (22),
The windward end face of the crosspiece (22) is composed of a flat part (2a) and arcuate corners (2b) formed at both ends of the flat part (2a). Suction grill. A suction grille comprising a plurality of bars (22) and an air inlet (23) formed adjacent to the bars (22) and the bars (22),
The suction grille characterized in that the end surface on the windward side of the crosspiece (22) is tapered. In claim 1 or 2,
A suction grill characterized in that a cross section of the crosspiece (22) is formed in a U-shape opening to the leeward side. In any one of Claims 1 thru | or 3,
The suction grill (23), wherein the suction port (23) is formed in a tapered shape whose ends are gathered at one point. In any one of Claims 1 thru | or 4,
The suction grille characterized in that the suction port (23) has a tapered end wall surface so that the opening gradually widens from the leeward side to the windward side. In any one of Claims 1 thru | or 5,
A suction grill provided in an indoor unit (1) of a ceiling-embedded air conditioner.

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