JP4187032B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner using a cross flow fan, and more particularly to an indoor unit of an air conditioner.

  In general, in an indoor unit of an air conditioner, a cross flow fan is often used as a blower. In order to reduce noise generated when the cross flow fan rotates, a front tongue ( Stabilizer) is provided. As described above, for example, Patent Documents 1 to 3 shown below can be cited as conventional examples for reducing noise.

  In Patent Document 1, a crossflow fan is used as a blower, and an air introduction portion having an opening area gradually enlarged from the tongue portion region to the air suction region is provided on the tongue portion. As a result, the change in the air inflow from the tongue area to the air suction area is moderated, and sudden fluctuations in the air flow around the blade at the moment the fan rotor blade moves from the tongue area to the air suction area are prevented. Thus, the NZ sound is reduced.

  In the above-mentioned Patent Document 2, a plurality of quadrangular prism-shaped concave portions that open facing the blower fan are formed in a stabilizer (tongue) that extends along the rotation direction of the blower fan that is a cross flow fan, and the openings of the concave portions are formed. A rounded portion is formed in which at least one of the upstream end and the downstream end facing the rim is curved along the flow path axis direction. As a result, the concave portion of the tongue acts as a resonance silencer, so that noise is suppressed, and since the edge of the concave portion is a rounded portion, cavity noise due to collision of airflow is suppressed compared to the non-curved shape. It is going to be done. In addition, it is said that it has sufficient air volume performance.

In Patent Document 3, a stabilizer (tongue) is installed in the vicinity of the discharge port in the casing so as to be close to a cross flow fan (cross flow fan), and convex ribs and concave ribs are arranged in this tongue. Is. This stabilizes the unstable flow of air generated by the crossflow fan and induces a uniform flow velocity and pressure distribution, thereby reducing the flow noise of the air conditioner.
Japanese Patent Laid-Open No. 11-118177 JP 2005-90764 A JP 2005-300133 A

  However, in the above Patent Documents 1 to 3, there is a problem that a sufficient air volume is not ensured over the entire axial direction of the crossflow fan, and in particular, there is a shortage of airflow on both ends of the crossflow fan. In addition, although noise has been reduced to some extent, there is also a problem that the noise is still annoying when driving at midnight and it is necessary to further reduce the noise.

  The present invention is provided in view of the above-described problems, and provides an air conditioner having at least the following objects.

(1) To reduce noise while ensuring air volume.
(2) Ensuring airflow at both ends, which is also a drawback of crossflow fans.
(3) To provide a comfortable environment even during driving at midnight by further reducing noise.
(4) Uniform air flow in the axial direction of the crossflow fan.

Therefore, in the air conditioner according to claim 1, the heat exchanger 6 for exchanging heat of the sucked air, the crossflow fan 10 provided on the downstream side of the heat exchanger 6, and the crossflow fan 10. An air conditioner comprising: a tongue portion 11 arranged close to the axial direction of 10; and an air outlet 5 through which air exchanged by the rotation of the cross flow fan 10 is blown out. A comb-like comb-shaped portion 20 configured by arranging comb teeth 21 and grooves 22 on the tongue portion 11 facing the flow fan 10 is arranged along the longitudinal direction of the tongue portion 11. The groove 22 includes a deep groove 22a having a deep depth and a shallow groove 22b having a shallow depth, and a plurality of deep groove comb-shaped portions 20a formed by the comb teeth 21 and the deep grooves 22a are arranged in parallel. And the comb teeth 21 are formed. A plurality of shallow groove comb-shaped portions 20b composed of the shallow grooves 22b are juxtaposed to form a shallow groove comb-shaped row 20B, which are arranged on the tongue portion 11 and in the vicinity of both end portions of the tongue portion 11 The shallow groove comb-like rows 20B are arranged at the same time, and the deep groove comb-like rows 20A are further arranged at both ends of the shallow groove comb-like rows 20B .

In the air conditioner according to claim 2 , in the deep groove comb row 20A and the shallow groove comb row 20B, the depths of the deep groove 22a and the shallow groove 22b are substantially constant, and the deep groove comb portion 20a The shallow groove comb-shaped portions 20b are arranged at an equal pitch.

In the air conditioner according to claim 3 , in the deep groove comb row 20A and the shallow groove comb row 20B, the groove depths of the deep groove 22a and the shallow groove 22b, the deep groove comb portion 20a, and the shallow groove comb shape. It is characterized in that at least one of the arrangement pitches of the portions 20b is random.

The air conditioner according to claim 4 is characterized in that the deep groove comb-shaped portion 20 a is arranged in a central portion of the tongue portion 11. Moreover, in the air conditioner according to claim 5, both ends of the tongue (11) are arranged close to the wall surface.

  According to the air conditioner of the said Claims 1-4, it is comprised with the deep groove comb-shaped part 20a comprised by the said comb tooth 21 and the deep groove 22a, and the said comb tooth 21 and the shallow groove 22b. Since the shallow groove comb-shaped portion 20b is disposed on the tongue 11, the grooves 22 (deep groove 22a and shallow groove 22b) of the comb-shaped portion 20 serve as air passages, and return air from the cross flow fan 10 is Vortexing can be prevented, and fragmentary noise due to vortexing can be reduced. Thereby, the noise at the time of driving | running | working at midnight etc. can be reduced and a more comfortable space can be provided. Further, since the NZ sound generation timing is shifted between the deep groove comb-shaped portion 20a and the shallow groove comb-shaped portion 20b, the NZ sound is dispersed, and this can also reduce the noise. Thus, a more efficient air conditioner can be provided by reducing noise while ensuring the air volume.

In particular, according to the air conditioner of the first aspect , since the shallow groove comb-shaped portion 20b is disposed in the vicinity of both ends of the tongue portion 11, the air volume at the shallow groove comb-shaped portion 20b is reduced. Therefore, the airflow at both ends of the crossflow fan 10 is increased, and the airflow in the axial direction of the crossflow fan 10 can be made uniform. As a result, the shallow groove comb-shaped portion 20b formed by shallow grooves 22b formed by shallowing the grooves 22 at both ends of the comb-shaped portion 20 formed on the tongue portion 11 causes both sides of the cross flow fan 10 to be disadvantageous. By increasing the air flow, the air flow in the axial direction of the cross flow fan 10 can be made uniform.

Further , according to the above air conditioner, since the deep groove comb-shaped portion 20a is disposed further on both end sides than the shallow groove comb-shaped portion 20b in the vicinity of both ends of the tongue portion 11, the air volume in the vicinity of the wall surface. Can be reduced, the air volume can be made uniform, and the generation of noise can be suppressed.

According to the air conditioner of the fourth aspect , the air flow rate in the axial direction of the cross flow fan 10 can be made more uniform by slightly suppressing the air flow rate at the central portion where the air blowing performance is better than the original.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a cutaway perspective view of the indoor unit 1 of the air conditioner, and FIG. 2 shows a cross-sectional view of the indoor unit 1. A front grill 3 and a front panel 4 are respectively attached to the front side of the main body casing 2 constituting the outer shell of the indoor unit 1, and a blow-out port 5 is provided at a corner portion of the lower front surface. ing.

  In addition, as shown in FIG. 2, a blower passage 7 is provided in the main body casing 2 to circulate the suction air to the blowout port 5. The indoor heat exchanger 6 is provided. A cross flow fan 10, a tongue portion 11, and a rear guide portion 12 are provided in this order on the downstream side of the indoor heat exchanger 6. The fan rotor 10a of the crossflow fan 10 is disposed so as to be able to rotate in the clockwise direction in FIG. 2, and is long at a position near the fan rotor 10a of the crossflow fan 10 and above the outlet 5. The tongue portion 11 is provided along the axial direction of the cross flow fan 10.

  Further, an air flow guide portion 13 also serving as a drain pan is continuously provided below the tongue portion 11, and this air flow guide portion 13 is an air flow blown from the fan rotor 10 a of the cross flow fan 10. The air blowing passage 14 is formed toward the blowout port 5 together with the rear guide portion 12 so that the air is blown out from the blowout port 5 efficiently. A wind direction changing plate 15 is provided on the opening surface of the outlet 5 so as to be rotatable about a shaft 16.

  In the indoor unit 1 of the air conditioner, an air flow that blows out the air sucked from the front side from the blowout port 5 is formed by the operation of the cross flow fan 10. That is, the rotation of the fan rotor 10a of the cross flow fan 10 and the action of the tongue portion 11 provided in the vicinity thereof cause an eccentric vortex having a vortex center inside the fan rotor 10a. The air flow traversed in the diametrical direction flows out to the outlet 5. Then, after the heat exchange of the intake air is performed by the heat exchanger 6 with this air flow, the air is blown from the outlet 5 into the room.

  3 shows an enlarged perspective view of the tongue portion 11 of the A portion in FIG. 1, FIG. 4 (a) shows a front view of the tongue portion 11, and FIG. 3 (b) shows a rear view. FIG. 5 shows a cross-sectional view taken along the line BB in FIG. As shown in FIG. 3 to FIG. 5, a comb-like portion 20 continues substantially along the longitudinal direction at the front portion of the tongue portion 11 facing the surface of the fan rotor 10 a of the cross flow fan 10. Is formed. The comb-shaped portion 20 is configured by alternately arranging comb teeth 21 and grooves 22 at predetermined intervals. The tip of the comb teeth 21 is smoothly curved and protrudes toward the fan rotor side of the cross flow fan, and is smoothly curved similarly to the bottom surface of the groove 22 to be the fan rotor of the cross flow fan. The shape protrudes to the side. The amount of protrusion of the comb teeth 21 from the groove 22 is the largest at the most protruding portion of the comb teeth, and gradually decreases on both sides thereof.

  Further, in this embodiment, as shown in FIG. 6, a deep groove 22a having a deeper groove 22 and a shallow groove 22b having a shallower groove 22 are provided, and a pair of deep grooves 22a and comb teeth are provided. 21 are juxtaposed to form a deep groove comb-shaped portion 20a, and a pair of shallow grooves 22b and comb teeth 21 are juxtaposed to form a shallow groove comb-shaped portion 20b. Also, a predetermined number of deep groove comb-shaped portions 20a are arranged in parallel to form a deep groove comb-shaped row 20A, and a predetermined number of shallow groove comb-shaped portions 20b are arranged in parallel to form a shallow groove comb-shaped row 20B. Is forming. In this case, in the deep groove comb row 20A and the shallow groove comb row 20B, the depths of the deep groove 22a and the shallow groove 22b are substantially constant, and the deep groove comb portion 20a and the shallow groove comb portion 20b are equal. Arranged at the pitch. As shown in FIG. 4 (a), the deep groove comb-like rows 20A and the shallow groove comb-like rows 20B are alternately arranged to constitute the comb-like portion 20. A deep groove comb-like row 20A is provided at the center of the comb-like portion 20 of the tongue 11, and shallow groove comb-like rows 20B are provided on both sides of the deep groove comb-like row 20A. Further, deep groove comb rows 20A are provided at both ends of the tongue portion 11 following these shallow groove comb rows 20B. Here, the air volume increases as the depth of each groove 22 of the comb-shaped portion 20 decreases, and conversely, the air volume decreases as the depth of the groove 22 increases.

  Further, as shown in FIG. 7, the deep groove comb rows 20A are arranged at both ends of the tongue portion 11 and the shallow groove comb rows 20B are arranged in the vicinity thereof, thereby improving the airflow reduction on both sides. be able to. 7A shows the cross flow fan 10, and FIG. 7B shows the air flow distribution of the cross flow fan on the conventional tongue. In the present invention, the deep groove comb-like rows 20A are arranged at both ends of the tongue portion 11 and the shallow groove comb-like rows 20B are arranged in the vicinity thereof. Therefore, as shown in FIG. 7C, the airflow at both ends of the crossflow fan 10 increases as shown by the hatched portion, and the airflow in the axial direction of the crossflow fan 10 can be made uniform. . That is, in the conventional type (a normal tongue portion having a uniform cross-sectional shape over almost the entire length without a groove), positions closer to both ends than the portion X where the reduction in the air flow becomes significant due to the presence of the wall surface In addition, the air volume can be increased as described above by arranging the shallow groove comb-like rows 20B. Note that the deep groove comb rows 20A are provided at both ends because, in the portion close to the wall surface, even if the shallow groove comb rows 20B are provided, an increase in the air flow cannot be expected, but rather noise is generated. is there. Thereby, it is also a defect of the cross flow fan 10 due to the shallow groove comb-like row 20B formed by shallow grooves 22b formed by shallowing the grooves 22 in the vicinity of both ends of the comb-like portion 20 formed in the tongue portion 11. The air volume can be made uniform by increasing the air volume on both sides.

  Moreover, since the deep groove comb-like row 20A is arranged in the central portion of the tongue portion 11 and the shallow groove comb-like rows 20B are arranged on both sides thereof, the air blowing amount of the central portion with better air blowing performance is somewhat suppressed. In addition, the airflow in the axial direction of the cross flow fan 10 can be made more uniform. Moreover, the rectification | straightening effect | action by both the comb-like rows 20A and 20B works, and the air volume blown out from the blower outlet 5 can be made uniform.

  Furthermore, the comb-shaped comb-shaped portion 20 (the deep-groove comb-shaped portion 20a and the shallow-groove comb-shaped portion 20b) formed on the tongue portion 11 causes the grooves 22 (the deep-groove 22a and the shallow-groove 22b) of the comb-shaped portion 20 to be air. It becomes a passage so that the return air of the crossflow fan 10 can be prevented from being vortexed, and fragmentary noise due to vortexing can be reduced. Thereby, the noise at the time of driving | running | working at midnight etc. can be reduced and a more comfortable space can be provided. Further, since the NZ sound generation timing is shifted between the deep groove comb-shaped portion 20a and the shallow groove comb-shaped portion 20b, the NZ sound is dispersed, and this can also reduce the noise. Thus, a more efficient air conditioner can be provided by reducing noise while ensuring air volume.

  The arrangement of the deep groove comb-shaped portion 20a and the shallow groove comb-shaped portion 20b in the comb-shaped portion 20 of the tongue portion 11 is not limited to FIG. 4A, but the deep groove comb-shaped row 20A and the shallow groove comb-shaped row 20B. , And a larger number of deep groove comb rows 20A and shallow groove comb rows 20B than in the illustrated example may be alternately arranged. Further, in the deep groove comb-like row 20A and the shallow groove comb-like row 20B, any one of the groove depths of the deep groove 22a and the shallow groove 22b and the arrangement pitch of the deep groove comb-like portion 20a and the shallow groove comb-like portion 20b. Alternatively, both of them may be random, and in this case, the same effect as described above can be obtained. Furthermore, the deep groove comb-like row 20A and the shallow groove comb-like row 20B may not be provided, and the deep groove comb-like portion 20a and the shallow groove comb-like portion 20b may be randomly mixed. Noise reduction effect can be achieved. At this time, the pitch between the comb teeth 21 and the grooves 22 and the depths of the deep grooves 22a and the shallow grooves 22b of the comb-shaped portion 20 may be random.

It is a fracture perspective view of an indoor unit of an air conditioner in an embodiment of the invention. It is an indoor unit sectional view in an embodiment of the invention. It is an expansion perspective view of the A section of FIG. 1 in embodiment of this invention. (A) (b) is the front view and back view of a tongue part in embodiment of this invention. It is BB sectional drawing of FIG.4 (b) in embodiment of this invention. It is explanatory drawing for demonstrating the deep groove | channel and shallow groove | channel of the comb-shaped part in embodiment of this invention. (A)-(c) is explanatory drawing which shows the airflow distribution of the crossflow fan in the tongue part in embodiment of this invention.

Explanation of symbols

1. ・ Indoor unit 2. ・ Main body casing 3 .... Front grille 4 .... Front panel 5 .... Air outlet 6 .... Heat exchanger 10 ... Cross flow fan 11. 20 ·· Comb portion, 20a · · Deep groove comb portion, 20b · · · Shallow groove comb portion, 20A · · Deep groove comb row, 20B · · Shallow groove comb row, 21 · · comb teeth, 22 · · · Groove, 22a ... Deep groove, 22b ... Shallow groove

Claims (5)

A heat exchanger (6) for exchanging heat of the sucked air, a cross flow fan (10) provided on the downstream side of the heat exchanger (6), and an axial direction of the cross flow fan (10) An air conditioner comprising: a tongue portion (11) disposed in close proximity along the air outlet; and an air outlet (5) through which air exchanged by the rotation of the cross flow fan (10) is blown out. A comb-like comb-like portion (20) configured by arranging comb teeth (21) and grooves (22) in parallel with the tongue portion (11) facing the cross flow fan (10) is provided with the tongue portion ( 11), and the groove (22) includes a deep groove (22a) having a deep depth and a shallow groove (22b) having a shallow depth, and the comb teeth (21) and the deep groove (22a) a plurality arranged to deep groove comb row deep groove comb (20a) constituted de 20A) and a plurality of shallow groove comb-shaped portions (20b) composed of the comb teeth (21) and the shallow grooves (22b) are arranged in parallel to form a shallow groove comb-shaped row (20B). Then, these are arranged on the tongue (11), the shallow groove comb row (20B) is arranged in the vicinity of both ends of the tongue (11), and from the shallow groove comb row (20B). Further, the deep groove comb-like row (20A) is arranged on both ends . In the deep groove comb row (20A) and the shallow groove comb row (20B), the depths of the deep groove (22a) and the shallow groove (22b) are substantially constant, and the deep groove comb portion (20a) and the shallow groove comb row (20a) are shallow. The air conditioner according to claim 1 , wherein the groove comb-like portions (20b) are arranged at an equal pitch. In the deep groove comb row (20A) and the shallow groove comb row (20B), the groove depths of the deep groove (22a) and the shallow groove (22b), the deep groove comb portion (20a), and the shallow groove comb portion The air conditioner according to claim 1 , wherein at least any one of the arrangement pitches of (20b) is random. The air conditioner according to claim 2 or 3 , wherein the deep groove comb row (20A) is arranged at a central portion of the tongue (11). The air conditioner according to any one of claims 1 to 4, wherein both end portions of the tongue (11) are arranged close to a wall surface.