JP5206365B2 - Blower - Google Patents

Description

  The present invention relates to a blower using a centrifugal fan.

  For example, in a blower such as a dehumidifying / humidifying device installed at the top of a trunk-type outdoor unit for an air conditioner, a mixed flow centrifugal system using a centrifugal fan that is as thin and compact as possible in the axial direction and is quiet and highly efficient. Directional blower is adopted.

  As an example of such a blower, for example, by providing a partition guide member that guides gas to the back of the suction passage in an air suction passage that extends to one side in a direction crossing the rotation axis of the centrifugal fan, There is a fan in which a gas can be sufficiently sucked from an area deep in the suction passage and air can be sucked in a balanced manner from the entire area of the suction port (see, for example, Patent Document 1). .

JP 2002-98092 A JP 2006-194235 A

  However, in the air blower disclosed in Patent Document 1, a multi-blade fan having a forward blade structure (so-called sirocco fan) is used as a centrifugal fan, and a vortex scroll passage is used as a blower passage. Since it blows out toward the blowing grill part of a blower outlet, a pressure loss is large, and driving noise is large because of the sound generated by the interference in the blowing grill part. Also, the required shaft power is large. In particular, the operating noise and required shaft power both increase at the point of use where the large air volume is low and the static pressure is used.

  Also, in other mixed-flow centrifugal blowers, the air blowing guide member in the mixed flow centrifugal direction generally protrudes in the axial direction with respect to the impeller main plate portion, which is suitable for thin and compact aiming devices. Absent. Furthermore, the use which can be applied is limited, for example, it has an omnidirectional U-turn blowing structure (see, for example, Patent Document 2).

  The invention of the present application was made to solve such a problem, while allowing the apparatus main body to be thinned, while blowing wide in the direction of the surface of the fan casing 3 and low pressure loss at the blow grill portion of the air blow outlet, An object of the present invention is to provide a high-performance air blower that realizes an effect of improving fan performance at the point of use of low interference sound, large air volume and low static pressure.

  In order to achieve the above object, the present invention is configured with the following problem solving means.

(1) Invention of Claim 1 The problem-solving means of the present invention is a centrifugal fan, an air blowing passage in a mixed flow centrifugal direction provided on the outer periphery of the impeller of the centrifugal fan, and air suction of the impeller of the centrifugal fan. A box-shaped fan comprising a sleeve-shaped air suction passage provided in a shape surrounding the mouth and extending in a direction perpendicular to the rotation axis of the impeller of the centrifugal fan. An air inlet of the air suction channel is formed on one side wall surface of the four side wall surfaces of the casing, and each of the three side wall surfaces without the air inlet port on the four side wall surfaces of the box-shaped fan casing is provided. Rutotomoni provided an air outlet from the air outlet passage, the downstream portion of the air outlet passage of the mixed flow centrifugal direction, and an air outlet passage of the sleeve-type cross-sectional area compared to the upstream side is larger It is characterized by that.

  According to such a configuration, despite the presence of the sleeve-shaped air suction flow path, the centrifugal fan can sufficiently suck air from the inner region of the air suction flow path, and the centrifugal fan Air can be sucked in a well-balanced manner from the entire area of the air suction port, and effective fan performance can be obtained while reducing the thickness of the box-shaped fan casing as much as possible.

  Moreover, wide air can be blown out by the air blowing passage and the air blowing outlet in the mixed flow centrifugal direction opened in the surface direction of the box-like fan casing 3, so that the blowing grill of the air blowing outlet downstream of the air blowing passage. The pressure loss in the part is reduced as much as possible, and the interference sound in the blow grill part of the air blower outlet is reduced. Also, the required shaft power is reduced.

  As a result, the fan performance is particularly good at the point of use with a large air volume and low static pressure.

Moreover, in the same configuration, in this case, the downstream portion of the air blowing passage in the mixed flow centrifugal direction is a sleeve-type air blowing passage whose passage cross-sectional area is larger than that on the upstream side.

Therefore, according to such a configuration, the pressure loss of the air outlet passage downstream air outlet part is more effectively reduced, and the interference sound generated in the air outlet grill part is also greatly reduced.

(2) Invention of Claim 2 The problem-solving means of the present invention is the problem-solving means of the invention of Claim 1, wherein the sleeve wall type air suction is performed by utilizing the outer peripheral surface of the passage wall of the air blowing passage in the diagonal flow centrifugal direction. It is characterized by the formation of a passage.

  According to such a configuration, since the outer peripheral surface of the air blowing passage in the mixed flow centrifugal direction can be effectively used, the axial dimension of the sleeve-shaped air suction passage is increased. For this reason, the suction swirl flow is relaxed and stabilized, and adverse effects due to the reverse pre-swirling inflow are reduced, and better performance can be obtained.

(3) Invention of Claim 3 The problem-solving means of the present invention is the problem-solving means of the invention of Claim 1 or 2 , wherein the air blowing passage in the mixed flow centrifugal direction is provided upstream of the air blowing passage. It is characterized by being formed by inclining or bending a part of the front plate in the direction of the air outlet so as to form an air blowing guide surface in the mixed flow centrifugal direction.

  According to such a configuration, on the upstream side of the air blowing passage, an air blowing guide surface in the mixed flow centrifugal direction is easily formed by inclining or bending a part of the front plate of the fan casing toward the air blowing outlet. The air blowing guide surface in the mixed flow centrifugal direction thus formed realizes smooth air blowing in the mixed flow centrifugal direction.

(4) SUMMARY OF THE INVENTION The invention of claim 4 is the problem solving means of the present invention of the claim 1 or 2, air outlet passages of the mixed flow centrifugal direction, the fan casing close to the main plate side of the impeller It is characterized in that it is formed between the rear plate and a part of the front plate of the fan casing that forms the air blowing guide surface in the mixed flow centrifugal direction.

  According to such a configuration, the mixed flow centrifugal direction formed between the rear plate of the fan casing adjacent to the main plate side of the impeller and the front plate of the fan casing forming the air blowing guide surface in the mixed flow centrifugal direction. Smooth air blowing in the mixed flow centrifugal direction is realized by the air blowing passage.

(5) Invention of Claim 5 The problem-solving means of this invention is the problem-solving means of the invention of Claim 1 or 2 , wherein the air blowing passage in the diagonal flow centrifugal direction has a recess for loosely fitting the main plate. It is characterized in that it is formed between the outer peripheral part of the rear plate of the fan casing that wraps the outer peripheral part of the main plate of the impeller and the outer peripheral part of the front plate of the fan casing that forms the air blowing guide surface in the mixed flow centrifugal direction. Yes.

  According to such a configuration, the fan casing that has a recess for main plate loose fitting and wraps the outer peripheral portion of the main plate of the impeller and the outer peripheral portion of the rear plate of the fan casing and forms the air blowing guide surface in the diagonal flow centrifugal direction Smooth air blowing in the mixed flow centrifugal direction is realized by the mixed flow centrifugal air blowing passage formed between the front plate and the outer peripheral portion.

(6) Invention of Claim 6 The problem-solving means of the present invention is the problem-solving means of the invention of Claim 1, 2, 3, 4 or 5 , wherein each of the air blowing passages is blown in the air blowing direction. A guide is provided.

  If it does in this way, appropriate blowing for every air blower outlet will be attained, and if the blowing guide is a suitable shape and size, fan performance will not deteriorate.

  Moreover, when the blowing guide is used as a support member, the strength of the blower is greatly improved by the support function.

(7) Invention of Claim 7 The problem-solving means of the present invention is the problem-solving means of the invention of Claims 1, 2, 3, 4, 5 or 6 , wherein the centrifugal impeller is installed in the air suction flow path. Is decentered from the original center position, and the attraction acceleration side of the suction air flow path is wider than the anti-attraction acceleration side.

  If it does in this way, both the suction | inhalation and blowing action of air will become smooth, and more favorable fan performance will be obtained.

(8) Invention of Claim 8 The problem-solving means of the present invention is the problem-solving means of the invention of Claims 1, 2, 3, 4, 5, 6 or 7 , wherein a shroud is provided on the end face of the blade opposite to the main plate. It is characterized by being provided.

  The configurations of the above inventions can provide an effective noise reduction effect without being affected by the presence of the shroud, even if the centrifugal impeller has a configuration in which the shroud is provided on the end surface of the blade. In the centrifugal blower provided with the impeller with the shroud, the noise can be reduced.

(9) Invention of Claim 9 The problem-solving means of the present invention is the construction of the problem-solving means of the invention of claim 1, 2, 3, 4, 5, 6 or 7 , wherein the shroud Is not provided.

  The above configuration is effective even in the centrifugal blower provided with the impeller without the shroud, even if the centrifugal blower has a configuration in which the shroud is not provided on the end face of the blade. The noise can be reduced.

(10) Invention of Claim 10 The problem-solving means of the present invention is the air suction flow path in the structure of the problem-solving means of the invention of Claims 1, 2, 3, 4, 5, 6, 7, 8, or 9. The air inlet side fan casing is extended in the longitudinal direction, an outside air inlet for taking in outside air is provided in the extended portion, and a dehumidifying means and a humidifying means are provided on the downstream side of the outside air inlet, A dehumidifying / humidifying device that supplies air dehumidified via a dehumidifying means to the centrifugal fan via the air suction flow path, while conveying the air humidified via the humidifying means to a required place by another blowing means. It is characterized by having applied.

  According to such a configuration, it is possible to configure a dehumidifying / humidifying device that is as thin and compact as possible in the axial direction with low pressure loss and low noise.

  As a result, according to the blower of the present invention, it is possible to provide a mixed flow centrifugal blower suitable for an air conditioner such as a dehumidifying / humidifying device that is as thin and compact as possible in the axial direction with low pressure loss and low noise. .

  Several preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

(Best Embodiment 1)
First, FIGS. 1 to 4 show a configuration of a blower according to the first embodiment of the present invention.

  The blower 1 includes a rectangular box-shaped flat fan casing 11, a centrifugal fan 2 having a short axial length provided in the fan casing 11, and directions of three outer peripheral surfaces of the impeller 21 of the centrifugal fan 2 ( Enclosed airflow passages 3, 3 and 3 in the mixed flow centrifugal direction provided in the three side wall surfaces of the box-shaped fan casing 11 and the air suction port 4 of the bell mouth structure of the centrifugal fan impeller 21. And an air suction passage 5 having a rectangular shape (a U-shaped cross section) opened in one direction orthogonal to the rotation axis of the centrifugal fan impeller 21, and the centrifugal fan impeller 21. The air suction port 4 has a configuration in which the suction frame 11d side portion protrudes into the air suction flow path 5 by a predetermined dimension S.

  The air suction flow path 5 surrounds the outer periphery of the annular air suction port 4 protruding upstream of the air flow of the centrifugal fan impeller 21, and the air blowing passages 3, 3, 3 in the diagonal flow centrifugal direction The fan casing 11 is partitioned through a front plate portion 11c and a passage wall 11e formed inside the front plate portion 11c.

  The fan casing 11 includes a rear plate portion 11a that supports the impeller 21 of the centrifugal fan 2, a side plate portion 11b that extends forward from the outer periphery of the rear plate portion 11a, and one end on the side opposite to the rear plate portion of the side plate portion 11b ( The vane of the impeller 21 of the centrifugal fan 2 extends horizontally inward from the front end, has the passage wall 11e formed on the inner wall side thereof, and has the air inlet 4 of the bell mouth structure at the center. 21b, 21b... And a front plate portion 11c covering the front end side of the side plate portion 11b. The air blowing passages 3, 3, 3 having a predetermined length extending in the mixed flow centrifugal direction from the air outlet portion of the impeller 21 to the air outlet 3 e portion of the fan casing 11 are formed by the portion.

  In the case of this embodiment, as shown in FIG. 2, the passage wall 11e has a predetermined width portion of the inner wall portion inside the front plate portion 11c of the fan casing 11 with a predetermined height in the direction of the rear plate portion 11a. The surface facing the outer periphery of the blades 21b, 21b,... Of the impeller 21 on the upstream side of the air flow is inclined or expanded while increasing the radial diameter in the direction of the air outlet 3e. By forming the air blowing guide surface 3c in the mixed flow centrifugal direction as shown in FIG. 2, the length in the centrifugal direction (radial direction) is set to the length to the outer peripheral end of the fan casing 11. Compared with the air blowing passage 3 in the mixed flow centrifugal direction, the downstream portion of the air blowing passage 3 is formed as a sleeve-shaped air blowing passage structure whose passage cross-sectional area is greatly expanded to a step shape. Reduce pressure loss at 3e It is.

  Further, the front plate portion 11c has a funnel shape (a shape in which the inlet side is wide and the outlet side is gradually narrowed) corresponding to the inner diameter of the blades 21b, 21b... Of the impeller 21 of the centrifugal fan 2. As described above, the air suction port 4 having the bell mouth structure is formed, and the suction frame 11d portion having a predetermined width on the upstream side of the air suction port 4 has a predetermined dimension S from the surface of the front plate portion 11c. Only the air suction flow path 5 protrudes into the air suction passage 5 and a suction air rectification space that is sucked into the air suction port 4 having a depth L is formed on the outer periphery thereof.

  In this case, the outer periphery of the suction frame 11d portion of the air suction port 4 is formed in an annular body as a whole, and the annular body has a rectangular shape corresponding to the shape of the air suction passage 5 having a square cross section. It is formed into an annular frame member that is close to a circle, with the shape of its diagonal portion being a rounded surface of a considerable size.

  On the other hand, the air suction flow path 5 is composed of, for example, a front plate 12a, side plates 12b and 12b, and a back plate 12c with respect to the outer peripheral portion of the front plate portion 11c of the fan casing 11, and a surface facing the back plate 12c is opened. A sleeve-shaped casing (plate-shaped casing for forming an air suction passage) 12 having a rectangular structure (a U-shaped cross section) extending from one side of the fan casing 11 to the other side is formed by forming the passage wall 11e. Predetermined passage heights H (intervals between the front plate portion 11c and the front plate 12a of the fan casing 11) and L (inner air at the center of the front plate portion 11c of the fan casing 11). The distance between the suction frame 11d portion of the suction port 4 and the front plate 12a) (however, H> L), the outer periphery of the front plate portion 11c covering the front plate portion 11c and the air suction port 4 Formed by attaching integrally to the side That.

  In the case of this embodiment, an air intake opening (air inlet) 5 a of the air suction flow path 5 is provided on the side plate portion 11 b side of the one surface where the air blowing passage 3 of the fan casing 11 is not provided. . Further, the back wall surface of the air suction channel facing the air intake opening 5a is closed by the back plate 12c.

  Furthermore, the impeller 21 of the centrifugal fan 2 includes a circular main plate 21a having a predetermined diameter, and a plurality of blades (blades) erected in the circumferential direction at a predetermined interval on the outer peripheral surface of the main plate 21a. .. And a circulation flow forming ring provided by fitting and integrating the front end side bent portion a to the outer peripheral surface of the other end in the span direction of the plurality of blades 21b, 21b. The central boss 21d of the main plate 21a is fixedly integrated with the rotational drive shaft 6a of the fan motor 6 and is formed in the central portion of the rear plate 11a of the fan casing 11 via the fan motor 6. It is connected to and supported.

  The outer peripheral portion of the main plate 21a supporting the blades 21b, 21b,... Is a main plate fitting recess having a predetermined depth formed within the plate thickness depth of the rear plate portion 11a of the fan casing 11. 7 is rotatably installed in a form that is loosely fitted in the inside. Thereby, the inner surface of the outer peripheral portion of the main plate 21a and the air blowing passage inner wall surface 3a of the outer periphery of the main plate fitting recess 7 of the rear plate portion 11a are formed to have the same plane height.

  That is, the air blowing passages 3, 3 and 3 in the three-surface direction extending in the mixed flow centrifugal direction from the air outlet portion of the impeller 21 are respectively connected to the side plate portions 11b, 11b and 11b of the fan casing 3 as described above. The air outlets 3e, 3e, and 3e each having an air outlet grill are formed in the portion, and the air outlet passages 3, 3, and 3 are formed on the inner wall of the front plate portion 11c of the fan casing 11. By partially expanding a predetermined width portion of the portion to a predetermined height on the rear plate portion 11a side to form a passage wall 11e, and gradually increasing the inner diameter on the inner peripheral surface side toward the main shaft side in the rotation axis direction The inner peripheral surface is inclined or bent in the direction of the air outlets 3e, 3e, 3e, and the air blowing guide surfaces 3c, 3c, 3c in the mixed flow centrifugal direction as shown in FIG. And this And the same air outlet passages 3,3,3 and mixed-flow centrifugal direction of the air outlet passage.

  In this case, the height of the rear plate portion 11a side wall surface 3a of the air blowing passages 3, 3 and 3 is determined using the fitting dimension of the rear plate portion 11a into the main plate fitting recess 7. The impeller 21 is formed at a height (on the same plane) equal to the height on the blade surface side of the outer peripheral blade mounting portion of the main plate 21a. On the other hand, the height of the passage surface 3d of the above-mentioned front plate portion 11c side passage wall 11e portion of the air blowing passages 3, 3, and 3 is the diagonal flow centrifugal direction of the blade other end portion side ring member 21c of the impeller 21. Is formed so as to be substantially equal to the height of the upper surface of the rear end portion (end portion on the non-curved portion side) b extending in the vertical direction.

  However, in the case of this embodiment, there is no similar passage wall on the air flow downstream side (air outlet 3e side) with respect to the passage wall 11e portion, and the air outlet passages 3, 3, and 3 are provided on the fan casing 11. The front plate portion 11c is greatly enlarged to the inner wall surface side, and the inner wall surface serves as a passage wall surface.

  That is, in the same configuration, the downstream part (the air outlet 3e side portion) of the air outlet passages 3, 3, and 3 in the mixed flow centrifugal direction is a sleeve-type air outlet passage having a greatly enlarged passage sectional area. .

  According to such a configuration, the pressure loss at the downstream air outlets 3e, 3e, 3e of the air outlet passages 3, 3, 3 is effectively reduced, and the interference sound generated at the air outlet grille is also greatly reduced.

  Further, in the case of this embodiment, the air suction frame 11d of the air suction port 4 is provided on the ring member 21c side (the portion corresponding to the ring member 21c of the air passage in the fan casing 11) as shown in the figure. An air circulation space 8 having a width of 5 mm is formed, and from the ring member mounting end side of the air outlet portion of the impeller 21 through the back side of the air suction port 4, the air inlet portion side of the impeller 21 again. The circulating flow of the air sucked into the air is easily and reliably formed, and the turbulence of the blown air flow blown in the diagonal flow centrifugal direction is suppressed.

  In the air blower having such a configuration, when the fan motor 6 is driven and the impeller 21 of the centrifugal fan 2 rotates as indicated by the arrow in FIG. 1, air is supplied from the air intake 5 a of the air suction passage 5. Air is sucked into the suction flow path 5 as indicated by an arrow in FIG. 1, and the air in the air suction flow path 5 passes from the air suction port 4 of the bell mouth structure to the blades 21 b and 21 b of the impeller 21. ... the air is sucked in while turning, but the air suction direction to the air suction port 4 and the air inflow direction to the air suction flow path 5 with respect to the circular air suction port 4 are Because of the orthogonal state, even if the structure is as described above, when the passage area of the air suction flow path 5 is small, a smooth suction swirl flow into the air suction port 4 is difficult to form, and the air An unstable flow is likely to occur near the inlet 4 . As a result, there is a problem that the air volume-static pressure characteristic becomes unstable and the driving sound becomes loud.

  Therefore, in this embodiment, the suction frame 11d portion of the annular air suction port 4 on the centrifugal fan impeller 21 side protrudes by a predetermined dimension S into the air suction flow path 5, and the outer peripheral surface side has a bowl shape. The inner peripheral surface side is formed into an arcuate annular member. More specifically, this is realized by partially projecting the front plate portion 11c forming the air suction port 4 having the same structure by a dimension S in the air suction direction with a predetermined width.

  Therefore, the suction in the direction perpendicular to the axis is performed in the straightening space of the depth S around the air suction port 4 formed by projecting the dimension S into the air suction flow path 5 as an annular member convex in the suction direction. A contraction effect of the air flow is realized, and a stable suction swirl flow is formed in the air suction port 4 portion by the rectifying effect thereby, and the air suction state into the air suction port 4 and the impeller 21 is smooth. And stable.

  As a result, air volume-pressure characteristics are improved, and noise reduction and shaft power reduction are realized.

  Further, the air suction flow path 5 in the same configuration surrounds the outer periphery of the annularly projecting air suction port 4 of the centrifugal fan impeller 21, and the air blowing passages 3, 3, 3 in the mixed flow centrifugal direction It is partitioned through a front plate portion 11c that forms the passage wall 11e.

  Therefore, the fan rotation of the sleeve-shaped air suction passage 5 is performed while effectively using the front surface of the front plate portion 11c forming the passage wall 11e of the air blowing passages 3, 3, and 3 in the mixed flow centrifugal direction. The axial dimension H can be made as large as possible (H = L + S). For this reason, the suction swirl flow into the air suction port 4 is sufficiently relaxed and stabilized, the adverse effect due to the reverse pre-swirling inflow is reduced, and better performance can be obtained.

  The air flow smoothly sucked into the impeller 21 as described above is blown in the centrifugal direction from the outer periphery of the blades 21b, 21b... Of the impeller 21, and the air blowing passages 3, 3, and so on. 3 are guided by the air blowing guide surface 3c in the upstream side centrifugal flow direction and blown outward in the diagonal flow centrifugal direction. At this time, the blades 21b, 21b,. As the position of the part moves from the air suction side to the air blowing side, the blades are inclined in the oblique flow direction approaching the main plate 21a side, and at the end of the blades 21b, 21b. Instead of the shroud, a ring member 21c is provided in which the rear end b side extends straight in the same inclination direction (diagonal flow direction). In addition, the ring member 21c is bent in an arc shape with the front end a side slightly extending into the air circulation space 8 inside the bottom plate 11d as described above.

  Accordingly, the circulation flow can be generated more easily by the ring member 21c, while the main flow in the diagonal flow centrifugal direction becomes smoother.

  Further, in the case of the centrifugal fan impeller having such a shroud structure, the inner diameter of the air inlet side portion and the corresponding inner diameter of the air suction port 4 can be made larger than in the case of the centrifugal fan impeller with shroud. The adverse effect due to the inflow of the reverse pre-swirl flow in front of the air suction port 4 is effectively mitigated, and the noise reduction becomes more remarkable.

  As described above, when the sleeve-shaped air suction passage 5 is provided for the air suction port 4 projecting in an annular shape of the impeller 21, the suction air is directly sucked from the air suction port 4 of the centrifugal fan impeller 21. Even when it is difficult, air can be supplied to the air suction port 4 of the centrifugal fan impeller 21 from a desired direction, and in that case, the structure of the air suction port 4 of the annular protrusion as described above is used. By adopting, a smooth suction action (suction swirl flow generation action) can be realized by the contraction action, and it can contribute to further noise reduction and reduction of shaft power.

  However, with the same configuration, the air flow taken in from the air intake port 5a of the air suction flow path 5 does not necessarily enter the annular air suction port 4 part in the swirl direction in a smooth laminar state, An appropriate contraction action is not always realized in this part.

  Therefore, in this embodiment, in order to solve such a problem, the upstream portion of the air suction flow path 5, particularly the central portion of the air suction port 4 to the impeller 21 of the centrifugal fan 2 is further described. Located on the air intake port 5a side and on the outer side of the outer peripheral surface of the air suction port 4 to the impeller 21 in the semidiameter direction, is parallel to the left and right side plates 12b and 12b of the air suction channel 5. A pair of rectifying members 13 and 13 are provided to rectify the flow of air from the air intake port 5a side toward the air intake port 4 into a laminar flow state, so that the air intake port 4 having the annular and convex structure described above. A more stable swirl flow in the suction direction is formed in the vicinity of the air flow, thereby improving the air flow-pressure characteristics more effectively, and reducing noise and reducing shaft power as much as possible. ing.

  As a result of various tests, the installation range in which these rectifying members 13 and 13 function most effectively is closer to the air intake 5a side than the center of the air intake 4 to the impeller 21 of the centrifugal fan 2. In addition, it was confirmed that it is a position on the outer side in the semidiameter direction from the outer peripheral surface of the air suction port 4 to the impeller 21, and the most stable suction swirl flow can be formed within this installation range.

  Also, in this case, the pair of left and right rectifying members 13 and 13 are, for example, as shown in FIG. 4, the surface facing the upstream end 13 a side suction air flow is a large radius surface, and the downstream end 13 b It is made of a cross-sectional spindle shape (streamline shape) that becomes thinner as it gets closer, has low shape resistance, and less wake vortex generation. Accordingly, the suction airflow flowing in the direction of the arrow in FIG. 1 is smoothly guided to the left and right outer portions of the air suction port 4 in a laminar flow state, and smoothly with an even swirl component from the same portion into the air suction port 4. Go into being sucked into.

  Therefore, according to such a configuration, a more stable suction swirl flow is formed in the air suction port 4 portion by the rectifying effect by the rectifying members 13 and 13 having a substantially cross-section spindle shape provided at the above-described position. Become.

  As a result, the air flow-pressure characteristics are further improved, and further noise reduction and reduction of shaft power are realized.

  In this case, screw holes 13c are further formed in the upper and lower surface portions of the large diameter upstream end 13a of the rectifying members 13 and 13 and fastened with the screw casing 12 and the housing 12 of the air suction passage 5 with screw screws. If it does, it will become an effective thing also as a connection reinforcement member which connects the housing | casing 12 of the air suction flow path 5 with the fan casing 11. FIG.

  Further, as shown in FIG. 1, for example, as shown in FIG. 1, branch walls 18 in both the left and right directions may be provided in the central portion on the upstream side of the air suction flow path 5 provided with the rectifying members 13 and 13 as described above. As shown in the figure, the flow dividing wall 18 is preferably installed in a state where the upstream side is slightly inclined in the fan rotation direction (the swirl direction of the intake air).

  If it does in this way, the flow to the above-mentioned right and left rectification members 13 and 13 side will be appropriately branched on the entrance side of air suction channel 5, and the rectification effect by rectification members 13 and 13 will become higher.

  On the other hand, in this blower, the left and right corners of the back plate 12c at the end of the air suction channel 5 (both corners between the side plates 12b and 12b and the back plate 12c) have a triangular cross section (right triangular prism shape). ) Air flow guides 15 and 15 are provided.

  As described above, when the airflow guides 15 and 15 having a triangular prism shape of an appropriate size are installed at the left and right corners of the back plate 12c on the back side of the air suction channel 5, the air around the turning direction in the same portion is improved, Further, since a smooth and stable suction swirl flow is formed, in addition to the above-described operation, the air volume-pressure characteristics can be further improved, the noise can be reduced, and the shaft power can be reduced.

  Also, in this case, the upper end portions of the triangular columnar (right triangular columnar) airflow guides 15 and 15 are provided with recesses having, for example, screw holes, so that the recesses are used as screw mounting seats. Can do.

  For example, when the width of the air suction channel is L, the air guide 15 is optimally about 0.1 L in the length of the short piece. If the air guide 15 is too large, the fan performance deteriorates.

  Moreover, in this air blower, as shown in the drawing, the conical surface 14b and the top thereof have a small diameter at the portion facing the air suction port 4 of the impeller 21 of the centrifugal fan on the front plate 12a of the air suction channel 5. A frustum-shaped rectifying member 14 having a predetermined height and a flat surface 14a is provided.

  According to such a configuration, in addition to the above-described operation, a smoother and more stable suction swirl flow is formed with the rectifying member 14 as a central axis by the addition of the rectifying member 14 having a truncated cone shape. As a result, the air flow-pressure characteristics are further improved, the noise is reduced, and the shaft power is reduced.

  Moreover, in this air blower, as shown in the figure, an interference preventing member 17 having an elliptical cross section is provided at the center of the back plate 12c at the end of the air suction passage 5.

  In this way, collision interference between the air flow on the inflow acceleration side and the air flow on the anti-inflow acceleration side is prevented, and further improvement in the air volume-pressure characteristics, noise reduction, and reduction in shaft power can be achieved.

  Furthermore, in this embodiment, for example, as shown in FIG. 1, the installation position of the impeller 21 with respect to the air suction flow path 5 in the above configuration is set to the original center position in the casing (for example, the position where the diagonal lines of the fan casing 11 intersect). ) Eccentric from O to O ′ position (see a> b in FIG. 1 and a> b in FIG. 3), so that the fan performance can be improved in both the air suction passage 5 and the air outlet passage 3. Yes.

  And on that, the air blowing guide surface 3c in the diagonal flow centrifugal direction of the passage wall 11e provided inside the front plate portion 11c of the fan casing 11 is on the fan rotation shaft main plate side with respect to the outlet end side. It is made to correspond by expanding the diameter in the direction.

  According to such a configuration, since the air suction flow path on the attracting acceleration side is relatively wide, a large amount of air is efficiently sucked on the attracting acceleration side, so that the overall smooth and efficient Suction is possible, and fan performance is further improved.

  Correspondingly, as described above, a part of the rear side of the front plate portion 11c of the fan casing 11 bulges in the diagonal flow centrifugal direction, and the bulged portion serves as an upstream flow passage wall 11e. The air blowing passage in the mixed flow centrifugal direction is formed by inclining or bending in the direction of the air blowing outlet so as to form the air blowing guide surface 3c in the centrifugal direction.

  Therefore, according to such a configuration, on the upstream side of the air blowing passage 3, the bulging portion which is a part of the inner wall portion of the front plate portion 11c of the fan casing 11 is inclined or bent in the direction of the air blowing outlet. The air blowing guide surface 3c in the mixed flow centrifugal direction can be easily formed, and of course, the air blowing guide surface 3c in the mixed flow centrifugal direction formed in this way makes it possible to smoothly move in the mixed flow centrifugal direction. Air blowing is realized. Therefore, the blowing efficiency is improved and the fan performance is further improved.

  Further, in this embodiment, as shown in FIG. 3, corresponding to the configuration of the fan air passages, the air outlet passages 3 are provided with tongue portions in the air outlet passages 3e, 3e, 3e directions. First to third air blowing guides 16a to 16c for blowing air smoothly are provided. Therefore, air is more smoothly blown out from the above-described three air blowing passages 3, 3, and 3 according to the attraction state. Then, the blowing guides 16a to 16c are used as struts as reinforcing members of the fan casing 11 as necessary.

  Even if it does in this way, if the same blowing guide 16a-16c is an appropriate shape and dimension, fan performance will not deteriorate.

  And the intensity | strength of the fan side fan casing 11 improves by the support | pillar function.

  Furthermore, in the air blower, in addition to this, the downstream side (air outlet 3e portion) of the air outlet passage 3 in the mixed flow centrifugal direction is a sleeve-type air outlet passage 3 whose passage sectional area is greatly enlarged. .

  According to such a configuration, the pressure loss at the downstream air outlet 3e portion of the air outlet passage 3 is effectively reduced, and the interference sound generated at the air outlet grill portion is further effectively reduced.

  As described above, in the present invention, the centrifugal fan 2, the air blowing passage 3 in the mixed flow centrifugal direction provided on the outer periphery of the impeller 21 of the centrifugal fan 2, and the air suction of the impeller 21 of the centrifugal fan 2. In a blower provided with a sleeve-shaped air suction passage 5 provided so as to surround the opening 4 and extending in a direction orthogonal to the rotation shaft 6a of the impeller 21 of the centrifugal fan 2, the box The air inlet 5a of the air suction passage 5 is formed on one of the four side wall surfaces 11b, 11b,... Of the box-shaped fan casing 11, and the four side wall surfaces 11b, 11b of the box-shaped fan casing 11 are formed. ..An air outlet 3e from the air outlet passage 3 is provided on each of the three side wall surfaces without the air inlet 5a therein.

  According to such a configuration, despite the presence of the sleeve-shaped air suction flow path 5, the centrifugal fan 2 can sufficiently suck air from the inner region of the air suction flow path 5, and The air can be drawn in a balanced manner from the entire area of the air inlet 4 of the centrifugal fan 2, and the fan performance as effective as possible while reducing the thickness of the box-shaped fan casing 11 as much as possible. Can be obtained.

  Moreover, wide air can be blown out by the air blowing passage 3 and the air blowing outlet 3e in the mixed flow centrifugal direction opened in the three surface directions of the box-shaped fan casing 11, so that the downstream side of the air blowing passage 3 The pressure loss in the blowing grill part of the air outlet 3e is reduced as much as possible, and the interference sound in the blowing grill part of the air outlet 3e is reduced. Also, the required shaft power is reduced.

  As a result, the fan performance is particularly good at the point of use with a large air volume and low static pressure.

  Moreover, in this invention, the downstream part (air blower outlet 3e part) of the air blowing channel | path 3 of the said mixed flow centrifugal direction is made into the sleeve type air blowing channel | path 3 in which a channel cross-sectional area is expanded greatly.

  According to such a configuration, the pressure loss of the downstream air outlet 3e portion of the air blowing passage 3 is effectively reduced, and the interference sound generated in the air blowing grill portion is also greatly reduced.

  Moreover, in this invention, the sleeve-shaped air suction flow path 5 is formed using the passage wall outer peripheral surface part (front plate part 11c front part) of the air blowing passage 3 in the mixed flow centrifugal direction.

  According to such a configuration, the outer peripheral surface portion (front surface portion of the front plate portion 11c) of the air blowing passage 3 in the mixed flow centrifugal direction can be used effectively, so the axial dimension of the sleeve-shaped air suction passage 5 is increased. can do. For this reason, the suction swirl flow is relaxed and stabilized, and adverse effects due to the reverse pre-swirling inflow are reduced, and better performance can be obtained.

  In the present invention, the air blowing passage 3 in the mixed flow centrifugal direction causes a part of the inner wall portion of the front plate portion 11c of the fan casing 11 to bulge toward the rear plate portion 11a on the upstream side of the air blowing passage 3. After that, the inner circumferential surface side in the radial direction is formed by inclining or bending while expanding the diameter in the direction of the air outlet so as to form an air blowing guide surface 3c in the mixed flow centrifugal direction.

  According to such a configuration, as described above, on the upstream side of the air blowing passage 3 where the downstream side is a sleeve-shaped air blowing passage having a large passage cross-sectional area, one of the inner walls of the front plate portion 11c of the fan casing 11 is provided. The air blowing guide surface 3c in the mixed flow centrifugal direction is easily formed by inflating the portion in the direction of the air blowing port 3e and inclining or bending in the direction of the air blowing port while expanding the inner peripheral surface in the radial direction. The air blowing guide surface 3c in the mixed flow centrifugal direction thus formed realizes smooth air blowing in the mixed flow centrifugal direction.

  Further, in the present invention, the air blowing passage 3 in the mixed flow centrifugal direction forms the air blowing guide surface 3c in the mixed flow centrifugal direction with the rear plate portion 11a of the fan casing 11 close to the main plate 21a side of the impeller 21. It is formed between the front plate part 11 c of the fan casing 11.

  According to such a configuration, the front side of the fan casing 11 forming the passage wall 11e having the rear plate portion 11a of the fan casing 11 close to the main plate 21a side of the impeller 21 and the air blowing guide surface 3c in the diagonal flow centrifugal direction. Smooth air blowing in the mixed flow centrifugal direction is realized by the mixed flow centrifugal air blowing passage 3 formed between the plate portion 11c.

  In the present invention, the air flow passage 3 in the mixed flow centrifugal direction has the recess 7 for loosely fitting the main plate 21a, and the rear plate portion 11a of the fan casing 11 that wraps the outer peripheral portion of the main plate 21a of the impeller 21. Are formed between the outer peripheral portion of the front plate portion 11c of the fan casing 11 and the passage wall 11e having the air blowing guide surface 3c in the mixed flow centrifugal direction.

  According to such a configuration, the outer peripheral portion of the rear plate portion 11a of the fan casing 11 which has the concave portion 7 for loose fitting of the main plate 21a and wraps the outer peripheral portion of the main plate of the impeller 21, and the air blowing in the mixed flow centrifugal direction. The air flow passage 3 in the mixed flow centrifugal direction formed between the outer peripheral portion of the front plate portion 11c of the fan casing 11 forming the passage wall 11e having the guide surface 3c allows smooth air to flow in the mixed flow centrifugal direction. Blowout is realized.

  Further, according to the present invention, the air blowing passage 3 is provided with blowing guides 16a to 16c each provided with a tongue and blowing smooth air in the direction of the air blowing ports 3e, 3e, 3e. Therefore, air is smoothly blown out from the three air blowing passages 3, 3, and 3 described above. Then, the blowing guides 16a to 16c are used as struts as reinforcing members of the fan casing 11 as necessary.

  Even if it does in this way, if the same blowing guide 16a-16c is an appropriate shape and dimension, fan performance will not deteriorate.

  And the intensity | strength of the fan side fan casing 11 improves by the support | pillar function.

  Moreover, in this invention, the installation position of the centrifugal impeller 21 in the air suction flow path 5 is decentered from the original center position O to O ′, so that the suction acceleration side of the suction air flow path is wider than the counter-attraction acceleration side. On the other hand, a part of the inner wall portion of the front plate portion 11c of the fan casing 11 is bulged to form an air blowing guide surface 3c in the oblique flow centrifugal direction, and the guide surface 3c is formed at the outlet end 3d portion. On the other hand, the diameter is increased in the axial direction.

  If it does in this way, both the suction | inhalation and blowing action of air will become smooth, and more favorable fan performance will be obtained.

  Moreover, in this invention, the shroud is not provided in the anti-main-plate side end surface of the blade | wings 21b of the said impeller 21, 21b ....

  The above configuration provides an effective noise reduction effect even when the centrifugal fan 2 has a configuration in which the shroud is not provided on the end surfaces of the blades 21b, 21b,. In the centrifugal blower including the centrifugal impeller 21 without the shroud, the noise can be reduced.

  As a result of the above, according to the air blower of the present invention, a low-pressure loss, low noise, and a low-pressure loss, low noise, large airflow, low static pressure, good fan performance at the point of use, and a thin and compact mixed-flow centrifugal air blower are provided in the axial direction. can do.

(Modification)
In the above configuration, the case where the shroud is not provided on the end side end surface of the blades 21b, 21b,... Of the impeller 21 of the centrifugal fan 2 has been described. Even when the blades 21b, 21b,... Have a shroud on the front end side surface, an effective noise reduction effect can be obtained without being affected by the presence of the shroud, and an impeller with a shroud is provided. The noise reduction is also achieved in the centrifugal blower.

(Best Mode 2)
Next, FIG. 5 shows the configuration of the blower according to the second preferred embodiment of the present invention.

  In this blower 1, the passage wall 11 c part inside the front plate 11 d of the air blowing passages 3, 3, 3 of the blower 1 in the configuration of the best embodiment 1 is arranged from the side plate part 11 b side of the fan casing 11. By extending the impeller 21 to the impeller 21 side as it is, straight air of the same diameter, which is not a sleeve type with an enlarged passage cross-sectional area as shown in FIG. As a blowout passage, air blow guide surfaces 3c, 3c, 3c in the mixed flow centrifugal direction similar to those in the first preferred embodiment are formed on the radially inner peripheral surface side (upstream side). To do.

  The rest of the configuration is the same as that of the first embodiment.

  In the case of such a configuration, although the effect of reducing the pressure loss at the air outlet 3e portion cannot be obtained, the same effects as those of the best embodiment 1 can be obtained in other respects. .

(Best Mode 3)
Next, FIGS. 6 and 7 show an air conditioner having a dehumidifying / humidifying function according to the third preferred embodiment of the present invention, which is configured by adopting the blower according to the first preferred embodiment of the present invention described above. The structure of is shown.

  In this air conditioner, the air intake 5a side fan casing 11 portion of the air blower 1 according to the best embodiment 1 is extended sideways by a predetermined length, and the dehumidifying / humidifying device 20A and the humidified air are in the middle. An air conditioner having a dehumidifying / humidifying function is configured by providing the blower 20B. In addition, in FIG. 6, the air blower 1 which concerns on the said best Embodiment 1 is shown with the cross section cut | disconnected by the DD line | wire in FIG. Further, illustration of the flow dividing wall 18 in FIG. 1 is omitted.

  That is, in this apparatus, first, the air blower 1 having the configuration of the best embodiment 1 described above is usually provided with a compressor, a heat exchanger, etc. with the sleeve-shaped air suction passage 5 on the upper side. The air conditioner outdoor unit 40 is installed on one upper end side of the main body casing, while the air intake passage 5 and the air intake port 5a side casing portion of the fan casing 11 are left leaving the air intake port 5a and the side plate portion 11b. In this state, it extends long to the right side to the other end side of the outdoor unit 40, and a humidified air outlet 33 is provided at the upper part of the extended end side, and the humidified air outlet 33 and the air blower 1 side air are provided. A dehumidifying / humidifying device 20A and a humidified air blowing device 20B for supplying air humidified by the humidifying unit of the dehumidifying / humidifying device 20A to the indoor unit side are provided between the intake 5a and the side plate portion 11b.

  In the dehumidifying / humidifying device 20A, for example, a mesoporous material such as zeolite capable of absorbing and releasing moisture is formed in a breathable honeycomb rotor 22 as shown in FIG. 7, and the honeycomb rotor 22 can be horizontally rotated by a motor. The upper and lower partition walls 27a and 27b are divided into two chambers, a left dehumidification space (moisture condensation space) D and a right humidification space (moisture desorption / humidification space) W, with the shaft support portion as the center. Outside air suction ports 23 and 24 are provided in the dehumidifying space D and the humidifying space W, respectively. In the humidification space W, an electric heater 25 for heating the right half portion of the honeycomb rotor 22 and desorbing adsorbed moisture is installed.

  On the other hand, the humidified air blowing device 20B for blowing humidified air is partitioned in the left-right direction via the humidifying space W and the partition wall 28, and the humidified air suction port 34 of the lower bellmouth structure is connected via the lower communication passage 26. The portion is communicated with the lower side of the humidification space W.

  The impeller 31 of the centrifugal fan 32 of the humidified air blower 20B is also similar to the impeller 21 of the blower 1 of the best embodiment 1 described above, and a circular main plate 31a having a predetermined diameter and an outer peripheral portion of the main plate 31a. A plurality of blades (blades) 31b, 31b,..., And a plurality of blades 31b, 31b,... And a circulating flow forming ring member 31c provided by fitting and integrating the front end side bent portion, the central boss portion 31d of the main plate 31a is fixedly integrated with the drive shaft 36a of the fan motor 36, A fan motor 36 is suspended and supported on the lower surface of the rear plate portion 11a of the fan casing 11.

  According to such a configuration, when the blower 1 and the humidified air blower 20B are driven, and the honeycomb rotor 22 and the electric heater 25 are driven, first, the water sucked from the outside air inlet 23 of the dehumidifying space D Is adsorbed through the left half portion of the honeycomb rotor 22 to be condensed in the honeycomb rotor 22, and the ambient air passing through the air intake passage 5a on the blower device 1 side in a state where the humidity is low. 5 is sucked into the air blower 1 through the air suction port 4 and the impeller 21 from the air blowing passages 3, 3, 3 in a wide range in three directions, front and rear, and with low pressure loss and low noise smoothly. Blown out.

  On the other hand, the outside air including water sucked from the outside air inlet 24 on the humidifying space W side passes through the right half of the honeycomb rotor 22 and passes through the air inlet 34 of the humidified air blower 32 from the lower communication passage 26. The right half of the honeycomb rotor 22 is heated by the electric heater 25, and is absorbed and condensed on the dehumidifying space D side by the heating. The outside air passing through the moisture is desorbed efficiently.

  The humidified outside air having increased humidity is blown out from the humidified air outlet 33 by the impeller 31 and supplied to the indoor unit unit side (not shown) through a predetermined duct (not shown). Adjustments are made.

  As described above, the present invention is combined with various air conditioning means such as a heat exchanger, a humidifying means, and a dehumidifying means so that the desired air conditioning apparatus having each air conditioning function is the same as that of each of the above embodiments. It is realizable in the form accompanied by the effect.

It is a partially notched top view (BB of FIG. 2) which shows the structure of the air blower which concerns on best Embodiment 1 of this invention. It is a center sectional view (AA of Drawing 1) of the blower. It is a horizontal sectional view (CC of Drawing 2) of the blower. It is a perspective view which shows the structure of the baffle member of the air blower. It is a center sectional view (sectional view similar to FIG. 2) showing the configuration of the blower according to the second preferred embodiment of the present invention. It is a center sectional view of an air harmony device concerning a best embodiment 3 of the invention in this application. It is a perspective view which shows the structure of the principal part of the apparatus.

  1 is a blower, 2 is a centrifugal fan, 3 is an air outlet passage, 4 is an air inlet, 5 is an air inlet, 5a is an air inlet, 6 is a fan motor, 11 is a fan casing, and 11a is a rear plate. , 11b is a side plate portion, 11c is a front plate portion, 11d is a suction frame, 11e is a passage wall, 13 is a rectifying member, 14 is a rectifying member, 15 is an airflow guide member, 20A is a dehumidifying / humidifying device, and 20B is a humidifying air blowing device. , 22 is a honeycomb rotor, 21 is an impeller, 21a is a main plate, 21b is a blade, 21c is a ring member, 32 is a centrifugal fan, and 33 is a humidified air outlet.

Claims (10)

A centrifugal fan, an air outlet passage in a mixed flow centrifugal direction provided on the outer periphery of the centrifugal fan impeller, and an air suction port of the centrifugal fan impeller are provided so as to surround the centrifugal fan impeller. A blower device comprising a sleeve-shaped air suction passage that extends in a direction orthogonal to the rotation axis and is open, wherein the air suction is introduced into one of the four sidewall surfaces of the box-shaped fan casing. an air inlet flow path, Rutotomoni provided an air outlet from the air outlet passages in each of the three side wall surfaces without the air inlet in the four side wall surfaces of the box-shaped fan casing, the swash A blower characterized in that the downstream portion of the air blowing passage in the flow centrifugal direction is a sleeve-shaped air blowing passage whose passage cross-sectional area is larger than that of the upstream side . Blower according to claim 1, characterized in that by utilizing the passage wall outer peripheral surface of the mixed flow centrifugal direction of the air outlet passage to form a sleeve-type air suction passage of the. The air blowing passage in the mixed flow centrifugal direction is inclined or bent in the direction of the air blowing outlet so that a part of the front plate of the fan casing forms an air blowing guide surface in the mixed flow centrifugal direction on the upstream side of the air blowing passage. The blower according to claim 1 or 2 , wherein the blower is formed. The air blowing passage in the mixed flow centrifugal direction is formed between the rear plate of the fan casing adjacent to the main plate side of the impeller and the front plate of the fan casing forming the air blowing guide surface in the mixed flow centrifugal direction. The air blower according to claim 1 or 2 , characterized in that. The air blowing passage in the mixed flow centrifugal direction has a recess for main plate loose fitting, and forms an air blowing guide surface in the mixed flow centrifugal direction with the outer peripheral portion of the rear plate of the fan casing that wraps the outer peripheral portion of the main plate of the impeller The blower according to claim 1 , wherein the blower is formed between the outer peripheral portion of the front plate of the fan casing. 6. The air blower according to claim 1, 2, 3, 4 or 5 , wherein each of the air blowing passages is provided with a blowing guide in the direction of the air blowing outlet. The installation position of the centrifugal impeller with respect to the air suction flow path is decentered from the original center position, and the attractive acceleration side of the intake air flow path is wider than the counter attractive acceleration side. , 3, 4, 5 or 6 . The blower according to claim 1, 2, 3, 4, 5, 6 or 7 , wherein a shroud is provided on an end face of the impeller opposite to the main plate. The blower according to claim 1, 2, 3, 4, 5, 6 or 7 , wherein a shroud is not provided on an end face of the impeller opposite to the main plate. An air inlet side fan casing of the air suction passage is extended in the longitudinal direction, and an outside air inlet for taking in outside air is provided in the extended portion, and a dehumidifying means and a humidifier are provided downstream of the outside air inlet. Means are provided, and the air dehumidified via the dehumidifying means is supplied to the centrifugal fan via the air suction channel, while the air humidified via the humidifying means is conveyed to a required place by another air blowing means. claim 1,2,3,4,5,6,7, characterized in that applied to dehumidification apparatus, blower 8 or 9.

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