JP6353889B2 - Circulating fan structure - Google Patents

Description

  The present invention relates to a circulation fan structure, and more particularly to a circulation fan structure in which an air drawing structure is disposed in a portion adjacent to a discharge port of a fan frame.

  The main purpose of the current circulating fan is to send the cool air and warm air sent from the air conditioner into the room, and if the air conditioner's blowing capacity cannot send cold air or warm air to a long distance, it will circulate. It is necessary to increase the blowing capacity of the air conditioner with the help of the fan.

  A conventional circulation fan is an application of a centrifugal blower, and its structure is composed of a multi-blade impeller and a spiral flow path, and when the airflow blows out from the discharge port, the airflow is dispersed and the blowing distance Is relatively small, and the airflow is inclined to one side, so that the air blowing effect is not preferable. Therefore, how to overcome the above problems and increase the ventilation capacity of the circulation fan is one of the important problems in this field.

In view of the above problems, an object of the present invention is to provide a circulation fan structure in which a retracting structure is disposed in a portion adjacent to the discharge port of the fan frame, thereby further concentrating the air flow of the circulation fan and To increase the distance. Furthermore, it is intended to provide a circulating fan structure that can increase the air blowing capacity of the circulating fan by correctly guiding the air flow and making the air flow in the discharge port portion more uniform by the design including a plurality of rectifying plates. Let it be an issue.

In order to achieve the above object, a circulating fan structure according to the present invention includes a drive device, a moving blade portion, a fan frame, and a plurality of rectifying plates. The driving device drives and rotates the moving blade portion, and the moving blade portion includes a hub and at least one blade group, and the blade group is installed to surround the periphery of the hub. The fan frame includes a first frame and a second frame. The housing frame is configured by assembling the first frame and the second frame, and the driving device and the moving blade portion are installed in the housing space. After assembling the first frame and the second frame, at least one suction port and one discharge port are formed, the moving blade portion is installed in the suction port portion, and the first frame and / or the second frame is A retracting structure is formed by narrowing a portion adjacent to the discharge port inward along the axial direction of the rotor blade portion . The plurality of current plates are installed between the first frame and the second frame, and extend from the narrowest place adjacent to the pull-in structure toward the discharge port.

  In one embodiment, a retracting structure is formed by narrowing inwardly the portions of the first frame and the second frame that are adjacent to the discharge port, in which case the first frame and the second frame in the retracting structure portion are The shape is the same and the relative positions of the two are symmetrical, and the shape of the retracting structure portion in the first frame and the second frame is composed of at least one plane, at least one curved surface, or a combination thereof. It is characterized by that.

  In one embodiment, a retracting structure is formed by narrowing inwardly the portions of the first frame and the second frame that are adjacent to the discharge port, in which case the first frame and the second frame in the retracting structure portion are The shape is the same, the relative positions of the two are asymmetric, and the shape of the pull-in structure portion in the first frame and the second frame is composed of at least one plane, at least one curved surface, or a combination thereof. It is characterized by that.

  In one embodiment, a pull-in structure is formed by narrowing inwardly the portions of the first frame and the second frame that are adjacent to the discharge port, in which case the first frame and the second frame in the pull-in structure portion. The shapes of the pull-in structures in the first frame and the second frame are composed of at least one plane, at least one curved surface, or a combination thereof. It is characterized by that.

  In one embodiment, each rectifying plate is composed of a first sub rectifying plate and a second sub rectifying plate, and the first sub rectifying plate and the first frame are integrally formed, and the second sub rectifying plate and the second sub rectifying plate are connected to each other. The frame has an integrally formed structure, and the first sub-rectifier plate and the second sub-rectifier plate each have a corresponding engaging portion, thereby connecting the first sub-rectifier plate and the second sub-rectifier plate to each other, One rectifying plate is co-formed.

  In one embodiment, the circulating fan structure further comprises at least one drain hole installed in the first frame and / or the second frame, wherein the first frame and the second frame are installed corresponding to each other. The vortex channel is co-formed, and the drain hole is used to discharge moisture in the vortex channel.

  In one embodiment, the circulating fan structure further comprises a filter installed at the outlet, wherein at least one side of the filter has at least one bump, and the first frame and / or the second frame corresponds to the bump. At least one positioning hole is provided, and the positioning hole and the bump are engaged with each other to fix the filter to the discharge port.

  In one embodiment, the circulating fan structure further includes a filter, and a portion adjacent to the discharge opening of the first frame and the second frame has at least one hook structure, so that the filter is separated from the hook structure. It is fixed between the current plate.

  In one embodiment, the circulation fan structure further includes a filter, the filter has an auxiliary hole, and the auxiliary hole is provided in a portion other than the mesh of the filter, and is used for assisting removal of the filter. To do.

  In one embodiment, the plurality of rectifying plates are plate-like structures or wing-like structures, and at the same time, the intervals or angles of the plurality of rectifying plates are different from each other.

  In one embodiment, each of the rectifying plates protrudes from both ends of the rectifying plate and is connected to the first frame and the second frame, so that at least one pivot for making the rectifying plate a movable structure is provided. It is characterized by providing.

  As described above, the circulation fan structure of the present invention can increase the air flow concentration by increasing the air flow distance by arranging the drawing structure in the portion adjacent to the outlet of the fan frame. By adjusting the density of the distance between the current plates and the angle of each current plate, and adjusting the airflow distribution, the direction of the airflow is improved and the airflow in the discharge port is made more uniform. The effect of increasing the air blowing ability can be reached.

It is a three-dimensional view of the circulation type fan structure of one Example of this invention. It is an exploded view of the circulation type fan structure shown by FIG. It is an exploded view of the circulation type fan structure of another Example of this invention. It is sectional drawing along line AA of the circulation type fan structure shown by FIG. It is sectional drawing of the circulation type fan structure of another Example of this invention. It is the schematic of the various different aspects of a drawing-in structure. It is the schematic of the various different aspects of a drawing-in structure. It is the schematic of the various different aspects of a drawing-in structure. It is an exploded view of the circulation type fan structure of another Example of this invention. It is sectional drawing of the circulation type fan structure shown by FIG. 7A. FIG. 8 is a partial assembly view of the circulating fan structure shown in FIGS. 7A and 7B.

  Referring to the related drawings, a circulating fan structure according to a preferred embodiment of the present invention will be described as follows, and the same members will be described with the same reference numerals.

  Please refer to FIG. 1, FIG. 2A, FIG. 2B and FIG. 3A simultaneously. FIG. 1 is a three-dimensional view of a circulating fan structure according to a preferred embodiment of the present invention. 2A and 2B are exploded views showing different embodiments of the circulating fan structure shown in FIG. 3A is an exploded view (corresponding to the embodiment of FIG. 2A) along the straight line AA of the circulating fan structure shown in FIG.

  The circulating fan structure F of the present invention includes a driving device 1, a moving blade portion 2, a fan frame 3, and a plurality of rectifying plates 4. The driving device 1 drives and rotates the moving blade portion 2. The moving blade unit 2 includes a hub 21 and at least one blade group 22. The blade group 22 is installed so as to surround the periphery of the hub 21. The fan frame 3 has a first frame 31 and a second frame 32, and the housing space S is formed by assembling the first frame 31 and the second frame 32, and the driving device 1 and the moving blade unit 2 are housed in the housing space S. Installed inside. By assembling the first frame 31 and the second frame 32, at least one suction port 33 and one discharge port 34 are configured, and the moving blade portion 2 is installed at a position facing the suction port 33. The pull-in structure N is formed by at least partially narrowing the portion of the second frame 32 adjacent to the discharge port 34 at least partially inward. The plurality of rectifying plates 4 are installed between the first frame 31 and the second frame 32, and the plurality of rectifying plates 4 extend from the narrowest place adjacent to the lead-in structure N toward the discharge port 34. . Here, the narrowest place adjacent to the lead-in structure N refers to the narrowest place of the lead-in structure N or a position in the vicinity thereof.

In the present embodiment, the circulation fan structure F is arranged at a portion adjacent to the discharge port 34 of the fan frame 3 so as to increase the air flow concentration and increase the blowing distance, and at the same time, design the flow field. Depending on the change, the lead-in structure N can be designed in a different manner of arrangement and shape. For example, as shown in Figure 2B, or simply independently placing lead-in structure N ₃₂ to the second frame 32, or, although not shown, or to independently place only lead-in structure N ₃₁ to the first frame 31 Can do. Further, as shown in FIGS. 2A and 3A, the pull-in structure N ₃₁ is provided in the first frame 31, and at the same time, the pull-in structure N ₃₂ is arranged so as to coexist in the second frame 32. The pull-in structure N may be formed by the pull-in structures N ₃₁ and N ₃₂ by narrowing the portion of the two frames 32 adjacent to the discharge port 34 inwardly.

  Hereinafter, various different changes of the lead-in structure N will be described with reference to FIGS. 4, 5, and 6. The shape of the pull-in structure N is composed of at least one plane, at least one curved surface, or a combination thereof, and at least partially narrows the portion adjacent to the discharge port 34 of the first frame 31 and the second frame 32 inwardly. Thus, the pull-in structure N is co-formed, and the shape of the pull-in structure N and the arrangement of the relative positions can be changed to various different modes by a design based on fluid dynamics.

In the various embodiments shown in FIGS. 4A to 4D, the upper and lower lead structures N ₃₁ and N ₃₂ of the lead structure N have the same shape and the relative positions thereof are symmetrical. Shows the case. That is, at the same time as the lead-in structure _{N 31} of the first frame 31 is retracted the structure _{N 32} of the second frame 32 is the same shape, are disposed at symmetrical positions with each other, and pull the narrowest place by the structure _{N 31, N 32} is Located on the same vertical line. That is, the shape and relative position of the lead-in structure N ₃₁ of the first frame 31 lead-in structure N ₃₂ of the second frame 32 is a mirror relationship symmetrical.

In the various embodiments shown in FIGS. 5A to 5D, the upper and lower lead structures N ₃₁ and N ₃₂ of the lead structure N have the same shape, and the relative positions thereof are asymmetric. Shows the case. That is, at the same time as the lead-in structure _{N 31} of the first frame 31 is retracted the structure _{N 32} of the second frame 32 is the same shape, are disposed asymmetrically positions from each other, and pull the narrowest place by the structure _{N 31, N 32} is Located on different vertical lines. That is, the shape and relative position of the lead-in structure N ₃₁ of the first frame 31 lead-in structure N ₃₂ of the second frame 32 is a relationship displaced in a direction parallel to each other from the state of the mirror symmetry.

In the various embodiments shown in FIGS. 6A to 6D, the upper and lower lead structures N ₃₁ and N ₃₂ of the lead structure N have different shapes, and at the same time their relative positions are asymmetric. Shows the case. That is, at the same time lead-in structure _{N 32} of the lead-in structure _{N 31} of the first frame 31 second frame 32 are in different shapes, are placed asymmetrically positions from each other, and pull the narrowest place by the structure _{N 31, N 32} They are located on the same vertical line or on different vertical lines.

  By designing the pull-in structure N in the different arrangement and shape as described above, it is possible to further concentrate the airflow of the circulation fan structure F, increase the blowing distance, and increase the blowing capacity. it can.

  Please refer to FIG. 2A, FIG. 2B and FIG. 7A, FIG. 7B simultaneously. The circulation fan structure F of these embodiments can improve the direction of the air flow while adjusting the air flow distribution of the circulation fan structure F by making the shape and arrangement of the rectifying plate 4 different.

  In the embodiment shown in FIGS. 2A and 2B, the plurality of rectifying plates 4 and the first frame 31 or the second frame 32 have an integrally formed structure. The flow straightening plate 4 can be formed into a plate-like structure or a wing-like structure by a design based on fluid dynamics. Furthermore, by adjusting the intervals or angles of the plurality of rectifying plates 4, the intervals or angles of the plurality of rectifying plates 4 can be made different from each other.

  In the aspect shown in FIG. 3B, the plurality of rectifying plates 4 are configured to be movable between the first frame 31 and the second frame 32. That is, each rectifying plate 4 protrudes from both ends of the rectifying plate 4 and is connected to the first frame 31 and the second frame 32, thereby making the rectifying plate 4 movable (rotatable). At least one pivot 43.

  In the embodiment shown in FIGS. 7A and 7B, the plurality of rectifying plates 4 have a combined structure and are integrally formed with the first frame 31 and the second frame 32. Each rectifying plate 4 includes a first sub rectifying plate 41 and a second sub rectifying plate 42, and the first sub rectifying plate 41 and the first frame 31 have an integrally formed structure. The second frame 32 has a one-piece structure. The first sub rectifying plate 41 and the second sub rectifying plate 42 have corresponding engaging portions 411 and 421, respectively, thereby connecting the first sub rectifying plate 41 and the second sub rectifying plate 42 to each other. Two rectifying plates 4 are formed together.

  2A, 2B and 3A, the circulating fan structure F further includes at least one drain hole 5 provided in the first frame 31 and the second frame 32, and the first frame 31 and the first frame 31 The two frames 32 are installed in correspondence with each other, and at the same time, a spiral channel 35 is formed in common, and the drain hole 5 discharges moisture in the spiral channel 35 so that water is collected inside the fan frame 3. Can be avoided. Moreover, the drain hole 5 can be installed in one of the first frame 31 or the second frame 32 (not shown) according to the design of the manufacturing process.

  As shown in FIGS. 1, 2A, 2B, and 8, the circulating fan structure F further includes a filter 6, and the filter 6 is installed in the discharge port 34, and at the same time, used in accordance with the discharge port 34. At least one side of the filter 6 has at least one bump 61, and the first frame 31 and / or the second frame 32 has at least one positioning hole 36 corresponding to the bump 61, and the filter 6 is attached. At this time, the filter 6 can be fixed to the outlet 34 by engaging the positioning hole 36 and the bump 61 with each other.

  On the premise that the volume of the fan frame 3 is not increased, in order to more stably fix the filter 6 installed in the discharge port 34, a portion adjacent to the discharge port 34 of the first frame 31 and the second frame 32, At least one hook structure 37 may be provided. With such a design, the filter 6 can be fixed between the hook structure 37 and the plurality of rectifying plates 4. The filter 6 further includes an auxiliary hole 62. The auxiliary hole 62 is provided in a portion other than the mesh of the filter 6 and is used to assist removal of the filter 6. The user can remove the filter 6 by pulling the auxiliary hole 62 outward with a finger.

  In summary, the circulation fan structure of the present invention can increase the air flow concentration by increasing the air flow distance by arranging the lead-in structure in the portion adjacent to the fan frame outlet, and a plurality of rectifiers. By adjusting the density of the spacing between the current plates and the angle of each current plate by adjusting the arrangement of the plates, adjusting the air flow distribution, improving the direction of the air flow, and making the air flow at the outlet part more uniform, The effect of increasing the ventilation capacity of the circulation fan can be achieved.

  The above examples are illustrative and not intended to limit the present invention. Any equivalent modifications or changes made without departing from the spirit and scope of the present invention are included in the appended claims.

  Since the present invention is configured as described above, it is possible to further concentrate the air flow of the circulation fan while providing the circulation fan structure in which the drawing structure is arranged in the portion adjacent to the discharge port of the fan frame. The distance can be increased. Further, the design including a plurality of rectifying plates can provide a circulating fan structure capable of correctly guiding the airflow, making the airflow in the discharge port portion more uniform, and enhancing the blowing capacity of the circulating fan.

DESCRIPTION OF SYMBOLS 1 Drive device 2 Rotor part 21 Hub 22 Blade group 3 Fan frame 31 1st frame 32 2nd frame 33 Suction port 34 Discharge port 35 Vortex flow path 36 Positioning hole 37 Hook structure 4 Current plate 41 First sub-current plate 411 , 421 engaging portion 42 second sub-rectifying plate 43 pivot 5 drain hole 6 filter 61 bump 62 auxiliary hole F circulating fan structure S accommodating space N, N ₃₁ , N ₃₂ pull-in structure

Claims (11)

A drive device, a moving blade portion, a first frame, and a second frame are included, and a housing space is formed by assembling the first frame and the second frame, and the driving device and the moving blade portion are housed in the housing. After installing in the space and assembling the first frame and the second frame, at least one suction port and one discharge port are formed, the moving blade portion is installed in the suction port portion, and the first The frame and / or the second frame forms a drawing structure by narrowing a portion adjacent to the discharge port inward, and the drawing structure narrows inward along the axial direction of the moving blade portion. And a plurality of baffle plates installed between the first frame and the second frame, the plurality of baffle plates from the narrowest place adjacent to the retracting structure. Towards The driving device drives and rotates the moving blade portion, and the moving blade portion includes a hub and at least one blade group, and the blade group is installed to surround the peripheral edge of the hub. Characteristic circulation fan structure.   The pull-in structure is formed by narrowing inwardly the portions of the first frame and the second frame adjacent to the discharge port, and in this case, the first frame and the second frame in the pull-in structure portion. Have the same shape, and the relative positions of the two are symmetrical, and the shape of the retracting structure portion in the first frame and the second frame is at least one plane, at least one curved surface, or those The circulating fan structure according to claim 1, wherein the circulating fan structure is constituted by a combination.   The pull-in structure is formed by narrowing inwardly the portions of the first frame and the second frame adjacent to the discharge port, and in this case, the first frame and the second frame in the pull-in structure portion. Have the same shape, and the relative positions of the two are asymmetrical, and the shape of the retracting structure portion in the first frame and the second frame is at least one plane, at least one curved surface, or those The circulating fan structure according to claim 1, wherein the circulating fan structure is constituted by a combination.   The pull-in structure is formed by narrowing inwardly the portions of the first frame and the second frame adjacent to the discharge port, and in this case, the first frame and the second frame in the pull-in structure portion. The shapes of the retracting structures in the first frame and the second frame are at least one plane, at least one curved surface, or a combination thereof. The circulating fan structure according to claim 1, wherein   Each of the rectifying plates is composed of a first sub rectifying plate and a second sub rectifying plate, and the first sub rectifying plate and the first frame are integrally formed, and the second sub rectifying plate and the second sub rectifying plate The two frames have an integrally formed structure, and the first sub-rectifier plate and the second sub-rectifier plate have corresponding engaging portions, so that the first sub-rectifier plate and the second sub-rectifier plate are The circulating fan structure according to claim 1, wherein the circulation fan structure is connected to each other to form a current plate in common.   The apparatus further comprises at least one drain hole installed in the first frame and / or the second frame, and the first frame and the second frame are installed corresponding to each other and at the same time share a spiral flow path. The circulating fan structure according to claim 1, wherein the drain hole is formed and used to discharge moisture in the spiral flow path.   The filter further includes a filter installed at the outlet, wherein at least one side of the filter has at least one bump, and the first frame and / or the second frame has at least one positioning hole corresponding to the bump. The circulating fan structure according to claim 1, wherein the positioning hole and the bump are engaged with each other to fix the filter to the discharge port.   The filter further includes a filter, and a portion of the first frame and the second frame adjacent to the discharge port has at least one hook structure, so that the filter is interposed between the hook structure and the plurality of rectifying plates. The circulating fan structure according to claim 1, wherein the circulating fan structure is fixed.   The circulation according to claim 1, further comprising a filter, wherein the filter has an auxiliary hole, and the auxiliary hole is provided in a portion other than the mesh of the filter, and is used for assisting the removal of the filter. Formula fan structure.   The circulating fan structure according to claim 1, wherein the plurality of rectifying plates have a plate-like structure or a wing-like structure, and the intervals or angles of the plurality of rectifying plates are different from each other.   Each rectifying plate is provided at both ends of the rectifying plate and includes at least one pivot for connecting the rectifying plate to a movable structure by being connected to the first frame and the second frame. The circulating fan structure according to claim 1, wherein:

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