CN212838528U - Fan base - Google Patents

Fan base Download PDF

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Publication number
CN212838528U
CN212838528U CN202021308048.6U CN202021308048U CN212838528U CN 212838528 U CN212838528 U CN 212838528U CN 202021308048 U CN202021308048 U CN 202021308048U CN 212838528 U CN212838528 U CN 212838528U
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China
Prior art keywords
fan base
assembly
ring gear
fan
nozzle assembly
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CN202021308048.6U
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Chinese (zh)
Inventor
杨勇争
刘伟军
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Dreame Technology Shanghai Co Ltd
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Dreame Technology Shanghai Co Ltd
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Priority to CN202021308048.6U priority Critical patent/CN212838528U/en
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Abstract

The utility model relates to a fan base is provided with nozzle assembly on it, be provided with drive assembly between fan base and the nozzle assembly, nozzle assembly realizes through drive assembly that relative fan base is rotatory, drive assembly include ring gear, and with ring gear meshing's pinion, ring gear sets up on one in fan base and nozzle assembly, the pinion sets up on another in fan base and nozzle assembly, this drive assembly mounting means is simple, it is convenient to dismantle, and simple structure, can easily realize nozzle assembly relative fan base and rotate.

Description

Fan base
Technical Field
The utility model relates to a fan field, concretely relates to fan base.
Background
The traditional household fan is a bladed fan, generally, a motor drives blades to rotate, the flowing speed of surrounding air airflow is accelerated, and therefore the effects of cooling, relieving summer heat and circulating air are achieved. Compared with the traditional electric fan with the fan blades, the bladeless fan has the characteristics of low noise, good safety and the like. The bladeless fan generates high-speed airflow from air outside the fan through the air wheel assembly to be blown out of the nozzle assembly, and in order to adjust the air outlet direction of the bladeless fan, the rotating assembly is arranged on the fan base of the bladeless fan, so that the nozzle assembly and the air wheel assembly fixed on the rotating assembly are driven to synchronously rotate relative to the fan base. However, the transmission assembly disposed between the rotation assembly and the fan base to transmit the driving force is complicated to assemble and is not easily disassembled.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a fan base has that the assembly methods is simple, dismantle convenient, and simple structure drive assembly.
In order to achieve the above purpose, the utility model provides a following technical scheme: a fan base is provided with a nozzle assembly, a transmission assembly is arranged between the fan base and the nozzle assembly, the nozzle assembly rotates relative to the fan base through the transmission assembly, the transmission assembly comprises a ring gear and a pinion meshed with the ring gear, the ring gear is arranged on one of the fan base and the nozzle assembly, and the pinion is arranged on the other of the fan base and the nozzle assembly.
Further, the ring gear is fixed to the fan base, and the pinion gear is provided on the nozzle assembly.
Furthermore, the fan base is provided with at least one clamping groove, the ring gear is provided with a clamping block matched with the clamping groove, and the clamping block is inserted into the clamping groove at the corresponding position to fix the ring gear on the fan base.
Further, the latch is formed by extending downward from the ring gear.
Furthermore, the number of the clamping blocks is four, and the four clamping blocks are arranged at equal intervals in the circumferential direction.
Further, a rotary support frame is arranged between the fan base and the nozzle assembly, and the pinion is arranged on the rotary support frame.
Further, be provided with the recess on the ring gear, install magnet in the recess, install on the rotation support frame with centering hall PCBA board and spacing hall PCBA board that magnet set up relatively.
Furthermore, a driving piece for providing power for the transmission assembly is further arranged on the nozzle assembly.
Further, the driving piece is fixed on the rotary supporting frame.
Further, the driving piece is a motor with an output shaft, and the pinion is sleeved on the output shaft.
The beneficial effects of the utility model reside in that: the utility model discloses the drive assembly of shown fan base include ring gear and with ring gear meshing's pinion, one of ring gear and pinion sets up at the fan base, and a setting is on nozzle assembly, and this drive assembly assembling method is simple, dismantle convenient, and simple structure, can easily realize that the relative fan base of nozzle assembly rotates.
The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.
Drawings
Fig. 1 is an overall exploded view of a bladeless fan according to an embodiment of the present invention;
FIG. 2 is a cross-sectional view of the bladeless fan of FIG. 1;
FIG. 3 is a schematic structural diagram of the base in FIG. 1;
FIG. 4 is a schematic view of the fan base of FIG. 1 in a first direction;
FIG. 5 is a schematic view of the fan base of FIG. 1 in a second orientation;
FIG. 6 is a schematic view of the fan base of FIG. 1 in a third direction;
FIG. 7 is a schematic view of the fan base of FIG. 1 in a fourth orientation;
FIG. 8 is a cross-sectional view of the fan base and screen assembly of FIG. 1 in another orientation;
FIG. 9 is an enlarged view of area A of FIG. 8;
FIG. 10 is a schematic view of the side bar of FIG. 1;
FIG. 11 is an exploded view of the rotating assembly of FIG. 1;
FIG. 12 is a schematic structural view of the rotary support bracket and the second driving member of FIG. 1;
FIG. 13 is a schematic view of the rotational support of FIG. 1 in another orientation;
FIG. 14 is a cross-sectional view of the spin pack assembly, fan base and screen assembly of FIG. 1;
FIG. 15 is a schematic structural view of the shock absorbing flexure of FIG. 1;
FIG. 16 is an enlarged view of area B of FIG. 14;
fig. 17 is a schematic structural diagram of the conductive assembly in fig. 1.
Detailed Description
The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the mechanism or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.
The bladeless fan of a preferred embodiment of the present invention is capable of generating one or more of a dehumidified airflow, a humidified airflow, a purified airflow, a filtered airflow, a cooled airflow, and a heated airflow, without limitation to the airflow generated and delivered by the bladeless fan. Referring to fig. 1 and 2, the bladeless fan includes the following components: the fan comprises a fan base 7, a nozzle assembly 100 arranged on the fan base 7, a rotating assembly 8 connecting the fan base 7 and the nozzle assembly 100, a filter screen assembly 9 enclosed on the fan base 7, a wind wheel assembly 200 arranged on the rotating assembly 8, a flow deflector assembly 6 arranged on the fan base 7, a main support assembly 5 and a top shell assembly 4. Wherein the deflector assembly 6, the main support assembly 5, the top housing assembly 4, the rotation assembly 8, the wind wheel assembly 200 and the nozzle assembly 100 provided on the fan base 7 are rotatable about a central axis with respect to the fan base 7.
Referring to fig. 2 to 4, a base 71 is disposed below the fan base 7 to fix the bladeless fan on the contact surface, the base 71 includes a base housing 711 and a plurality of foot pads 712 disposed on the base housing 711, the base housing 711 is similar to a circular structure and includes a bottom housing 713 and a side housing 714 extending outward from the bottom housing 713, the bottom housing 713 is circular, and the bottom housing 713 and the side housing 714 are enclosed to form an accommodation space. The bottom shell 713 is provided with a plurality of cylindrical holes 7131, in this embodiment, the number of the cylindrical holes 7131 is six, the six cylindrical holes 7131 are arranged at equal intervals in the circumferential direction, and the specific number and the position of the cylindrical holes 7131 are not limited. The foot pad 712 may be made of a rubber material, but is not limited to a rubber material. The quantity that the callus on the sole 712 set up is the same with the quantity in cylindrical hole 7131, and every callus on the sole 712 one end is fixed in cylindrical hole 7131, and the fixed mode of callus on the sole 712 can be for the screw fixation, does not do specifically limit here, and the screw thread that increases frictional force is provided with on the surface of the other end of callus on the sole 712, and on base 71 placed ground or desktop, callus on the sole 712 played the effect of support and buffering shock attenuation, and the threaded surface of callus on the sole 712 has increased the frictional force of callus on the sole 712 with the contact surface, has increased bladeless fan's stability. An annular shell 7132 with an opening is formed on the inner wall of the bottom shell 713 in a protruding manner from the bottom shell 713, the annular shell 7132 is closer to the center of the bottom shell 713 than the cylindrical hole 7131, in addition, a plurality of sixth fixing posts 715 are further arranged on the inner wall of the bottom shell 713, specifically, the number of the sixth fixing posts 715 is four and the sixth fixing posts 715 are uniformly distributed in the annular shell 7132, the sixth fixing posts 715 and the bottom shell 713 may be integrally formed, and specific number and positions of the sixth fixing posts 715 are not specifically limited, and the sixth fixing posts 715 and the bottom shell 713 may also be detachably connected, and are not specifically limited herein. Side shell 714 has an opening 7141 formed therein, and a cable positioned within the bladeless fan may be connected to the outside through opening 7141.
Referring to fig. 4 to 7, the fan base 7 includes a main body casing 72 and a fan base cavity 73 defined by the main body casing 72, the fan base 7 is substantially a hollow cylindrical structure, the main body casing 72 is provided with a plurality of small holes 721, the small holes 721 are uniformly and respectively formed on the main body casing 72, the small holes 721 are air inlets of the main body casing 72, in other embodiments, the main body casing 72 may be provided with one or more grilles or grids as air inlets, which is not limited herein. Through which the airflow enters the fan base cavity 73, and a screen assembly 9 is mounted on the fan base 7 outside of the air inlet to filter the airflow entering the air inlet and remove any particles that may cause damage to the bladeless fan. Mounted within the fan base cavity 73 is a wind wheel assembly 200 for drawing an airflow through the air inlet and generating a desired air flow out of the air outlet on the nozzle assembly 100. The fan base cavity 73 is provided with a blocking plate 731 at the bottom so that the air flow entering the fan base cavity 73 can move all the way up and towards the wind wheel assembly 200 located on the fan base 7. The main body case 72 is formed with an extension case 74 extending downward at the bottom, the fan base 7 has a lower annular flange 741, the lower annular flange 741 extending outward from the extension case 74, the main body case 72 further has an upper annular flange 722, the upper annular flange 722 extending outward from the main body case 72 near the upper end of the main body case 72, and the upper annular flange 722, the lower annular flange 741, the main body case 72, and the extension case 74 may be integrally formed or detachably connected, without being particularly limited thereto. The bottom surface of the lower annular flange 741 is provided with a plurality of fifth fixing posts 7411, the fifth fixing posts 7411 are formed by extending downward from the bottom surface of the lower annular flange 741, the number of the fifth fixing posts 7411 is the same as the number of the cylindrical holes 7131 on the base 71, and the positions of the fifth fixing posts 7411 and the cylindrical holes 7131 are in one-to-one correspondence, when the fan base 7 is fixed on the base 71, the fifth fixing posts 7411 are inserted into the cylindrical holes 7131 to fix the base 71 and the fan base 7, at this time, the outer edge of the lower annular flange 741 and the side shell 714 of the base 71 are abutted against each other, the bottom end of the extension shell 74 enters the accommodating space of the base 71 and is clamped in the annular shell 7132, and the extension shell 74, the blocking plate 731 and the bottom shell 713 form a second cavity 75, as shown in fig. 2.
The upper surface of the upper annular flange 722 is provided with a first annular retainer ring 7221 and a second annular retainer ring 7222, the first retainer ring 7221 and the second retainer ring 7222 are coaxially arranged with the main body housing 72, the first retainer ring 7221 and the second retainer ring 7222 are formed by protruding upward from the upper surface of the upper annular flange 722, and the first retainer ring 7221 is arranged close to the main body housing 72 relative to the second retainer ring 7222. The upper annular flange 722 is provided with at least one locking groove 7223 in the first retainer ring 7221 at a position close to the main body housing 72, in this embodiment, the number of the locking grooves 7223 is four, and the four locking grooves 7223 are circumferentially arranged at equal intervals. Similarly, the outer edge of the upper surface of the upper annular flange 722 is protruded upward to form protruding frames 7224, first concave rings 7225 are formed between the protruding frames 7224 and the upper annular flange 722, in this embodiment, the number of the protruding frames 7224 is two, two protruding frames 7224 are oppositely located at two sides of the fan base cavity 73, and two protruding frames 7224 form a circular ring with two openings, so that the number of the first concave rings 7225 is two, two first concave rings 7225 are oppositely located at two sides of the fan base cavity 73, the protruding frames 7224 are further provided with through holes 7226 communicated with the first concave rings 7225, the number of the through holes 7226 is six, three through holes 7226 are communicated with one first concave ring 7225 and are circumferentially equally spaced, and the other three through holes 7226 are communicated with the second first concave ring 7225 and are circumferentially equally spaced.
Referring to fig. 2, a weight 76 for lowering the center of gravity of the fan base 7 is further disposed in the fan base 7, and the weight 76 is disposed at the bottom of the fan base 7 and fixed on the fan base 7 by a fixing member. Specifically, the weight 76 is located in the second cavity 75, and the structure and material of the weight 76 are not limited in this embodiment, the weight 76 is a rectangular parallelepiped structure, the four corners of the weight 76 are respectively provided with second concave holes (not shown), the positions of the second concave holes correspond to the positions of the sixth fixing posts 715 arranged on the base 71 one by one, when the weight 76 is placed in the second cavity 75, the fan base 7 is fixed on the base 71, the sixth fixing posts 715 arranged on the base 71 are inserted into the second concave holes at the corresponding positions of the weight 76, so as to fix the weight 76 on the base 71, and the sixth fixing posts 715 and the second concave holes may be in threaded fit, but are not limited thereto, and in other embodiments, the fixing manner of the weight may be other, and is not limited herein.
The fan base 7 is further provided with a nozzle lock bracket 77 for limiting the nozzle assembly 100, the nozzle lock bracket 77 includes a lock bracket main body 771 and at least one protruding extension block 772 arranged on the lock bracket main body 771, and the protruding extension block 772 is formed by protruding outwards from the inner wall of the lock bracket main body 771. In this embodiment, the number of the protruding blocks 772 is three, the three protruding blocks 772 are arranged at equal intervals in the circumferential direction and are in one-to-one correspondence with the positions of the through holes 7226 on the fan base 7, which are communicated with one first concave ring 7225, when the nozzle lock holder 77 is fixed on the fan base 7, the lock holder body 771 enters one first concave ring 7225, the protruding blocks 772 protrude out of the fan base 7 through the through holes 7226 at the corresponding positions, a limiting space capable of limiting the axial movement is formed between the protruding blocks 772 and the fan base 7, specifically, the protruding blocks 722 are located above the upper annular flange 722, and a limiting space is formed between the protruding blocks 722 and the upper annular flange 722. In this embodiment, the quantity that nozzle lock frame 77 set up is two, and two nozzle lock frame 77 set up in fan base 7's both sides relatively, and rotating assembly 8 one end sets up in spacing space in order to fix on fan base 7 to, rotating assembly 8 can not move at axial direction relative to fan base 7, can't break away from fan base 7, and rotating assembly 8 can only rotate around the center pin relative to fan base 7, has increased bladeless fan's assembly stability.
The fan base 7 is provided with two accommodating grooves 78 for accommodating cables, the accommodating grooves 78 extend along the axial direction of the fan base 7, and the two accommodating grooves 78 are identical and are oppositely arranged on two sides of the fan base 7. In this embodiment, two receiving slots 78 are formed on the main body housing 72 and the extension housing 74, and specifically, a first tab 781 and a second tab 782 protrude from the main body housing 72, and the first tab 781 and the second tab 782 extend to the extension housing 74 along the axial direction of the main body housing 72. A first baffle 783 is arranged between the first tab 781 and the second tab 782 below the upper annular flange 722, a second baffle 784 is arranged between the first tab 781 and the second tab 782 above the lower annular flange 741, the first tab 781, the second tab 782, the first baffle 783, the second baffle 784 and the main body shell 72 enclose a receiving groove 78 with an opening, and the receiving groove 78 is of a structure similar to a rectangular parallelepiped. At the bottom position of the receiving groove 78, the receiving groove 78 is formed with a third inner recess 785 in the extension case 74 to communicate the receiving groove 78 with the second cavity 75, and a fourth inner recess 786 is formed in the second flap 784 to communicate the receiving groove 78 with the second cavity 75. A cable (not shown) for supplying power to the bladeless fan enters from the opening 7141 of the base 71 and passes through the third or fourth inner recessed hole 785 or 786 into the receptacle 78 for connection to the bladeless fan at a desired location for powering the bladeless fan, the outer end of the cable being connected to a plug for connection to a mains power supply. The cable includes a live wire and a neutral wire. Alternatively, the cable may be divided into at least two strands of electrical wire within the interior of the housing 78 after one strand of electrical wire enters the housing. In addition, the first baffle 783, the first protruding piece 781, and the second protruding piece 782 have a first receiving groove 787 formed above the receiving groove 78, the second baffle 784, the first protruding piece 781, and the second protruding piece 782 have a second receiving groove 788 formed below the receiving groove 78, and the magnet pieces 795 are fixedly received in the first receiving groove 787 and the second receiving groove 788, as shown in fig. 2.
Referring to fig. 8 to 10, the fan base 7 is further provided with side bars 79 for closing the receiving slots 78, the side bars 79 are similar to rectangular parallelepiped structures, accordingly, the number of the side bars 79 is two, and the two side bars 79 respectively close the opening of one receiving slot 78. A plurality of second reinforcing ribs 791 are provided on the inner wall of the side bar 79 to increase the strength of the side bar 79. The receiving groove 78 is provided with a first step surface 789, the side bar 79 is provided with a second step surface 792 matched with the first step surface 789, specifically, both the first protruding piece 781 and the second protruding piece 782 of the receiving groove 78 are provided with the first step surface 789 at one end far away from the main body shell 72, the side bar 79 is provided with a first side wall 793 and a second side wall 794 respectively butted with the first protruding piece 781 and the second protruding piece 782, the first side wall 793 and the second side wall 794 are provided with a second step surface 792 at one end butted with the first protruding piece 781 and the second protruding piece 782, and the second step surface 792 is clamped with the first step surface 789 to clamp the side bar 79 in the receiving groove 78. The side bar 79 is inserted into the fan base 7 from above the fan base 7 and engaged with the housing groove 78, and at this time, the first step surface 789 and the second step surface 792 are engaged to fix the side bar 79 with the housing groove 78, so that the cable housed in the housing groove 78 is hidden, the wiring is facilitated, the cable is not mixed and exposed, and the appearance of the bladeless fan is improved.
In addition, in order to further fix the side edge strips 79 in the receiving slots 78, the first tab 781 and the second tab 782 of the receiving slots 78 are provided with fixing blocks 780 at an end away from the main body case 72, see fig. 6, the fixing block 780 is formed to protrude outward from the first protruding piece 781 or the second protruding piece 782, the side edge strip 79 is formed to protrude outward from the second reinforcing rib 791 at a position close to the first side wall 793 and the second side wall 794 with a fixing strip 796, the fixing strip 796 has a fixing baffle 7961 and an extension plate 7962 formed to extend downward from the fixing baffle 7961, the extension plate 7962 being higher than the first side wall 793 or the second side wall 794, when the side edge strips 79 are inserted into the fan base 7 from the upper part of the fan base 7 and are matched with the containing grooves 78, the fixing blocks 780 are abutted against the fixing strips 796, and the fixing block 780 is positioned between the fixing baffle 7961 and the extension plate 7962, so that the matching stability of the side edge strip 79 and the accommodating groove 78 is improved. The top of the side bars 79 are provided with fixing pieces 797, and when the two side bars 79 are fixed on the fan base 71, the two fixing pieces 797 are inserted into two openings formed by the two protruding frames 7224 to form a complete circle with the two protruding frames 7224.
The screen assembly 9 is mounted between the upper and lower annular flanges 722, 741, and the screen assembly 9 is disposed on either side of the sidebar 79, the sidebar 79 being attached to the screen assembly 9 and securing the screen assembly 9 to the fan base 7. Adopt the mode of magnetism to be connected between side strake 79 and the filter screen subassembly 9, specifically, the last joint of filter screen subassembly 9 has inhaled the piece, and side strake 79 has respectively installed a magnet piece 795 in upper end and lower extreme department, magnet piece 795 in first storage tank 787 and the second storage tank 788 promptly. However, the connection of the side bars 79 to the screen assembly 9 is not limited thereto, and is not limited thereto.
Referring to fig. 11, in order to drive the nozzle assembly 100 to rotate around the central axis relative to the fan base 7 to change the horizontal wind direction of the bladeless fan, the bladeless fan further comprises a second driving member 811 for providing power and a transmission assembly for transmitting the power to the nozzle assembly 100, the transmission assembly is disposed between the fan base 7 and the nozzle assembly 100, and the nozzle assembly 100 is rotated relative to the fan base 7 through the transmission assembly. In this embodiment, the bladeless fan further includes a rotating component 8 connecting the fan base 7 and the nozzle component 100, the nozzle component 100 is fixed on the rotating component 8, the rotating component 8 is used for driving the nozzle component 100 to rotate relative to the fan base 7, therefore, the second driving component 811 and the transmission component are disposed between the rotating component 8 and the fan base 7, and the rotating component 8 includes a rotating support 82 connecting the fan base 7 and the nozzle component 100.
Referring to fig. 12 and 13, one end of the rotary support 82 is fixedly connected to the nozzle assembly 100, and the other end is rotatably connected to the fan base 7. In this embodiment, the rotating support frame 82 is generally a hollow cylinder structure, the rotating support frame 82 includes a support frame housing 821, the support frame housing 821 is a similar hollow cylinder structure, the rotating support frame 82 has an extension portion 822, the extension portion 822 extends downward along the axial direction of the support frame housing 821 after protruding outward from the inner wall of the support frame housing 821, and then extends outward along the horizontal direction, the cross section of the extension portion 822 is similar to a zigzag structure, a third receiving groove 823 is formed by surrounding the extension portion 822 and the support frame housing 821, the number of the extension portions 822 is four, the four extension portions 822 are circumferentially arranged at equal intervals along the inner wall of the support frame housing 821, and an annular receiving space is formed by the four third receiving grooves 823. In addition, each extending portion 822 is provided with a pillar 824, the pillar 824 is formed by protruding outward from the extending portion 822, the position of the pillar 824 on each extending portion 822 is the same, and the pillar 824 extends along the axis of the support frame housing 821. Two second receiving cavities 825 are also formed on the outer wall of the support frame housing 821. When the rotating assembly 8 is disposed on the fan base 7, one end of the rotating support frame 82 is disposed in a limiting space formed by the nozzle lock frame 77 and the fan base 7, specifically, the bottom of the support frame housing 821 extends outward from the support frame housing 821 to form a support frame flange 826, the support frame flange 826 is disposed in the limiting space, and the rotating support frame 82 may be mounted in a manner that the rotating support frame 82 is first placed on the fan base 7, then the two nozzle lock frames 77 are mounted on the fan base 7, and the protruding block 772 is disposed above the support frame flange 826, so as to limit the movement of the rotating support frame 82 in the axial direction and increase the stability of the bladeless fan.
The transmission assembly includes a ring gear 812 and a pinion 813 engaged with the ring gear 812, the ring gear 812 is disposed on one of the fan base 7 and the nozzle assembly 100, the pinion 813 is disposed on the other of the fan base 7 and the nozzle assembly 100, the specific positions where the ring gear 812 and the pinion 813 are disposed are not limited, in this embodiment, the pinion 813 is disposed on the nozzle assembly 100, specifically, the pinion 813 is disposed on the rotary support frame 82, and the ring gear 812 is fixed on the fan base 7.
The second driving member 811 is mounted on the rotary supporting frame 82, the second driving member 811 is a motor with a second output shaft 814, and the pinion 813 is sleeved on the second output shaft 814. The second driving member 811 is fixed to the support frame housing 821 of the rotary support frame 82, and the second output shaft 814 of the motor is located below the motor and extends into the third receiving groove 823 formed by the support frame housing 821 and the extending portion 822. The outer wall of the ring gear 812 is provided with a plurality of teeth which mesh with the pinions 813, and in this embodiment, the teeth are formed on the upper half portion of the outer wall of the ring gear 812, and the teeth are arranged along the axial direction of the ring gear 812, but the teeth are not limited thereto, and may be formed on the entire outer wall of the ring gear 812. At least one fixture block 815 is disposed on the ring gear 812, the fixture block 815 is formed by extending downward from the ring gear 812, the at least one fixture block 815 is disposed at equal intervals in the circumferential direction, in this embodiment, the number of the fixture blocks 815 is four, and the specific number of the fixture blocks 815 is not limited. It should be noted that the latch 815 and the ring gear 812 may be detachably fixed. The fan base 7 is provided with a locking groove 7223 matched with the locking block 815, and the locking block 815 is inserted into the locking groove 7223 at the corresponding position to fix the ring gear 812 on the fan base 7. The ring gear 812 is provided with a fourth receiving groove 816, and specifically, the fourth receiving groove 816 is formed at an upper portion of the ring gear 812.
One end of the ring gear 812, which is away from the fan base 7, extends into a third receiving groove 823 formed by the support frame housing 821 and the extending portion 822, and the pinion 813 and the ring gear 812 are engaged in the third receiving groove 823. The motor rotates the pinion 813 so that the pinion 813 and the ring gear 812 rotate relative to each other, the ring gear 812 is fixed to the fan base 7 so that the motor and the pinion 813 rotate relative to the ring gear 812 and the fan base 7, the motor is fixed to the rotational support frame 82 so that the motor rotates the rotational support frame 82 relative to the ring gear 812 and the fan base 7, and the nozzle assembly 100 and the wind wheel assembly 200 are fixed to the rotational support frame 82 so that the nozzle assembly 100 and the wind wheel assembly 200 rotate relative to the fan base 7 in synchronization with the rotational support frame 82.
Referring to fig. 14 and 15 in conjunction with fig. 1 and 11, a damping flexure 83 is disposed between the wind wheel assembly 200 and the rotating support frame 82. The damping flexible member 83 includes a fixing portion 831 fixed in the wind wheel assembly 200 and a damping portion 832 clamped between the wind wheel assembly 200 and the rotating support frame 82, the fixing portion 831 and the damping portion 832 are integrally formed, the damping flexible member 83 is connected with the rotating support frame 82 through a first connecting member 833, and the first connecting member 833 and the damping flexible member 83 limit circumferential rotation of the wind wheel assembly 200 relative to the rotating support frame 82.
In this embodiment, the first connecting member 833 is a pin 833, but the first connecting member 833 is not limited to the pin 833 and can be other members for connecting and fixing, such as a long rod. The pin 833 is partially inserted into the rotating bracket 82, and a first fixing hole 827 is formed in the rotating bracket 82, as shown in fig. 12, in this embodiment, the first fixing hole 827 is formed in the pillar 824 of the extension 822, and the pin 833 is partially inserted into the first fixing hole 827. Another portion of the pin 833 is inserted into the damper flexure 83 to fix the damper flexure 83 and the rotating support bracket 82, and the damper portion 832 is formed with an insertion hole 834 at an end near the rotating support bracket 82, and the pin 833 is partially inserted into the insertion hole 834. The insertion hole 834 may penetrate the damping portion 832 and extend into the fixing portion 831, and it is contemplated that the insertion hole 834 may also be a through hole penetrating the damping portion 832 and the fixing portion 831, and a specific formation position of the insertion hole 834 is not limited herein.
The wind wheel assembly 200 is provided with a second fixing hole 2011, and the fixing portion 831 is inserted into the second fixing hole 2011, thereby fixing the damping flexure 83 and the wind wheel assembly 200. In other embodiments, the fixing portion 831 may also clamp the wind wheel assembly 200 to fix the wind wheel assembly 200 and the shock absorbing flexure 83. The wind wheel assembly 200 is fixed to the rotating support frame 82 by means of the shock absorbing flexure 83.
In this embodiment, the damping flexible member 83 is shaped like an arrow, the damping portion 832 is shaped like a cone, the fixing portion 831 is shaped like a cylinder, and the diameter of the fixing portion 831 is smaller than the maximum diameter of the damping portion 832, but the damping flexible member 83 may have other structures, for example, the damping portion 832 is shaped like a rectangular parallelepiped, a cylinder, etc., which are not listed here. The damping flexure 83 is made of an elastic material, when the damping flexure 83 is fixed on the rotating support frame 82 through the first connecting part 833, the wind wheel assembly 200 is fixed on the damping flexure 83 through the fixing part 831, because the diameter of the fixing part 831 is smaller than the maximum diameter of the damping part 832, the wind wheel assembly 200 is at least partially positioned above the damping part 832, thereby limiting the wind wheel assembly 200 from moving downward in the axial direction relative to the rotating support frame 82, because the damping flexure 83 is made of an elastic material, a damping effect can be achieved between the wind wheel assembly 200 and the rotating support frame 82, in addition, because the fixing part 831 is inserted into the wind wheel assembly 200, the wind wheel assembly 200 is limited from moving in the circumferential direction relative to the rotating support frame 82, and further, the damping effect can be achieved because of the elastic characteristic of the fixing part 831. The number of the damping flexible members 83 is four, and the four damping flexible members 83 are circumferentially arranged at equal intervals to stably fix the wind wheel assembly 200 on the rotating support frame 82, and indeed, in other embodiments, the number of the damping flexible members 83 may be other, which is not specifically limited herein, and the damping flexible members 83 enhance the stability of the bladeless fan.
Referring to fig. 14 and 16, a bearing 84 is disposed between the rotating component 8 and the fan base 7 to increase the rotational smoothness of the nozzle component 100 disposed on the fan base 7 and the rotating component 8 relative to the fan base 7, reduce the friction loss between the rotating component 8 and the fan base 7, and increase the service life of the bladeless fan, and the rotating component 8, the bearing 84, and the fan base 7 are disposed along the axial direction. The bearing 84 is an annular structure, and includes a lower bearing shell 841 disposed on the fan base 7, an upper bearing shell 842 abutted against the rotary support frame 82, a retainer 843 disposed between the upper bearing shell 842 and the lower bearing shell 841, and balls 844 disposed in the retainer 843, and a plurality of concave holes 8431 for mounting the balls 844 are disposed in the retainer 843, as shown in fig. 11. A plurality of concave holes 8431 are equidistantly arranged on the retainer 843, the balls 844 are installed in the concave holes 8431, and the balls 844 are positioned between the upper bearing shell 842 and the lower bearing shell 841, so that the upper bearing shell 842 and the lower bearing shell 841 smoothly rotate relatively.
The fan base 7 is provided with a second concave ring 7227, the second concave ring 7227 is an accommodating space formed by the ring gear 812 and the first limit ring 7221 after the ring gear 812 is fixed on the fan base 7, and the bearing lower shell 841 is positioned in the second concave ring 7227, so that the bearing lower shell 841 and the fan base 7 are relatively fixed. The bottom of the rotating support frame 82 is provided with a third step surface 828, and the third step surface 828 is clamped with the bearing upper shell 842. Specifically, the third step surface 828 at the bottom of the rotating support frame 82 is formed by inwardly recessing from the inner wall of the support frame housing 821, after the third step surface 828 is clamped with the bearing upper housing 842, the third step surface 828 and the upper surface of the bearing upper housing 842 and the inner surface of the bearing upper housing 842 are both abutted against each other, the bearing 84 bears the weight of the rotating support frame 82 and the components mounted on the rotating support frame 82, and the rotating assembly 8 and the nozzle assembly 100 can rotate smoothly when rotating relative to the fan base 7.
The bladeless fan further comprises a rotation sensing assembly for detecting a rotation state of the nozzle assembly 100 relative to the fan base 7, wherein the rotation state comprises parameters such as a rotation direction and a rotation position. Referring to fig. 11 and 12, the steering sensing assembly includes a first magnet 851 disposed in the fourth receiving groove 816 of the ring gear 812, and a centering hall PCBA plate 852 and a limiting hall PCBA plate 853 disposed on the rotary supporting frame 82, and specifically, the centering hall PCBA plate 852 and the limiting hall PCBA plate 853 are respectively mounted in two second receiving cavities 825 of the rotary supporting frame 82. It should be noted that the hall sensors mounted on the rotating support frame 82 are not limited to the centering hall PCBA board 852 and the limiting hall PCBA board 853, and may be other sensors, which are not specifically limited herein. Indeed, in other embodiments, the first magnet 851 may be disposed on the rotary support bracket 82, while the centering hall PCBA plate 852 and the limit hall PCBA plate 853 are disposed on the ring gear 812 or the fan base 7, which is not particularly limited herein, depending on the actual situation. When the rotating support bracket 82 rotates relative to the ring gear 812, the centering hall PCBA plate 852 cooperates with the first magnet 851 to determine the position of rotation of the rotating support bracket 82, and the limit hall PCBA plate 853 cooperates with the first magnet 851 to determine the maximum limit position of rotation of the rotating support bracket 82, thereby determining the rotational orientation and rotational angle of the rotating support bracket 82, to obtain the position and rotational angle of the confirmation nozzle during rotation of the nozzle assembly 100, to improve the rotational accuracy of the nozzle assembly 100.
Referring to fig. 11 and 12, and fig. 17, the bladeless fan further includes a power supply assembly for supplying power to the rotating nozzle assembly 100 and a motor for driving the nozzle assembly 100 to rotate, the power supply assembly includes a conductive assembly having a contact 861 and a conductive ring 862 electrically contacting an end surface of the contact 861, the conductive assembly may be disposed on one of the fan base 7 and the rotating assembly 8, the conductive ring 862 may be disposed on the other of the fan base 7 and the rotating assembly 8, and the conductive assembly and the conductive ring 862 are disposed at specific positions, which is not limited in this respect. In this embodiment, a conductive member having contacts 861 is disposed on the fan base 7 and a conductive ring 862 is disposed on the rotating member 8.
The conductive ring 862 has an open annular structure and an L-shaped cross section, the conductive ring 862 may be fixed to the rotating assembly 8 by sleeving the conductive assembly 8, a plurality of protruding bars 863 are formed on the conductive ring 862, the protruding bars 863 protrude upwards from the conductive ring 862, and the protruding bars 863 and the conductive ring 862 are integrally formed, but not limited thereto, the protruding bars 863 may also be fixed to the conductive ring 862 by fastening with screws, gluing, or the like. The conducting ring 862 comprises a positive conducting ring 862 and a negative conducting ring 862, the structures of the positive conducting ring 862 and the negative conducting ring 862 are completely the same, one of the positive conducting ring 862 and the negative conducting ring 862 is disposed on the rotating support frame 82, the rotating assembly 8 further comprises a conducting ring fixing frame 87 disposed on the rotating support frame 82, and the other of the positive conducting ring 862 and the negative conducting ring 862 is disposed on the conducting ring fixing frame 87. Specifically, the conducting ring fixing frame 87 is sleeved on the rotating support frame 82, and the conducting ring fixing frame 87 is fixed on the rotating support frame 82 through a locking piece (not shown), a first locking hole 871 and a second locking hole 829 matched with the locking piece are respectively formed on the conducting ring fixing frame 87 and the rotating support frame 82, the first locking hole 871 and the second locking hole 829 are correspondingly arranged, the locking piece can be a screw, the first locking hole 871 and the second locking hole 829 are threaded holes matched with the screw in a threaded manner, but the fixing modes of the conducting ring fixing frame 87 and the rotating support frame 82 are not limited to this, which is not listed one by one. The conducting ring fixing frame 87 is circumferentially provided with a plurality of fifth receiving grooves 872 matched with the protruding strips 863, when the conducting ring 862 is fixed on the conducting ring fixing frame 87, the conducting ring 862 is attached to the side surface and the bottom surface of the conducting ring fixing frame 87, and the protruding strips 863 are inserted into the corresponding fifth receiving grooves 872 so as to fix the conducting ring 862 on the conducting ring fixing frame 87. Similarly, a plurality of sixth receiving slots 8261 are circumferentially formed in the support frame flange 826 of the rotary support frame 82 and are engaged with the protrusions 863, when the conductive ring 862 is fixed to the rotary support frame 82, the conductive ring 862 fits to the side and bottom surfaces of the support frame flange 826, and the protrusions 863 are inserted into the corresponding sixth receiving slots 8261 to fix the conductive ring 862 to the rotary support frame 82, where the fixing manner of the conductive ring 862 is not specifically limited. One face of the positive conducting ring 862 and the negative conducting ring 862 face the conducting component disposed on the fan base 7.
Referring to fig. 5, the conductive assembly includes a conductive holder 864 fixed on the fan base 7, and a conductive sheet disposed on the conductive holder 864, wherein the conductive sheet includes a resilient arm 8651 disposed on the conductive holder 864, and a contact 861 disposed on the resilient arm 8651. The contact 861 comprises an anode contact 861 and a cathode contact 861, the anode conducting ring 862 is in electrical contact with the end face of the anode contact 861, the cathode conducting ring 862 is in electrical contact with the end face of the cathode contact 861, when the rotating support frame 82 rotates relative to the fan base 7, the conducting ring 862 has an end face always in contact with the contact 861, and the power supply method is convenient and simple in structure. The elastic arm 8651 includes a first end fixed to the conductive holder 864 and a second end to which the contact 861 is fixed. The resilient arm 8651 is fixed at a first end and is not fixed at a second end, the resilient arm 8651 is of a U-shaped structure, the resilient arm 8651 has an upward bent portion 8652 at the first end to facilitate the fixing of the resilient arm 8651, and the second end of the resilient arm 8651 is bent upward relative to the first end to apply an upward force to the contact 861 fixed on the second end, so that the contact 861 can move in the axial direction relative to the fan base 7.
Referring to fig. 6, the fan base 7 is provided with a seventh receiving groove 723 located above the receiving groove 78, wherein the seventh receiving groove 723 is communicated with one of the first receiving grooves 787 and located above the first receiving groove 787, the conductive fixing seat 864 is fixed in the seventh receiving groove 723 and located above the magnet block 795, the conductive fixing seat 864 and the fan base 7 are fixed by a fixing member (not shown), the conductive fixing seat 864 and the fan base 7 are provided with third fixing holes 866 matched with the fixing member, the fixing member may be a screw, the third fixing holes 866 are screw holes, and the conductive fixing seat 864 and the fan base 7 are fixed by screw-thread matching of the screw and the screw holes. Indeed, in other embodiments, the fixing manner of the conductive fixing seat 864 and the fan base 7 is other, such as a clip connection, and the number and distribution positions of the third fixing holes 866 are not limited herein.
Referring to fig. 17, a first concave hole 8641 is disposed on the conductive holder 864, a second end of the elastic arm 8651 traverses the first concave hole 8641, and the contact 861 is located above the first concave hole 8641, specifically, the conductive holder 864 is of a step-like structure and has a first plane 8642 and a second plane 8643 located below the first plane 8642, one of the positive contact 861 and the negative contact 861 is disposed on the first plane 8642, and the other of the positive contact 861 and the negative contact 861 is disposed on the second plane 8643, which is not limited in this respect. Each of the first plane 8642 and the second plane 8643 has a first concave hole 8641, and further, on one side of the first concave hole 8641, each of the first plane 8642 and the second plane 8643 has a mounting hole 8644 formed therein, a bent portion 8652 of the elastic arm 8651 is fixed to a side wall of the mounting hole 8644, and the elastic arm 8651 is located below the first plane 8642 or the second plane 8643 with a second end facing the first concave hole 8641 and passing through the first concave hole 8641, and the contact 861 is located on an upper surface of the second end and facing the conductive ring 862. When the rotating assembly 8 is mounted on the fan base 7, the positive conducting ring 862 and the negative conducting ring 862 will contact with the corresponding positive contact 861 and the negative contact 861, and the positive conducting ring 862 and the negative conducting ring 862 will apply a force to move the positive contact 861 and the negative contact 861 downward, but the elastic arm 8651 applies a force to move the contact 861 upward, so that the conducting ring 862 is in closer contact with the contact 861, and the stability of supplying power to the rotating nozzle assembly 100 and the like is strong.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A fan base is characterized in that a nozzle assembly is arranged on the fan base, a transmission assembly is arranged between the fan base and the nozzle assembly, the nozzle assembly rotates relative to the fan base through the transmission assembly, the transmission assembly comprises a ring gear and a pinion meshed with the ring gear, the ring gear is arranged on one of the fan base and the nozzle assembly, and the pinion is arranged on the other of the fan base and the nozzle assembly.
2. The fan base of claim 1, wherein said ring gear is fixed to said fan base and said pinion gear is disposed on said nozzle assembly.
3. The fan base according to claim 2, wherein the fan base is provided with at least one locking groove, the ring gear is provided with a locking block matched with the locking groove, and the locking block is inserted into the locking groove at a corresponding position to fix the ring gear on the fan base.
4. The fan base as claimed in claim 3, wherein the latch is formed extending downward from the ring gear.
5. The fan base as claimed in claim 3, wherein the number of the latch is four, and four of the latches are arranged at equal intervals in a circumferential direction.
6. The fan base of claim 2, wherein a rotational support is disposed between the fan base and the nozzle assembly, the pinion gear being disposed on the rotational support.
7. The fan base as claimed in claim 6, wherein the ring gear is provided with a groove, the groove is provided with a magnet, and the rotary support frame is provided with a centering Hall PCBA plate and a limiting Hall PCBA plate which are arranged opposite to the magnet.
8. The fan base as claimed in claim 7, wherein a driving member for supplying power to the transmission assembly is further provided to the nozzle assembly.
9. The fan base of claim 8, wherein said drive member is secured to said rotating support frame.
10. The fan base as claimed in claim 9, wherein the driving member is a motor having an output shaft, and the pinion gear is fitted over the output shaft.
CN202021308048.6U 2020-07-06 2020-07-06 Fan base Active CN212838528U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021308048.6U CN212838528U (en) 2020-07-06 2020-07-06 Fan base

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021308048.6U CN212838528U (en) 2020-07-06 2020-07-06 Fan base

Publications (1)

Publication Number Publication Date
CN212838528U true CN212838528U (en) 2021-03-30

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021308048.6U Active CN212838528U (en) 2020-07-06 2020-07-06 Fan base

Country Status (1)

Country Link
CN (1) CN212838528U (en)

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