CN114794701B - Air blower based on hollow cup high-speed motor and use method thereof - Google Patents

Abstract

The invention discloses a blower based on a high-speed motor of a hollow cup, which comprises a blower main body, an air outlet end and an electric heating wire, wherein the air outlet end is arranged on the right side of the blower main body, a threaded connection part is arranged on the outer surface of the air outlet end, the electric heating wire is arranged in the blower main body, an air port independent adjusting mechanism is arranged on the right side of the air outlet end, an accompanying-rotation cleaning mechanism is arranged on the right side of the air port independent adjusting mechanism, an active auxiliary radiating mechanism is arranged on the inner wall of the blower main body, and a user can adjust the air outlet channel of the blower main body quickly by means of the cooperation of a driven bar, an adjusting cavity plate and a fold elastic sheet, so that the user can adjust the air outlet size of the blower main body automatically and conveniently when using the blower main body, and experience and controllability of the blower main body are further improved.

Description

Air blower based on hollow cup high-speed motor and use method thereof

Technical Field

The invention relates to the field of blowers, in particular to a blower based on a high-speed motor of a hollow cup and a using method thereof.

Background

The hollow cup motor belongs to a direct-current permanent magnet servo and control motor, can be classified as a micro-special motor, has outstanding energy-saving property, sensitive and convenient control property and stable operation property, and has obvious technical advancement as a high-efficiency energy conversion device.

At present, a blower based on a high-speed hollow cup motor is popular because the blower is small in size and large in air volume and wind force, and in the using process of the blower, the air outlet of the blower is difficult to be adjusted conveniently and fast because the air outlets of the conventional multiple blowers are fixed or detachable and replaceable, so that the blower is difficult to be suitable for some special use occasions, and the detachable and replaceable blower based on the high-speed hollow cup motor is complicated in the using process.

Disclosure of Invention

In order to solve the technical problems, the technical scheme solves the technical problems that the caliber of an air outlet of the conventional blower cannot be well adjusted and the like in the prior art.

In order to achieve the above purpose, the invention adopts the following technical scheme: the air blower based on the hollow cup high-speed motor comprises a blower main body, an air outlet end and an electric heating wire, wherein the air outlet end is arranged on the right side of the blower main body, a threaded connection part is arranged on the outer surface of the air outlet end, the electric heating wire is arranged in the blower main body, an air outlet automatic regulating mechanism is arranged on the right side of the air outlet end, an accompanying rotation cleaning mechanism is arranged on the right side of the air outlet automatic regulating mechanism, an active auxiliary heat dissipation mechanism is arranged on the inner wall of the blower main body, a convenient loading and unloading connecting mechanism is arranged on the left side of the air outlet automatic regulating mechanism, and the air outlet automatic regulating mechanism is fixedly arranged outside the right side of the air outlet end through the convenient loading and unloading connecting mechanism;

the automatic regulation mechanism of wind gap includes the air duct, hinders dirt net, cross spout frame, square hinge ring, driven strip, regulation chamber board, fold elastic sheet, initiative group strip, circular arc spout one, restriction gear, rack, the right side outside of air-out end is provided with the air duct, and the right side of air duct is installed and is hindered the dirt net, the inside fixedly connected with cross spout frame of air duct, and the surface of cross spout frame evenly is provided with square hinge ring to square hinge ring's outer fringe evenly is provided with the pin joint, square hinge ring inboard pin joint articulates and is connected with driven strip, driven strip is provided with the articulated portion of bending near one side of cross spout frame centre of a circle department, and bends articulated portion fixedly connected with initiative group strip, the upper end of initiative group strip runs through and extends to the upper surface of air duct and has seted up circular arc spout one, the fold fixedly connected with in the centre of a circle department of cross spout frame of driven strip, the other end fixedly connected with regulation chamber board of driven strip, and the inside sliding connection of regulation chamber board has the elastic sheet.

Preferably, the square hinge ring is uniformly provided with a plurality of groups, and the right side of the square hinge ring is in sliding connection with the surface of the cross chute frame.

Preferably, the adjusting cavity plate is of an arc cavity structure, the adjusting cavity plates are uniformly arranged in multiple groups, and the hinging points on the inner side of the right end of the adjusting cavity plate are fixedly connected to the outer surface of the adjusting cavity plate.

Preferably, the driving stirring bar is slidably connected to the inside of the first arc chute, a limiting gear is rotatably connected to the left surface of the upper end of the driving stirring bar, a toothed rail is uniformly arranged on the surface, below the limiting gear, of the air duct, and the limiting gear is meshed with the toothed rail.

Preferably, the co-rotation cleaning mechanism comprises a driving gear, a rotation cleaning plate and tooth grooves, the tooth grooves are uniformly formed in the inner side surface of the right end of the air duct, the rotation cleaning plate is arranged on the left side of the dust blocking net, the driving gear is fixedly connected to the bottom of the left side of the rotation cleaning plate, a bending rod is arranged on the left side surface of the driving gear and is rotationally connected to the edge of the driving gear, the upper end of the bending rod is fixedly connected to the right side surface of the adjusting cavity plate, and the driving gear is meshed with the tooth grooves.

Preferably, the initiative auxiliary heat dissipation mechanism comprises a circular ring cavity, a sealing ring, a second circular arc chute, a connecting slide bar, a main swivel and a first drain hole, wherein the circular ring cavity is fixedly connected with the inner wall of the blower main body, the circular ring cavity is positioned at the outer edge of the heating wire, the sealing ring is rotatably connected with the inner wall of the circular ring cavity, the second circular arc chute is arranged above the sealing ring in a penetrating mode, the connecting slide bar is slidably connected with the front side of the second circular arc chute, the inner end of the connecting slide bar is fixedly connected with the front side surface of the sealing ring, the main swivel is fixedly connected with the outer end of the connecting slide bar, and the main swivel is rotatably connected with the outer surface of the blower main body.

Preferably, the annular cavity is of a circular cavity structure, the first leakage holes are uniformly formed in the lower portion of the annular cavity, and the second leakage holes are uniformly formed in the upper portion of the sealing ring.

Preferably, the convenient loading and unloading coupling mechanism includes spring groove, block ball, gomphosis groove, the spring groove has evenly been seted up to the left side inner wall of air duct, the spring groove includes mounting groove and spring, and the inboard in spring groove all is provided with the block ball, the one end fixed connection of spring in the one end of block ball, the gomphosis groove has evenly been seted up on the right side surface of air-out end, gomphosis groove and the mutual adaptation of block ball.

The using method of the blower based on the hollow cup high-speed motor comprises the following steps:

s1: air outlet diameter adjusting step

Step one: firstly, an active poking bar at the upper part of a handheld air duct slides along the track of a first arc chute and simultaneously drives a limiting gear to rotate in a meshed manner along a toothed rail;

step two: then, the driving shifting belt moves and slides to drive the bending hinge part on one side of the driven belt to rotate, and the other side of the driven belt is driven to drive the hinge points on the inner sides of the four groups of square hinge rings to synchronously slide along the limited track of the cross chute frame;

step three: finally, the inner side hinge points of the square hinge rings synchronously drive the adjusting cavity plates of each group to synchronously slide, and the folding elastic sheets positioned in the inner cavities of the adjusting cavity plates are driven to slide in the sliding process of the adjusting cavity plates.

S2: collaborative auxiliary ash removal step

Step one: firstly, the adjusting cavity plate is in a trend of sliding up and down, so that the driving gear is driven to rotate along the track of the tooth slot;

step two: then, the driving gear drives the rotary cleaning plate to rotate, and the surface of the dust blocking net is cleaned in an auxiliary mode through rotation of the rotary cleaning plate.

S3: active auxiliary heat dissipation step

Step one: firstly, when the heating temperature of the heating wire is too high, a detection system in the main body of the blower automatically cuts off the power of the main body of the blower;

step two: then, a user drives the connecting slide bar to slide along the track of the arc chute II by rotating the main rotating ring, so as to drive the drain hole II above the sealing ring to gradually rotate to the drain hole I below the circular ring cavity;

step three: finally, after the first and second vent holes coincide, the dry ice inside the circular cavity is caused to fully contact with the outside air, so that a large amount of heat is absorbed in the process of sublimation of the dry ice.

Compared with the prior art, the invention has the beneficial effects that:

(1) According to the invention, the air outlet automatic adjusting mechanism is arranged, so that a user can automatically and conveniently adjust the air outlet of the main body of the blower when using the main body of the blower by independently poking the driving poking bar and utilizing the cooperation of the driven bar, the adjusting cavity plate and the fold elastic sheet, and the air outlet channel of the main body of the blower is indirectly and rapidly adjusted, so that the experience and controllability of the user when using the main body of the blower are further improved;

(2) According to the invention, the limiting gear and the toothed rail are arranged, so that the meshing property between the gear teeth is utilized, the stability of the active shifting bar during sliding is ensured, and the active shifting bar is enabled to be positioned at an adjusted position under the condition that the active shifting bar is not involved by external force and the meshing force of the limiting gear and the toothed rail is limited;

(3) According to the invention, the co-rotation cleaning mechanism is arranged, and after the rotation cleaning plate rotates, the soft brush is caused to automatically scrape the left side surface of the dust blocking net in a rotating manner, so that dust and impurities adhered to the surface of the dust blocking net are swept down, the normal air output of the blower main body can be ensured, and the condition that the air output of the blower main body is reduced due to excessive blockage of the dust and impurities is reduced;

(4) According to the invention, the active auxiliary heat dissipation mechanism is arranged, the main swivel drives the connecting slide bar to slide along the track of the arc chute II, so that the vent II above the sealing ring is driven to gradually rotate to the vent I below the circular ring cavity, and the dry ice inside the circular ring cavity is fully contacted with the external air, so that a large amount of surrounding heat is absorbed in the process of sublimation of the dry ice, namely, the heating wire can be cooled and dissipated effectively in time;

(5) According to the invention, the convenient assembling and disassembling connecting mechanism is arranged, when a user needs, the air duct can be conveniently and rapidly installed by aiming the air duct at the cross chute frame on the air outlet end and pressing and embedding the air duct to the left side, and further, the air outlet automatic adjusting mechanism can be freely and selectively installed and used under the condition of the user needs, so that the operability of the user when using the blower main body is improved.

Drawings

FIG. 1 is a schematic front perspective view of the present invention;

FIG. 2 is a schematic diagram of a right-side view of a duct according to the present invention;

FIG. 3 is a schematic diagram of a left-side view of a duct according to the present invention;

FIG. 4 is a schematic view of a partially enlarged perspective structure of the present invention at A in FIG. 3;

FIG. 5 is a partially enlarged perspective view of the structure of the present invention at B in FIG. 1;

FIG. 6 is a schematic view of a partial perspective view of a driving gear according to the present invention;

FIG. 7 is a schematic view of a partial perspective view of the annular chamber of the present invention;

FIG. 8 is a schematic view of a partial perspective structure of an active auxiliary heat dissipation mechanism according to the present invention;

FIG. 9 is a partially enlarged perspective view of the structure of FIG. 3C according to the present invention;

fig. 10 is a schematic view of a partial perspective structure of a fitting groove in the present invention.

The reference numerals in the figures are:

1. a blower main body; 11. an air outlet end; 12. heating wires;

2. an air port autonomous adjusting mechanism; 21. an air duct; 22. dust blocking net; 23. a cross chute frame; 24. square hinge ring; 25. a driven bar; 26. adjusting the cavity plate; 27. a pleated elastic sheet; 28. an active shifting bar; 29. arc chute I; 210. limiting the gear; 211. a toothed rail;

3. a co-rotation cleaning mechanism; 31. a drive gear; 32. rotating the cleaning plate; 33. tooth slots;

4. an active auxiliary heat dissipation mechanism; 41. a circular ring cavity; 42. a seal ring; 43. arc chute II; 44. connecting a slide bar; 45. a main swivel; 46. a first hole is released; 47. a second hole is formed;

5. the connecting mechanism is convenient to assemble and disassemble; 51. a spring groove; 52. a snap ball; 53. and a fitting groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one: referring to fig. 2 to 6, the air blower based on the high-speed motor of the hollow cup comprises a blower main body 1, an air outlet end 11 and an electric heating wire 12, wherein the air outlet end 11 is arranged on the right side of the blower main body 1, a threaded connection part is arranged on the outer surface of the air outlet end 11, the electric heating wire 12 is arranged in the blower main body 1, an air opening automatic adjusting mechanism 2 is arranged on the right side of the air outlet end 11, the air opening automatic adjusting mechanism 2 comprises an air duct 21, a dust blocking net 22, a cross chute frame 23, a square hinge ring 24, a driven bar 25, an adjusting cavity plate 26, a fold elastic sheet 27, an active poking bar 28, a circular arc chute 29, a limiting gear 210 and a toothed rail 211, the air duct 21 is arranged on the right side outside of the air outlet end 11, the dust blocking net 22 is arranged on the right side of the air duct 21, the cross chute frame 23 is fixedly connected in the air duct 21, the surface of the cross chute frame 23 is uniformly provided with square hinge rings 24, the square hinge rings 24 are uniformly provided with a plurality of groups, the right side of the square hinge rings 24 is connected to the surface of the cross chute frame 23, the outer edge of the square hinge rings 24 is uniformly provided with hinge points, the hinge points on the inner side of the square hinge rings 24 are hinged with driven bars 25, one side of the driven bars 25, which is close to the center of the cross chute frame 23, is provided with a bending hinge part, the bending hinge part is fixedly connected with an active stirring bar 28, the active stirring bar 28 is slidingly connected to the inside of a circular arc chute 29, the left surface of the upper end of the active stirring bar 28 is rotationally connected with a limiting gear 210, a toothed rail 211 is uniformly arranged on the surface of the air duct 21 below the limiting gear 210, the limiting gear 210 is meshed with the toothed rail 211, the upper end of the active stirring bar 28 extends to the upper surface of the air duct 21 in a penetrating way, the circular arc chute 29 is formed, one end of the driven bar 25 is fixedly connected to the center of the cross chute frame 23, the other end of the driven bar 25 is fixedly connected with an adjusting cavity plate 26, the adjusting cavity plate 26 is of an arc cavity structure, the adjusting cavity plates 26 are uniformly arranged in multiple groups, the hinging points on the inner side of the right end of the adjusting cavity plate 26 are fixedly connected to the outer surface of the adjusting cavity plate 26, and the inner side of the adjusting cavity plate 26 is slidably connected with a folding elastic sheet 27.

Working principle: in use, as shown in fig. 2 to 6, when the user uses the blower main body 1, the user can slide along the track of the arc chute one 29 by holding the driving poking bar 28 on the upper part of the air duct 21, and simultaneously drives the limiting gear 210 to rotate along the toothed rail 211 in a meshing manner, which is used for: by utilizing the meshing property between gear teeth, the stability of the driving shifting bar 28 during sliding is ensured, the driving shifting bar 28 can be caused to be positioned at an adjusted position under the meshing force of the limiting gear 210 and the toothed rail 211 under the condition that the driving shifting bar 28 is not involved by external force, then, as shown in fig. 4, the driving shifting bar 28 drives the sliding to drive the bending hinge part on one side of the driven bar 25 to rotate, as shown in fig. 3, and then drives the other side of the driven bar 25 to drive the hinge points on the inner sides of four groups of square hinge rings 24 to synchronously slide along the limiting track of the cross chute frame 23, wherein the four groups of square hinge rings 24 are as follows: four groups of square hinging rings 24 are arranged at the top high points around the cross chute frame 23, other groups of square hinging rings 24 are hinged with the four groups of square hinging rings 24, meanwhile, the inner hinging points of the four groups of square hinging rings 24 synchronously drive the groups of adjusting cavity plates 26 to synchronously slide, the corrugated elastic sheets 27 positioned in the inner cavities of the adjusting cavity plates 26 are driven to slide in the sliding process of the adjusting cavity plates 26, the corrugated elastic sheets 27 are combined and connected to form a cylindrical closed-loop circular cavity, the corrugated elastic sheets are used as an air outlet channel of the main body 1 of the blower, and in a comprehensive way, a user can stir the driving stirring bar 28 independently, and the driven bar 25, the adjusting cavity plates 26 and the corrugated elastic sheets 27 are utilized to regulate the air outlet channel of the main body 1 of the blower indirectly, so that the user can regulate the air outlet size of the main body 1 of the blower independently and conveniently when using the main body 1 of the blower, and further improve the experience and controllability of the blower when using the main body 1 of the blower.

Embodiment two: referring to fig. 1 and fig. 7 to fig. 8, a hollow cup high-speed motor-based blower comprises a blower main body 1, an air outlet end 11 and an electric heating wire 12, wherein the air outlet end 11 is arranged on the right side of the blower main body 1, a threaded connection part is arranged on the outer surface of the air outlet end 11, the electric heating wire 12 is arranged in the blower main body 1, an active auxiliary heat dissipation mechanism 4 is arranged on the inner wall of the blower main body 1, the active auxiliary heat dissipation mechanism 4 comprises a circular ring cavity 41, a sealing ring 42, a circular arc chute II 43, a connecting slide 44, a main rotating ring 45 and a drain I46, the circular ring cavity 41 is of a circular cavity structure, the drain I46 is uniformly arranged below the circular ring cavity 41, the drain II 47 is uniformly arranged above the sealing ring 42, the circular ring cavity 41 is arranged on the outer edge of the electric heating wire 12, the inner wall of the circular ring cavity 41 is rotationally connected with the sealing ring 42, the circular arc chute II 43 is arranged above the sealing ring 42 in a penetrating way, the front side of the circular arc chute II 43 is slidingly connected with the connecting slide 44, the inner end of the connecting slide 44 is fixedly connected with the circular ring cavity 41, and the circular ring 45 is fixedly connected with the outer surface of the main body 45, and the circular ring 45 is fixedly connected with the main body.

Working principle: when in use, as shown in fig. 7, the heating wire 12 is installed in the blower main body 1, and the periphery of the heating wire 12 and the inner wall located in the blower main body 1 are provided with the ring cavity 41, solid carbon dioxide, namely dry ice, is installed in the ring cavity 41, as shown in fig. 8, the sealing performance of the sealing ring 42 attached to the inner wall of the ring cavity 41 is utilized in this state, the ring cavity 41 can be in a sealed space, namely, the dry ice in the ring cavity 41 can not sublimate, and when the blower main body 1 is used for a long time, the heating wire 12 is excessively high in heating temperature, then the detecting system in the blower main body 1 can automatically cut off the power of the blower main body 1, as shown in fig. 1 and 8, at this moment, the user can drive the connecting slide bar 44 to slide along the track of the circular arc chute II 43 through rotating the main rotating ring 45, and then the release hole II 47 above the sealing ring 42 is gradually rotated to the release hole I46 below the ring cavity 41, namely, the release I is overlapped with the release hole II, and the heating wire is not heated in the ring cavity 47, and the cooling mode can be more convenient for the cooling air is more effective than the conventional heating wire 1, and the cooling mode can be more effective than the heating wire 1 in the cooling mode is used for cooling the blower main body 1, and the cooling mode can be more effective in the cooling mode is more than the cooling mode is more convenient for the cooling mode is achieved in the inner ring cavity 1.

Embodiment III: referring to fig. 1 to 10, a blower based on a high-speed hollow-cup motor comprises a blower main body 1, an air outlet end 11 and an electric heating wire 12, wherein the air outlet end 11 is arranged on the right side of the blower main body 1, a threaded connection part is arranged on the outer surface of the air outlet end 11, a user can conveniently dock the blower main body 1 with other matched components through the arranged threaded connection part, the electric heating wire 12 is arranged in the blower main body 1, and the electric heating wire 12 is schematically a heating component in the blower of the high-speed hollow-cup motor;

the right side of the air outlet end 11 is provided with an air outlet automatic regulating mechanism 2, the air outlet automatic regulating mechanism 2 comprises an air duct 21, a dust blocking net 22, a cross chute frame 23, a square articulated ring 24, a driven bar 25, a regulating cavity plate 26, a fold elastic sheet 27, a driving poking bar 28, a circular arc chute 29, a limiting gear 210 and a toothed rail 211, the air duct 21 is arranged outside the right side of the air outlet end 11, the right side of the air duct 21 is provided with the dust blocking net 22, the cross chute frame 23 is fixedly connected inside the air duct 21, the surface of the cross chute frame 23 is uniformly provided with a square articulated ring 24, the right sides of the square articulated ring 24 are uniformly provided with a plurality of groups, the right sides of the square articulated ring 24 are in sliding connection with the surface of the cross chute frame 23, the outer edge of the square articulated ring 24 is uniformly provided with a hinge point, the hinge point inside the square articulated ring 24 is connected with the driven bar 25, the driven bar 25 is provided with a bending hinge part near one side of the center of the cross chute frame 23, the bending hinge part is fixedly connected with a driving poking bar 28, the driving poking bar 28 is in sliding connection with the inside of a circular arc chute I29, the left surface of the upper end of the driving poking bar 28 is rotationally connected with a limiting gear 210, the surface of the limiting gear 210, which is positioned below the air duct 21, is uniformly provided with a toothed rail 211, the limiting gear 210 is meshed with the toothed rail 211, the upper end of the driving poking bar 28 penetrates through the upper surface which extends to the air duct 21 and is provided with the circular arc chute I29, one end of the driven bar 25 is fixedly connected with the center of the cross chute frame 23, the other end of the driven bar 25 is fixedly connected with an adjusting cavity plate 26, the adjusting cavity plate 26 is in a circular arc cavity structure, the adjusting cavity plate 26 is uniformly provided with a plurality of groups, and the hinge points on the inner side of the right end of the adjusting cavity plate 26 are fixedly connected with the outer surface of the adjusting cavity plate 26, and the inside of the adjusting cavity plate 26 is connected with a fold elastic sheet 27 in a sliding way;

the right side of the automatic tuyere adjusting mechanism 2 is provided with a co-rotating cleaning mechanism 3, the co-rotating cleaning mechanism 3 comprises a driving gear 31, a rotating cleaning plate 32 and tooth grooves 33, the inner side surface of the right end of the air duct 21 is uniformly provided with the tooth grooves 33, the left side of the dust blocking net 22 is provided with the rotating cleaning plate 32, the bottom of the left side of the rotating cleaning plate 32 is fixedly connected with the driving gear 31, the left side surface of the driving gear 31 is provided with a bending rod, the bending rod is rotationally connected with the edge of the driving gear 31, the upper end of the bending rod is fixedly connected with the right side surface of the adjusting cavity plate 26, and the driving gear 31 and the tooth grooves 33 are meshed with each other;

the inner wall of the blower main body 1 is provided with an active auxiliary heat dissipation mechanism 4, the active auxiliary heat dissipation mechanism 4 comprises a circular ring cavity 41, a sealing ring 42, a circular arc chute II 43, a connecting slide bar 44, a main rotating ring 45 and a first leakage hole 46, the inner wall of the blower main body 1 is fixedly connected with the circular ring cavity 41, the circular ring cavity 41 is of a circular cavity structure, the first leakage hole 46 is uniformly formed below the circular ring cavity 41, the second leakage hole 47 is uniformly formed above the sealing ring 42, the circular ring cavity 41 is positioned at the outer edge of the heating wire 12, the inner wall of the circular ring cavity 41 is rotatably connected with the sealing ring 42, the circular arc chute II 43 is penetrated above the sealing ring 42, the front side of the circular arc chute II 43 is slidably connected with the connecting slide bar 44, the inner end of the connecting slide bar 44 is fixedly connected with the front side surface of the sealing ring 42, the outer end of the connecting slide bar 44 is fixedly connected with the main rotating ring 45, and the main rotating ring 45 is rotatably connected with the outer surface of the blower main body 1;

the left side that is located wind gap autonomous adjustment mechanism 2 is provided with convenient loading and unloading coupling mechanism 5, convenient loading and unloading coupling mechanism 5 includes spring groove 51, block ball 52, gomphosis groove 53, spring groove 51 has evenly been seted up to the left side inner wall of air duct 21, spring groove 51 includes mounting groove and spring, and the inboard of spring groove 51 all is provided with block ball 52, the one end fixed connection of spring is in the one end of block ball 52, gomphosis groove 53 has evenly been seted up on the right side surface of air-out end 11, gomphosis groove 53 and the mutual adaptation of block ball 52, wind gap autonomous adjustment mechanism 2 is outside in the right side of air-out end 11 through convenient loading and unloading coupling mechanism 5 fixed mounting.

The invention has the complete flow and working principle:

the process is as follows: first, when the user uses the blower main body 1, as shown in fig. 2 to 6, the user can slide along the track of the arc chute one 29 by holding the active dial 28 on the upper portion of the air duct 21, and at the same time, drives the limiting gear 210 to rotate along the rack 211 in a meshing manner, which is used for: by utilizing the meshing property between gear teeth, the stability of the driving shifting bar 28 during sliding is ensured, the driving shifting bar 28 can be caused to be positioned at an adjusted position under the meshing force of the limiting gear 210 and the toothed rail 211 under the condition that the driving shifting bar 28 is not involved by external force, then, as shown in fig. 4, the driving shifting bar 28 drives the sliding to drive the bending hinge part on one side of the driven bar 25 to rotate, as shown in fig. 3, and then drives the other side of the driven bar 25 to drive the hinge points on the inner sides of four groups of square hinge rings 24 to synchronously slide along the limiting track of the cross chute frame 23, wherein the four groups of square hinge rings 24 are as follows: four groups of square hinging rings 24 are arranged at the top high points around the cross chute frame 23, other groups of square hinging rings 24 are hinged with the four groups of square hinging rings 24, meanwhile, the inner hinging points of the four groups of square hinging rings 24 synchronously drive the groups of adjusting cavity plates 26 to synchronously slide, the corrugated elastic sheets 27 positioned in the inner cavities of the adjusting cavity plates 26 are driven to slide in the sliding process of the adjusting cavity plates 26, the corrugated elastic sheets 27 are combined and connected to form a cylindrical closed-loop circular cavity, the corrugated elastic sheets are used as an air outlet channel of the main body 1 of the blower, and in a comprehensive way, a user can stir the driving stirring bar 28 independently, and the driven bar 25, the adjusting cavity plates 26 and the corrugated elastic sheets 27 are utilized to regulate the air outlet channel of the main body 1 of the blower indirectly, so that the user can regulate the air outlet size of the main body 1 of the blower independently and conveniently when using the main body 1 of the blower, and further improve the experience and controllability of the blower when using the main body 1 of the blower.

A second flow: when each group of adjusting cavity plates 26 slide, as shown in fig. 6, the right side of the bottom group of adjusting cavity plates 26 is rotatably connected with a driving gear 31 through a bending rod, and when the adjusting cavity plates 26 slide up and down, the driving gear 31 is driven to rotate at this time, and then the driving gear 31 drives a rotary cleaning plate 32 to rotate along the track of the tooth slot 33, the rotary cleaning plate 32 is rotatably connected to the inner wall of the air duct 21, and a soft brush is uniformly arranged on the right side surface of the rotary cleaning plate 32 and is attached to the left side surface of the dust blocking net 22, namely: when the rotary cleaning plate 32 rotates, the soft brush is caused to automatically scrape the left side surface of the dust blocking net 22 in a rotary mode, so that dust and impurities adhered to the surface of the dust blocking net 22 are swept off, the step can be synchronously operated when a user adjusts the air outlet caliber of the blower main body 1, and simultaneously, after the user uses the blower main body 1 and closes the blower main body 1, the air outlet automatic adjusting mechanism 2 drives the co-rotary cleaning mechanism 3 to assist in cleaning the surface of the dust blocking net 22, and the rotary cleaning mode of the rotary cleaning plate 32 can more effectively scrape the dust and the impurities, so that the normal air outlet of the blower main body 1 can be ensured, and the condition that the air outlet of the blower main body 1 is reduced due to excessive blockage of the dust and the impurities is reduced is also realized.

And a process III: as shown in fig. 7, the heating wire 12 is installed in the blower main body 1, and the periphery of the heating wire 12 and the inner wall located in the blower main body 1 are provided with the ring cavity 41, solid carbon dioxide, namely dry ice, is installed in the ring cavity 41, as shown in fig. 8, the ring cavity 41 is enabled to be in a sealed space by means of the tightness of the sealing ring 42 attached to the inner wall of the ring cavity 41 in this state, namely, the dry ice in the ring cavity 41 cannot sublimate at this time, when the blower main body 1 is used for too long time by a user, the heating wire 12 is powered off automatically by the detection system in the blower main body 1 at the moment, as shown in fig. 1 and 8, at this moment, the user can drive the connecting sliding bar 44 to slide along the track of the circular arc chute II 43 by the main rotating ring 45, and further drive the drain hole II 47 above the sealing ring 42 to gradually rotate to the drain hole 46 below the ring cavity 41, namely, the drain hole II is enabled to be overlapped with the drain hole II 47, and the heating wire 12 is enabled to be in a short time, and the cooling effect can be achieved by the heating wire when the dry ice is enabled to be more convenient for cooling the blower main body 1 by the user than the conventional cooling method, and the cooling air can be more convenient to cool down in the main body 1 by the environment than the conventional method.

The process is four: finally, as shown in fig. 9 and 10, when the air duct 21 needs to be detached, a user only needs to hold the air duct 21 to apply an elastic force larger than that of the spring in the spring groove 51, so that the clamping ball 52 is separated from the limit of the embedded groove 53, and can take the air duct 21 off the right side of the air outlet end 11.

Embodiment four: the using method of the blower based on the hollow cup high-speed motor comprises the following steps:

s1: air outlet diameter adjusting step

Step one: firstly, the active poking bar 28 at the upper part of the hand-held air duct 21 slides along the track of the first arc chute 29, and simultaneously drives the limiting gear 210 to rotate in a meshing manner along the toothed rail 211;

step two: then, the driving poking bar 28 drives the bending hinge part at one side of the driven bar 25 to rotate after sliding, and drives the hinge points at the inner sides of the four groups of square hinge rings 24 to synchronously slide along the limited track of the cross chute frame 23 at the other side of the driven bar 25;

step three: finally, the inner hinge points of the square hinge rings 24 synchronously drive the adjusting cavity plates 26 of each group to synchronously slide, and the folding elastic sheets 27 positioned in the inner cavity of the adjusting cavity plates 26 are driven to slide in the sliding process of the adjusting cavity plates 26.

S2: collaborative auxiliary ash removal step

Step one: firstly, the adjusting cavity plate 26 is in a trend of sliding up and down, so as to drive the driving gear 31 to rotate along the track of the tooth slot 33;

step two: then, the driving gear 31 drives the rotary cleaning plate 32 to rotate, and the surface of the dust blocking net 22 is cleaned in an auxiliary way through the rotation of the rotary cleaning plate 32.

S3: active auxiliary heat dissipation step

Step one: firstly, when the heating wire 12 is at too high a heating temperature, the detection system inside the blower main body 1 automatically cuts off the power of the blower main body 1;

step two: then, the user rotates the main swivel 45, and the main swivel 45 drives the connecting slide bar 44 to slide along the track of the arc chute II 43, so as to drive the drain hole II 47 above the sealing ring 42 to gradually rotate to the drain hole I46 below the annular cavity 41;

step three: finally, when the first and second vent holes 46 and 47 coincide, the dry ice inside the annular cavity 41 is caused to fully contact with the outside air, so that a large amount of ambient heat is absorbed in the process of sublimation of the dry ice.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Air-blower based on hollow cup high-speed motor, including hair-dryer main body (1), air-out end (11), heating wire (12), its characterized in that: the novel air blower is characterized in that an air outlet end (11) is arranged on the right side of the blower main body (1), a threaded connection part is arranged on the outer surface of the air outlet end (11), an electric heating wire (12) is arranged in the blower main body (1), an air outlet automatic adjusting mechanism (2) is arranged on the right side of the air outlet end (11), an accompanying rotation cleaning mechanism (3) is arranged on the right side of the air outlet automatic adjusting mechanism (2), an active auxiliary heat dissipation mechanism (4) is arranged on the inner wall of the blower main body (1), a convenient assembling and disassembling connecting mechanism (5) is arranged on the left side of the air outlet automatic adjusting mechanism (2), and the air outlet automatic adjusting mechanism (2) is fixedly arranged on the outer side of the right side of the air outlet end (11) through the convenient assembling and disassembling connecting mechanism (5);

the wind gap is from adjustment mechanism (2) including air duct (21), hinder dirt net (22), cross spout frame (23), square articulated ring (24), driven bar (25), regulation cavity board (26), fold elastic sheet (27), initiative plectrum (28), circular arc spout one (29), limiting gear (210), rack (211), the right side outside of air-out end (11) is provided with air duct (21), and installs on the right side of air duct (21) and hinder dirt net (22), the inside fixedly connected with cross spout frame (23) of air duct (21), and the surface of cross spout frame (23) evenly is provided with square articulated ring (24) to square articulated ring (24)'s outer fringe evenly is provided with the pin joint, square articulated ring (24) inboard pin joint articulates and is connected with driven bar (25), one side that driven bar (25) are close to cross spout frame (23) centre of a circle department is provided with the articulated portion of bending, and articulated portion fixedly connected with initiative plectrum (28), the upper end of initiative plectrum (28) is connected with cross spout frame (21) to the fixed arc chute (25) of a fixed connection of driven bar (25) one end (25) that the surface of cross spout frame (23) is extended and is connected with one end of driven bar (25), the inside of the adjusting cavity plate (26) is connected with a fold elastic sheet (27) in a sliding way;

the driving stirring bar (28) is slidably connected to the inside of the arc chute I (29), a limiting gear (210) is rotatably connected to the left surface of the upper end of the driving stirring bar (28), a toothed rail (211) is uniformly arranged on the surface, below the limiting gear (210), of the air duct (21), and the limiting gear (210) is meshed with the toothed rail (211);

the co-rotation cleaning mechanism (3) comprises a driving gear (31), a rotation cleaning plate (32) and tooth grooves (33), the tooth grooves (33) are uniformly formed in the inner side surface of the right end of the air duct (21), the rotation cleaning plate (32) is arranged on the left side of the dust blocking net (22), the driving gear (31) is fixedly connected to the left bottom of the rotation cleaning plate (32), a bending rod is arranged on the left side surface of the driving gear (31) and is rotationally connected to the edge of the driving gear (31), the upper end of the bending rod is fixedly connected to the right side surface of the adjusting cavity plate (26), and the driving gear (31) and the tooth grooves (33) are meshed with each other;

the initiative auxiliary heat dissipation mechanism (4) comprises a circular ring cavity (41), a sealing ring (42), a circular arc sliding groove II (43), a connecting sliding bar (44), a main rotating ring (45) and a first leakage hole (46), wherein the circular ring cavity (41) is fixedly connected with the inner wall of the blower main body (1), the circular ring cavity (41) is positioned at the outer edge of an electric heating wire (12), the sealing ring (42) is rotatably connected with the inner wall of the circular ring cavity (41), the circular arc sliding groove II (43) is penetrated and arranged above the sealing ring (42), the front side of the circular arc sliding groove II (43) is slidably connected with the connecting sliding bar (44), the inner end of the connecting sliding bar (44) is fixedly connected with the front side surface of the sealing ring (42), the outer end of the connecting sliding bar (44) is fixedly connected with the main rotating ring (45), and the main rotating ring (45) is rotatably connected with the outer surface of the blower main body (1).

The circular cavity (41) is of a circular cavity structure, the first leakage holes (46) are uniformly formed in the lower portion of the circular cavity (41), and the second leakage holes (47) are uniformly formed in the upper portion of the sealing ring (42).

2. A hollow cup based high speed motor blower as claimed in claim 1 wherein: the square hinging rings (24) are uniformly provided with a plurality of groups, and the left side of the square hinging rings (24) is in sliding connection with the surface of the cross chute frame (23).

3. A hollow cup based high speed motor blower as claimed in claim 1 wherein: the adjusting cavity plate (26) is of an arc cavity structure, the adjusting cavity plates (26) are uniformly arranged in multiple groups, and hinge points on the inner side of the left end of the adjusting cavity plate (26) are fixedly connected to the outer surface of the adjusting cavity plate (26).

4. A hollow cup based high speed motor blower as claimed in claim 1 wherein: the convenient loading and unloading coupling mechanism (5) comprises a spring groove (51), a clamping ball (52) and a jogging groove (53), the spring groove (51) is uniformly formed in the left inner wall of the air duct (21), the clamping ball (52) is arranged on the inner side of the spring groove (51), the jogging groove (53) is uniformly formed in the right surface of the air outlet end (11), and the jogging groove (53) and the jogging ball (52) are mutually matched.

5. The use method of the blower based on the hollow cup high-speed motor is characterized in that: the using method is as follows:

s1: air outlet diameter adjusting step

Step one: firstly, the active poking bar (28) at the upper part of the handheld air duct (21) slides along the track of the first arc chute (29) and drives the limiting gear (210) to rotate in a meshing way along the toothed rail (211);

step two: then, the driving poking bar (28) drives the bending hinging part at one side of the driven bar (25) to rotate after sliding, and the other side of the driven bar (25) drives hinging points at the inner sides of the four groups of square hinging rings (24) to synchronously slide along the limited track of the cross chute frame (23);

step three: finally, the inner side hinge points of the square hinge rings (24) synchronously drive all groups of adjusting cavity plates (26) to synchronously slide, and the corrugated elastic sheets (27) positioned in the inner cavities of the adjusting cavity plates (26) are driven to slide in the sliding process of the adjusting cavity plates (26);

s2: collaborative auxiliary ash removal step

Step one: firstly, the adjusting cavity plate (26) is in a trend of sliding up and down, so that the driving gear (31) is driven to rotate along the track of the tooth groove (33);

step two: then, the driving gear (31) drives the rotary cleaning plate (32) to rotate, and the surface of the dust blocking net (22) is cleaned in an auxiliary way through the rotation of the rotary cleaning plate (32);

s3: active auxiliary heat dissipation step

Step one: firstly, when the heating temperature of the heating wire (12) is too high, a detection system in the blower main body (1) automatically cuts off the power of the blower main body (1);

step two: then, a user drives the connecting sliding strip (44) to slide along the track of the arc chute II (43) by rotating the main rotating ring (45), so as to drive the drain hole II (47) above the sealing ring (42) to gradually rotate to the drain hole I (46) below the annular cavity (41);

step three: finally, after the first leakage hole (46) is overlapped with the second leakage hole (47), the dry ice in the circular ring cavity (41) is caused to be fully contacted with the outside air, so that a large amount of surrounding heat is absorbed in the process of sublimation of the dry ice.