CN209750154U - High-speed electric hair drier - Google Patents

Abstract

The utility model relates to the field of household appliances, in particular to a high-speed electric hair drier, which comprises a shell, a handle component connected with the shell, an air inlet, an air outlet, a fan unit used for sucking air flow from the air inlet into the electric hair drier, and a heating unit used for heating the air flow, wherein the fan unit comprises fan blades and a motor used for driving the fan blades to rotate, the motor comprises a stator component and a rotor component, and the motor also comprises a bracket used for supporting the rotor component and the stator component; the rotor assembly is connected with the fan blades and drives the fan blades to rotate; the bracket comprises a first cylinder for supporting the rotor assembly and a second cylinder for accommodating the fan blades; the first cylinder is arranged on one side of the second cylinder and is connected with the second cylinder through a connecting blade; the electric hair drier also comprises a third cylinder body used for fixing the motor, and the third cylinder body and the first cylinder body define an airflow channel.

Description

High-speed electric hair drier

Technical Field

the utility model relates to the field of household appliances, especially, relate to a high-speed hairdryer.

Background

Hair dryers typically include a housing assembly and a handle assembly connected to the housing assembly, and a fan unit for drawing an airflow into the interior of the hair dryer so that the hair dryer can be used to dry or style hair. The fan unit comprises a motor and fan blades driven by the motor to rotate, and the air pressure and the air quantity of air flow blown out by the electric hair drier are influenced by the rotating speed of the motor, so that the hair-drying efficiency is directly influenced. The rotating speed of a motor applied to the hair dryer on the market is mostly about 2 thousands of revolutions, and due to the influence of the performance of the motor, the air volume and the air pressure generated by the hair dryer are limited.

Daison patent CN201621361236.9 discloses a hand-held product using a high-speed motor, and the rotating speed of the motor is 7.5 to 11 thousands of rotations, because the rotating speed of the motor is high, large air volume and air pressure can be generated, but the motor mentioned in the patent has an air duct, the motor is molded by casting, the air duct is inside the motor, the precision is not easy to control, and the design precision of the air duct can influence the air volume and the air pressure of the air flow blown out by the hair dryer.

The motor of using among the prior art is for having the brush motor, by the restriction of motor structure, by the influence of motor structure, set up motor fixed knot in the shell subassembly and construct, in order to make the loss that reduces the inside air current of suction entering hairdryer, be equipped with the wind channel on the motor fixed knot constructs, play the effect of guide air current, the shortcoming of this kind of structure is, motor speed is not high, the motor is bulky, motor fixed knot constructs the volume also great, and then leads to the bulky of hairdryer, portable and accomodate not.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a high-speed electric hair drier.

The technical scheme of the utility model as follows:

A high-speed electric hair drier comprises a shell, a handle assembly connected with the shell, an air inlet, an air outlet, a fan unit used for sucking air flow from the air inlet into the electric hair drier, and a heating unit used for heating the air flow, wherein the fan unit comprises fan blades and a motor used for driving the fan blades to rotate, the motor comprises a stator assembly and a rotor assembly, and the motor further comprises a bracket used for supporting the rotor assembly and the stator assembly;

The rotor assembly is connected with the fan blades and drives the fan blades to rotate; the bracket comprises a first cylinder for supporting the rotor assembly and a second cylinder for accommodating the fan blades;

The first cylinder is arranged on one side of the second cylinder and is connected with the second cylinder through a connecting blade;

The electric hair drier also comprises a third cylinder body used for fixing the motor, and the third cylinder body and the first cylinder body define an airflow channel.

preferably, the second cylinder includes an air inlet side and an air outlet side, and the fan blade rotates to enable the air flow to enter the second cylinder from the air inlet side and enter the air flow channel from the air outlet side.

Preferably, the third cylinder comprises an abutting part, and the abutting part abuts against the second cylinder.

Preferably, the abutting part abuts against at least the upper end face of the second cylinder.

Preferably, the third cylinder and the second cylinder have the same inner diameter at the abutting position.

Preferably, the upper end face of the first cylinder is positioned in the third cylinder;

Or the upper end surface of the first cylinder is flush with the upper end surface of the third cylinder;

Or the upper end surface of the first cylinder is higher than the upper end surface of the third cylinder.

preferably, the tail part of the connecting blade exceeds the upper end face of the third cylinder or is flush with the upper end face of the third cylinder.

Preferably, the third cylinder is in interference fit with the connecting blade; or the third cylinder and the second cylinder are fixed through screws.

Preferably, the electric hair drier further comprises an air guide pipe, and the third cylinder is arranged in the air guide pipe.

Preferably, the air guide pipe is a silicone tube, and the third cylinder is a high-temperature-resistant plastic part or a sound-absorbing metal part.

The utility model has the advantages that:

1. Through making first barrel establish with one side of second barrel, and the third barrel limits airflow channel with first barrel, the benefit makes the air current of flabellum suction get into this airflow channel from the second barrel, can realize fan unit's fixing, can simplify the wind channel structure again, makes the air current get into inside the hairdryer through the shortest route. Moreover, different airflow channel structures can be obtained through the design of the third cylinder, so that different air volume and air pressure are obtained, and the adaptability of the motor is improved.

2. through making the air current from the air inlet side get into in the second barrel and via the entering of air-out side airflow channel, the benefit is that first barrel is located the air-out side of second barrel, and the second barrel is close to the air intake more, and the air current gets into can get into in the second barrel through less windage after the hairdryer is inside from the air intake, is favorable to increasing amount of wind and wind pressure.

3. through the portion of leaning on and the second barrel of making the third barrel counterbalance, the benefit is, prevents that the air current that gets into the second barrel from revealing from the junction of second barrel and third barrel, causes the loss of amount of wind and wind pressure.

4. Through making the third barrel and the second barrel abut against the internal diameter of both of position department the same, the benefit is that the at utmost reduces the air resistance that the air current got into the air current passageway from the second barrel, or the air current got into the second barrel from the air current passageway, reduces the amount of wind loss.

5. By locating the upper end face of the first cylinder in the third cylinder, the advantages are that on one hand, when the stator assembly is installed above the first cylinder, the total length of the motor is reduced, and the structure of the motor is more compact; on the other hand, the airflow passing through the airflow channel is rectified;

by making the upper end face of the first cylinder flush with the upper end face of the third cylinder, it is advantageous to keep the air volume and the air pressure of the airflow passing through the airflow passage substantially constant;

By making the upper end surface of the first cylinder higher than the upper end surface of the third cylinder, it is advantageous to guide the flow of air entering the air flow passage.

6. the tail part of the connecting blade exceeds the upper end surface of the third cylinder or is flush with the upper end surface of the third cylinder, so that on one hand, the connecting strength of the upper cylinder and the lower cylinder can be improved; on the other hand, the air inlet flow is guided by the connecting blades, so that the noise is reduced, and the air volume and the air pressure loss are reduced.

7. By the interference fit of the third cylinder and the connecting blade, the air flow passing through the air flow channel is guided by the inner wall of the third cylinder, the outer wall of the first cylinder and the two side walls of the connecting blade, so that the air pressure loss is reduced; the matching reliability of the third cylinder and the motor can be improved;

Through making third barrel pass through the fix with screw with the second barrel, improve the assembly reliability, simple structure, the assembly is easy.

8. The third cylinder body is arranged in the air guide pipe of the electric hair drier, so that the air flow sucked by the fan unit from the air inlet directly enters the air guide pipe, and the air quantity loss is reduced; and the vibration reduction device has the functions of shock absorption and noise reduction, and reduces the vibration transmitted from the handle assembly in the working process of the motor.

9. The air guide pipe is the silicone tube, so that the effects of shock absorption and noise reduction are achieved through the silicone tube, and the third cylinder is a high-temperature-resistant plastic part, so that the service life of the motor is prolonged; the advantage that makes the third barrel for inhaling the sound metalwork is the life of extension motor, improves structural strength, absorbs the noise in the motor working process.

Drawings

fig. 1 is a schematic view of the whole structure of the hair dryer according to the first embodiment of the present invention.

Fig. 2 is a cross-sectional view of the motor according to the first embodiment of the present invention.

Fig. 3 is an enlarged view indicated by a in fig. 2.

fig. 4 is an assembly schematic view of the motor and the air guide duct according to the first embodiment of the present invention.

Fig. 5 is an exploded view of the assembly of the air duct and the motor according to the first embodiment of the present invention.

fig. 6 is a sectional view of the assembly of the air duct and the motor according to the first embodiment of the present invention.

Fig. 7 is an enlarged view indicated by B in fig. 6.

Fig. 8 is a schematic structural diagram of the motor according to the first embodiment of the present invention.

Fig. 9 is a cross-sectional view of a motor according to a first embodiment of the present invention.

Fig. 10 is an exploded view of a hair dryer handle assembly according to a first embodiment of the present invention.

Fig. 11 is an exploded view of another structure of the handle assembly of the hair dryer according to the first embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a motor according to the second embodiment of the present invention.

Fig. 13 is a cross-sectional view of a motor according to a second embodiment of the present invention.

Fig. 14 is a schematic structural diagram of a motor according to a third embodiment of the present invention.

fig. 15 is an exploded view of the motor according to the third embodiment of the present invention.

Fig. 16 is a cross-sectional view of a motor according to a third embodiment of the present invention.

Fig. 17 is a cross-sectional view of a motor according to the fourth embodiment of the present invention.

The names of the components marked in the figures are as follows:

1. A housing; 2. a handle assembly; 201. an inner handle; 202. an outer handle; 203. an opening; 204. a first inner handle; 205. a second inner handle; 3. an air inlet; 4. an air outlet; 5. a fan unit; 501. a motor; 502. a fan blade; 6. a heating unit; 7. an air guide pipe; 8. a first cylinder; 9. a second cylinder; 10. connecting the blades; 1001. an arc-shaped section; 1002. a vertical section; 1003. an inner concave portion; 11. a third cylinder; 12. an air flow channel; 13. an air inlet side; 14. an air outlet side; 15. a stator assembly; 16. a rotor assembly; 1601. a magnet.

Detailed Description

the following describes the present invention in detail with reference to the accompanying drawings.

The first embodiment is as follows:

As shown in fig. 1 to 11, a high-speed hair dryer comprises a housing 1, a handle assembly 2 connected with the housing 1, an air inlet 3, an air outlet 4, a fan unit 5 for drawing an air flow from the air inlet 3 into the interior of the hair dryer, and a heating unit 6 for heating the air flow, wherein the fan unit 5 comprises fan blades 502 and a motor 501 for driving the fan blades 502 to rotate, the motor 501 comprises a stator assembly 15 and a rotor assembly 16, and the motor 501 further comprises a bracket for supporting the rotor assembly 16 and the stator assembly 15; the rotor assembly 16 is connected to the fan blade 502 and drives the fan blade 502 to rotate; the bracket comprises a first cylinder 8 for supporting the rotor assembly 16 and a second cylinder 9 for accommodating the fan blades 502; the first cylinder 8 is arranged on one side of the second cylinder 9 and is connected with the second cylinder 9 through a connecting blade 10; the electric hair drier also comprises an air guide pipe 7, the second cylinder 9 comprises an air inlet side 13 and an air outlet side 14, and the fan blades 502 rotate to enable air flow to enter the second cylinder 9 from the air inlet side 13 and enter the air guide side from the air outlet side 14.

The first cylinder 8, the second cylinder 9 and the connecting blade 10 are integrally formed, and the bracket can be made of plastic or metal, preferably metal, especially aluminum, zinc and the like.

The motor 501 can be arranged in the handle assembly 2, at this time, the air inlet 3 is arranged on the handle assembly 2, the motor 501 is arranged above the air inlet 3, the axis of the motor 501 is the same as the axis of the handle assembly 2, the air inlet side 13 is closer to the air inlet 3, when the fan blade 502 rotates, air flow enters the second cylinder 9 from the air inlet 3, the air inlet 3 is positioned below the air inlet side 13 of the second cylinder 9, and the first cylinder 8 is positioned above the second cylinder 9; the motor 501 can also be arranged in the housing 1, the air inlet 3 is arranged at the rear end of the housing 1, the axis of the motor 501 is the same as that of the housing 1, the air inlet side 13 of the second cylinder 9 is closer to the air inlet 3, and the first cylinder 8 is arranged at the left side of the second cylinder 9. In both cases, the air outlet 4 is provided at the front end of the housing 1.

It should be noted that, in the present invention, the terms "upper", "lower", "left" and "right" are relative reference directions, and when the reference direction changes, "upper", "lower" or "left" and "right" can be interchanged; "up" and "left", "down" and "right" may refer to the same direction.

The second cylinder 9 is positioned in the air guide pipe 7, and the second cylinder 9 can be positioned in the air guide pipe 7 completely or partially; when the second cylinder 9 is fully located in the air duct 7, the end of the air duct 7 near the air inlet 3 is located above or on the left side of the air inlet 3, and the upper side or the left side is determined by whether the air inlet 3 is arranged on the handle assembly 2 or the housing 1. The scheme can ensure that the airflow entering the second cylinder 9 directly enters the air guide pipe 7, thereby reducing the wind resistance and the wind loss. The air guide pipe 7 and the first cylinder 8 limit an air flow channel 12, the fan blade 502 rotates to enable air flow to enter the second cylinder 9 from the air inlet side 13 and enter the air flow channel 12 through the air outlet side 14, the air guide pipe 7 and the first cylinder 8 limit an annular air flow channel 12, and air flow is guided through the inner wall of the air guide pipe 7 and the outer wall of the first cylinder 8, so that air flow loss is reduced. The air guide pipe 7 can be a silicone tube, and a gap is formed between the connecting blade 10 and the silicone tube; the air guide pipe 7 can also be a plastic pipe or a metal pipe, at this time, the connecting blade 10 and the air guide pipe 7 are in interference fit, and the airflow blown out from the second cylinder 9 is guided through the inner side wall of the air guide pipe 7, the connecting blade 10 and the outer side wall of the first cylinder 8.

In another possible variant, a certain gap is provided between the second cylinder 9 and the air guide pipe 7, that is, the second cylinder 9 is located outside the air guide pipe 7, and the second cylinder 9 is closer to the air inlet 3 than the air guide pipe 7.

in another possible variation, a third cylinder 11 connected to the air guide pipe 7 is further disposed in the air guide pipe 7, the third cylinder 11 defines an airflow channel 12, and the fan blade 502 rotates to make the airflow enter the second cylinder 9 from the air inlet side 13 and enter the airflow channel 12 through the air outlet side 14. The third cylinder 11 may be provided integrally with the air guide duct 7 or may be provided separately from the air guide duct 7. When the third cylinder 11 and the air guide pipe 7 are integrally arranged, the third cylinder 11 is a high-temperature-resistant plastic part, the air guide pipe 7 is a silicone tube, and the air guide pipe 7 and the third cylinder 11 are integrally injection-molded; the temperature resistant plastic part is PA66+30GF, and the hardness of silicone tube is 55 degrees and above, guarantees by the wind channel of guide duct 7 restriction not warp. The third cylinder 11 is made of high-temperature-resistant plastic, so that the structure of the third cylinder 11 is convenient to manufacture, and the assembly precision is convenient to improve. It can be understood that the third cylinder 11 can also be a metal member, the air guiding pipe 7 is a silicone pipe, and preferably, the third cylinder 11 is made of a zinc material, so as to reduce the working noise of the motor 501. The third cylinder 11 and the air guide pipe 7 are arranged separately, the third cylinder 11 is assembled with the bracket, and then the motor 501 is installed in the air guide pipe 7.

The inner diameter of the second cylinder 9 is larger than the outer diameter of the first cylinder 8, and the airflow is blown out from the air outlet side 14 and guided to enter the air guide pipe 7 through the outer side wall of the first cylinder 8. The difference value between the outer diameter of the first cylinder 8 and the inner diameter of the second cylinder 9 is D, D is more than or equal to 1mm and less than or equal to 50mm, and the wind resistance is reduced and the wind quantity is increased; when D is less than 1mm, the requirement on process precision is high, the process difficulty is increased, the system is difficult to adapt, and the cost is increased; when D is larger than 50mm, the size of the motor 501 is increased, the motor is slightly heavy, the use experience and the aesthetic feeling degree of the appearance are reduced, and the air volume and the air pressure are reduced. Preferably D =13 mm. The inner diameter of the second cylinder 9 is D1, D1 is more than or equal to 20mm and less than or equal to 60mm, and the advantage is that proper air volume is obtained; when the D1 is less than 20mm, the obtained air volume is low, and the requirement cannot be met; when D1 is larger than 60mm, the motor 501 is too large in size, heavy and high in cost. The inner diameter of the first cylinder 8 is D4, D4 is more than or equal to 1.5mm and less than 20mm, which has the advantages of providing mounting space for the bearing of the rotor assembly 16, supporting and simultaneously improving the air intake; when D4 is less than 1.5mm, the difficulty of finding a bearing with a proper size is high due to technical limitation, and the cost is increased; when D4 is greater than 20mm, the wind resistance is increased, the wind loss is generated, and the wind quantity is reduced. The outer diameter of the first cylinder 8 is D5, and D5 is more than or equal to 3.5mm and less than 23mm, which has the advantages of providing installation space for the bearing of the rotor assembly 16, having enough strength for supporting and simultaneously improving the air intake; when D5 is less than 3.5mm, due to technical limitation, the difficulty of finding a bearing with a proper size is high, the cost is increased, the wall thickness of the first cylinder 8 is too thin to provide reliable support for the rotor assembly 16, the matching precision of the fan blade 502 and the second cylinder 9 cannot be ensured, and further the air volume and the air pressure are influenced; when D5 is larger than 23mm, the wind resistance is increased, so that the wind loss is generated, and the wind quantity is reduced; preferably D1=28mm, D4=12 mm; d5=15 mm.

The clearance between the fan blade 502 and the side wall of the second cylinder 9 is D2, D2 is more than 0mm and less than or equal to 5mm, which has the advantages of reducing noise and obtaining larger wind pressure; when D2 is more than 5mm, the cavity is easy to release pressure, and wind noise is large.

The distance between the edge of the fan blade 502 close to the lower end of the second cylinder 9 and the lower end of the second cylinder 9 is L2, D3 is more than or equal to 0mm and less than or equal to 10mm, which is beneficial to ensuring the air intake, when D3 is more than 10mm, the influence on the air intake in unit time is large, the air intake in unit time is reduced, and the requirement can not be met.

A part of the first cylinder 8 extends into the second cylinder 9; or, one end of the first cylinder 8 close to the air outlet side 14 is flush with the air outlet side 14; alternatively, one end of the first cylinder 8 close to the air-out side 14 is located at one side of the air-out side 14. The distance between the air outlet side 14 of the second barrel 9 and one end, close to the air outlet side 14, of the first barrel 8 is h, h is more than or equal to 0mm and less than or equal to 5mm, and the advantages that the connection strength of the first barrel 8 and the second barrel 9 is ensured, and the internal space of the second barrel 9 is occupied as little as possible; when h > 5mm, the connection strength between the first cylinder 8 and the second cylinder 9 may be reduced, and the motor 501 is easy to deform during operation, so that the air volume and the air pressure are affected, or the volume of the second cylinder 9 is increased, the volume of the motor 501 is increased, and the required installation space is increased.

One end of the connecting blade 10 close to the air outlet side 14 extends into the second cylinder 9; alternatively, the end of the connecting blade 10 close to the air outlet side 14 is flush with the air outlet side 14 of the second cylinder 9. The distance between the lower end of the connecting blade 10 and the air outlet side 14 is H, H is more than or equal to 0 and less than or equal to 5mm, and the advantages that the connecting strength of the first cylinder 8 and the second cylinder 9 is improved, so that the connecting blade 10 is not easy to deform in the working process of the motor 501, and the influence on the air volume and the air pressure is reduced; when H is greater than 5mm, the connecting blade 10 needs to extend into the second cylinder 9, so as to avoid interference between the connecting blade 10 and the fan blade 502, which may increase the volume of the second cylinder 9, and increase the installation space occupied by the motor 501. The height from the connecting blade 10 to the outer side wall of the first cylinder 8 is H1, H1 is more than or equal to 3mm and less than or equal to 10mm, the connecting strength of the first cylinder 8 and the second cylinder 9 is improved, meanwhile, the connecting blade 10 can play a role in guiding flow to a certain extent, and the air volume loss is reduced; when H1 is less than 3mm, the connection strength of the first cylinder 8 and the second cylinder 9 is not enough, and the first cylinder is easy to deform in the working process; when H1 is greater than 10mm, the motor 501 is increased in size and cost. Preferably H1=8 mm.

The connecting blade 10 comprises an arc-shaped section 1001 close to the air outlet side 14, the arc-shaped section 1001 is provided with an inner concave part 1003 with the same rotating direction as the fan blade 502, and by the structural arrangement, when air flow enters the air flow channel 12 from the first cylinder 8, air flow loss is reduced. Connecting blade 10 still includes the vertical section 1002 of being connected with arc section 1001, vertical section 1002 is on a parallel with the central line of first barrel 8, and the benefit is through the setting of vertical section 1002 guide air current along the direction of last barrel central line blow air current channel 12, after motor 501 dress is inside the hairdryer, generally with handle component 2 or with the installation of shell 1 concentricity, vertical section 1002 be provided with do benefit to the loss that reduces amount of wind, wind pressure. The arcuate section 1001 smoothly transitions with the vertical section 1002.

The thickness of the connecting blade 10 is d, d is more than or equal to 0.1mm and less than or equal to 3mm, and the advantages that the wind resistance is reduced and the wind loss is reduced while the connecting strength of the first cylinder 8 and the second cylinder 9 is ensured; when d is less than 0.1mm, the connecting blade 10 is too thin, so that the connecting strength of the first cylinder 8 and the second cylinder 9 cannot be ensured, and because the rotor assembly 16 runs at a high speed in the working process of the motor 501, the connecting blade 10 is easy to deform, so that the wind resistance is increased, and the airflow direction can be changed, so that the loss of the air volume and the wind pressure is caused; when d > 3mm, wind resistance is large and resonance is easily generated. Preferably d =0.1 mm. The number of the connecting blades 10 is N, N is more than or equal to 4 and less than or equal to 12, so that the airflow is guided, a proper wind direction is obtained, the wind resistance is reduced, the wind loss is reduced, and the connection reliability of the first cylinder 8 and the second cylinder 9 is ensured; when N is less than 4, a larger torsion is generated when the rotor assembly 16 works, which may cause the deformation of the connecting blade 10, thereby increasing the wind resistance, changing the airflow direction and causing the loss of wind volume and wind pressure; when N is more than 12, the number of the connecting blades 10 is too large, the wind resistance is increased, and the wind loss is caused. Preferably N = 9.

The distance between the edge of the fan blade 502 close to the air outlet side 14 and the air outlet side 14 is L1, L1 is more than or equal to 0.1mm and less than or equal to 20mm, and the advantage is that the airflow entering the second cylinder 9 is rectified at the distance, so that the air pressure is improved; when L1 is less than 0.1mm, effective rectification cannot be performed, the wind pressure improvement effect is not obvious, and a part of airflow which is not rectified enters the air guide pipe 7 from the air outlet side 14 and collides with the inner wall of the air guide pipe 7, so that the air volume loss is caused; when L1 is more than 20mm, the distance is too long, the airflow is gathered in the second cylinder 9 and can not smoothly enter the air guide pipe 7, and the air inlet amount is influenced. Preferably L1=2 mm.

The distance between the edge of the fan blade 502 close to the air outlet side 14 and one end of the connecting blade 10 close to the air outlet side 14 is L2, L2 is more than or equal to 0.1mm and less than or equal to 20mm, which has the advantage of obtaining proper air pressure, and the air flow entering the second cylinder 9 is rectified through the distance, so that the air volume and the air pressure loss are reduced; when L2 is less than 0.1mm, effective rectification cannot be performed, the wind pressure improvement effect is not obvious, and a part of airflow which is not rectified enters the air guide pipe 7 from the air outlet side 14 and collides with the inner wall of the air guide pipe 7, so that the air volume loss is caused; when L2 is more than 20mm, the distance is too long, the airflow is gathered in the second cylinder 9 and can not smoothly enter the air guide pipe 7, and the air inlet amount is influenced. Preferably, L2=2 mm.

Connect blade 10's upper end and exceed first barrel 8's up end, guide the air current, reduce the air loss, stator module 15 is located keeping away from of first barrel 8 one side of the tip of air-out side 14 connects blade 10 and winds stator module 15 setting, makes motor 501 miniaturized, connect blade 10 and stator module 15 interference fit, stator module 15's lateral wall is equipped with recess or protruding muscle, the inboard of connecting blade 10 is equipped with complex protruding muscle or recess with it, realizes stator module 15's fixed through recess and protruding muscle's interference fit, and the benefit is, simple structure, fixed reliable. The rotor assembly 16 includes a magnet 1601, the magnet 1601 is located above the first barrel 8, and the magnet 1601 protrudes into the stator assembly 15. The rotating speed of the rotor assembly 16 is n, 80000rpm is not more than n and not more than 130000rpm, and large wind volume and wind pressure are obtained, preferably n =11000 rpm.

The first cylinder 8, the second cylinder 9 and the connecting blades 10 are cast by metal, and zinc alloy is preferably selected, so that the noise can be absorbed, and the noise is reduced; or the aluminum alloy is selected and used, so that the weight is light.

Further, when the motor 501 is disposed in the handle assembly 2, the handle assembly 2 includes an inner handle 201 and an outer handle 202 sleeved outside the inner handle 201, the inner handle 201 has an opening 203, the motor 501 is disposed in the opening 203, and the outer handle 202 covers the opening 203.

Alternatively, the handle assembly 2 comprises an inner handle 201 and an outer handle 202 sleeved outside the inner handle 201, the inner handle 201 comprises a first inner handle 204201 and a second inner handle 205201 which are separated along the axial direction of the inner handle, and the motor 501 is arranged in the inner handle 201.

Example two:

The difference between the present embodiment and the first embodiment is that, as shown in fig. 12 and 13, the second cylinder 9 includes an air inlet side 13 and an air outlet side 14, and the first cylinder 8 is disposed on the air inlet side 13 of the second cylinder 9.

the motor 501 can be arranged in the handle assembly 2, at this time, the air inlet 3 is arranged on the handle assembly 2, the motor 501 is arranged above the air inlet 3, the axis of the motor 501 is the same as the axis of the handle assembly 2, the air inlet side 13 is closer to the air inlet 3, when the fan blade 502 rotates, air flow enters the second cylinder 9 from the air inlet 3, the air inlet 3 is positioned below the air inlet side 13 of the second cylinder 9, and the first cylinder 8 is positioned below the second cylinder 9; the motor 501 can also be arranged in the housing 1, the air inlet 3 is arranged at the rear end of the housing 1, the axis of the motor 501 is the same as that of the housing 1, the air inlet side 13 of the second cylinder 9 is closer to the air inlet 3, and the first cylinder 8 is arranged at the right side of the second cylinder 9. In both cases, the air outlet 4 is provided at the front end of the housing 1.

In this case, a portion of the first cylinder 8 extends inside the second cylinder 9; or, the lower end of the first cylinder 8 is flush with the upper end of the second cylinder 9, that is, the end of the first cylinder 8 close to the air inlet side 13 of the second cylinder 9 is flush with the air inlet side 13 of the second cylinder 9; or, the lower end of the first cylinder 8 is located above the second cylinder 9, that is, a certain gap is formed between one end of the first cylinder 8 close to the air inlet side 13 of the second cylinder 9 and the air inlet side 13 of the second cylinder 9. The connecting blade 10 extends into the second cylinder 9; or, the lower end of the connecting blade 10 is flush with the upper end of the second cylinder 9, that is, the end of the connecting blade 10 close to the air inlet side 13 of the second cylinder 9 is flush with the air inlet side 13 of the second cylinder 9.

"upper end" and "lower end" relate to the reference direction, in this example, "lower end" refers to the end closer to the air intake side 13, and "upper end" refers to the end farther from the air intake side 13; the "upper end of the second cylinder 9" refers to the air inlet side 13 of the second cylinder 9, and the "lower end of the second cylinder 9" refers to the air outlet side 14 of the second cylinder 9. In this example, "up" and "down" are opposite to those in the first example, and the second example can be obtained by turning the directions of "up" and "down" in the first example.

when the motor in this embodiment is disposed in the handle assembly 2, the first cylinder 9 is closer to the air inlet 3 than the second cylinder 8, and the motor in this embodiment is disposed in the handle assembly 2 in a manner similar to that in the first embodiment.

Example three:

The present embodiment is different from any of the above embodiments in that, as shown in fig. 14 to 16, the hair dryer further includes a third cylinder 11 for fixing the motor 501, the third cylinder 11 and the first cylinder 8 define an airflow channel 12, and the third cylinder 11 is separated from the bracket. When the fan blade 502 rotates, the air flow entering the electric hair drier from the air inlet 3 firstly enters the air flow channel 12 and then enters the second cylinder 9; or the air flow entering the hair dryer from the air inlet 3 firstly enters the second cylinder 9 and then enters the air flow channel 12.

Further, the second cylinder 9 includes an air inlet side 13 and an air outlet side 14, and the fan blade 502 rotates to make the air flow enter the second cylinder 9 from the air inlet side 13 and enter the air flow channel 12 through the air outlet side 14.

the third cylinder 11 includes an abutting portion that abuts against the second cylinder 9. The abutting portion may be an end surface of the third cylindrical body 11, a step surface on an inner side wall of the third cylindrical body 11, or an inner side wall of the third cylindrical body 11.

The abutting part abuts against at least the upper end face of the second cylinder 9, more specifically, the inner side wall of the third cylinder 11 abuts against the outer side wall of the second cylinder 9, and the step surface of the inner side wall of the third cylinder 11 abuts against the upper end face of the second cylinder 9; or the lower end surface of the third cylinder 11 is abutted against the upper end surface of the second cylinder 9. The inner diameters of the third cylinder 11 and the second cylinder 9 at the abutting position are the same; further, the third cylinder 11 has the same inner diameter as the second cylinder 9.

The upper end surface of the first cylinder 8 is positioned in the third cylinder 11; or the upper end surface of the first cylinder 8 is flush with the upper end surface of the third cylinder 11; or, the upper end surface of the first cylinder 8 is higher than the upper end surface of the third cylinder 11.

The tail of the connecting blade 10 exceeds the upper end surface of the third cylinder 11 or is flush with the upper end surface of the third cylinder 11.

The third cylinder 11 is sleeved outside the second cylinder 9, the inner wall of the third cylinder 11 is in interference fit with the connecting blade 10, or the third cylinder 11 is in interference fit with the second cylinder 9, or the third cylinder 11 is in interference fit with both the second cylinder 9 and the connecting blade 10, or the third cylinder 11 is connected with the second cylinder 9 through a screw and is in interference fit with the connecting blade 10 to fix the motor 501; when the third cylinder 11 and the second cylinder 9 are fixed by screws, the second cylinder 9 is provided with a lug, the third cylinder 11 is provided with a threaded hole matched with the lug, and the motor 501 is fixed on the third cylinder 11 by the lug, the threaded hole and the screws. And a sound insulation barrel made of a zinc material is wrapped outside the third barrel body 11. The fan unit 5 in this example is relatively bulky and is more suitable for being arranged within the housing 1.

The electric hair drier also comprises an air guide pipe 7, and the third cylinder body 11 is arranged in the air guide pipe 7.

The air guide pipe 7 is a silicone tube, and the third cylinder 11 is a high-temperature-resistant plastic part or a sound-absorbing metal part.

As can be understood, the gap M between the connecting blade and the third cylinder 11 is not greater than 2mm, in this case, the third cylinder 11 and the second cylinder 9 are connected, and when the motor 501 operates, the transmission of vibration is reduced due to the existence of the gap L; when the gap is larger than 2mm, a large installation space is required for installing the motor 501, so that the whole machine is heavy, or the guiding effect of the connecting blade 10 on the airflow is sacrificed.

In this case, "upper end" and "lower end" relate to the reference direction, the second cylinder 9 includes an air inlet side 13 and an air outlet side 14, the air flow enters the second cylinder 9 from the air inlet side 13 and is blown out from the air outlet side 14 of the second cylinder 9, and when the first cylinder 8 is disposed on the air outlet side 14 of the second cylinder 9, "upper end" refers to the end far away from the air outlet side 14; "lower end" means the end adjacent the air outlet side 14; the "upper end of the second cylinder 9" refers to the air outlet side 14 of the second cylinder 9, and the "lower end of the second cylinder 9" refers to the air inlet side 13 of the second cylinder 9. When the first cylinder 8 is arranged on the air inlet side 13 of the second cylinder 9, the "upper end" refers to the end far away from the air inlet side 13; "lower end" means the end near the air intake side 13; the upper end of the second cylinder 9 refers to the air inlet side 13 of the second cylinder 9, and the lower end of the second cylinder 9 refers to the air outlet side 14 of the second cylinder 9.

Example four:

the difference between the present embodiment and the third embodiment is that, as shown in fig. 17, the second cylinder 9 includes an air inlet side 13 and an air outlet side 14, and the first cylinder 8 is disposed on the air inlet side 13 of the second cylinder 9, in this case, the first cylinder 8 is closer to the air inlet 3, so as to reduce the wind resistance after the air flow is blown out from the air outlet side 14, and reduce the loss of the air volume and the air pressure; establish in the first barrel 8 rather than the third barrel 11 of being connected, rotor subassembly 16 is located in the third barrel 11, the internal diameter of first barrel 8 is greater than the external diameter of second barrel 9, the external diameter of third barrel 11 is less than the internal diameter of second barrel 9, can be to the reduction improvement wind pressure through the sectional area.

The third cylinder 11 can be connected with the second cylinder 9; or the third cylinder 11 is connected to the first cylinder 8. The first cylinder 8 and the second cylinder 9 may abut against each other end in the direction along the axis thereof (as shown in fig. 17); it is also possible that the first cylinder 8 is spaced apart from the second cylinder 9 in a direction along its axis.

The above embodiments are merely preferred embodiments of the present invention, not all embodiments of the present invention, and according to the principles of the present invention, those skilled in the art can make various modifications without departing from the spirit of the present invention, all of which shall fall within the scope of the present invention defined by the claims.

Claims (10)

1. A high-speed electric hair drier comprises a shell, a handle assembly connected with the shell, an air inlet, an air outlet, a fan unit used for sucking air flow from the air inlet into the electric hair drier, and a heating unit used for heating the air flow, wherein the fan unit comprises fan blades and a motor used for driving the fan blades to rotate, the motor comprises a stator assembly and a rotor assembly, and the high-speed electric hair drier is characterized by also comprising a bracket used for supporting the rotor assembly and the stator assembly;

The rotor assembly is connected with the fan blades and drives the fan blades to rotate; the bracket comprises a first cylinder for supporting the rotor assembly and a second cylinder for accommodating the fan blades;

The first cylinder is arranged on one side of the second cylinder and is connected with the second cylinder through a connecting blade;

The electric hair drier also comprises a third cylinder body used for fixing the motor, and the third cylinder body and the first cylinder body define an airflow channel.

2. The hair dryer of claim 1, wherein said second cylinder includes an air inlet side and an air outlet side, and said fan blades rotate to cause the air flow to enter the second cylinder from the air inlet side and to enter said air flow channel through the air outlet side.

3. The hair dryer of claim 1, wherein the third cylinder body comprises an abutting part which abuts against the second cylinder body.

4. A hair dryer according to claim 3, characterized in that said abutment abuts at least the upper end surface of the second cylinder.

5. A hair dryer according to claim 4, characterized in that the inside diameters of the third cylinder and the second cylinder at the position where they abut against are the same.

6. The hair dryer according to claim 1, characterized in that the upper end face of the first cylinder is positioned in the third cylinder;

Or the upper end surface of the first cylinder is flush with the upper end surface of the third cylinder;

Or the upper end surface of the first cylinder is higher than the upper end surface of the third cylinder.

7. The hair dryer of claim 6, wherein the tail of the connecting blade is beyond the upper end surface of the third cylinder body or is flush with the upper end surface of the third cylinder body.

8. The hair dryer according to claim 1, characterized in that the third cylinder is in interference fit with the connecting blade; or the third cylinder and the second cylinder are fixed through screws.

9. The hair dryer according to any one of claims 1 to 8, characterized in that the hair dryer further comprises an air guide pipe, and the third cylinder is arranged in the air guide pipe.

10. The hair dryer according to claim 9, wherein said air duct is a silicone tube, and said third cylinder is a high temperature resistant plastic part or a sound absorbing metal part.