CN110528433A - Hair drier - Google Patents

Abstract

The invention discloses a hair drier, comprising: a fan; the motor drives the fan to rotate around the central axis; a housing for accommodating the fan and the motor; the fan has the capacity K of outputting wind energy, and the weight G of the blower and the wind speed V output by the blower respectively form a functional relation G = f with the capacity K of outputting the wind energy by the fan₁(K)，V=f₂(K) In that respect The invention can provide the hair drier which is smaller and lighter in structure and can output higher wind speed and larger wind volume.

Description

Hair dryer

Technical field

The present invention relates to a kind of electric tools, and in particular to a kind of hair dryer.

Background technique

Hair dryer can help user to clear up the broken branches and fallen leaves in garden as a kind of common garden class tool.It is existing Hair dryer can be divided into centrifugal blower and axial-flow type hair dryer according to the type of fan.Output wind speed and air quantity are as hair dryer Important parameter, be affected to the working performance of hair dryer, and hair dryer output wind speed on the market or air quantity are relatively low at present. In addition, the volume and weight of existing hair dryer is larger, it is tired when user being be easy to cause to use.

Summary of the invention

To solve the deficiencies in the prior art, and structure larger the purpose of the present invention is to provide a kind of output wind speed and air quantity More compact light hair dryer.

In order to achieve the above objectives, the present invention adopts the following technical scheme that:

A kind of hair dryer, comprising: fan；Motor, driving fan is around center axis thereof；Shell, for accommodating fan and motor； Fan have output wind energy ability K, hair dryer weight G and hair dryer output wind speed V respectively with fan output wind energy Ability K constituting-functions relationship G=f₁(K), V=f₂(K)；The ability K of fan output wind energy meets relational expression K=(γ * L) * n/d, In: γ is flabellum maximum established angle, and unit is spends, and γ >=67 degree；L is flabellum maximum chord length, and unit is rice, and L >= 0.019 meter；N is rotation speed of the fan, and unit is rev/min, and n >=31000 rev/min；D is fan blade tip diameter, and unit is milli Rice, and d≤82 millimeter.

Further, shell includes: air duct portion, and air duct portion is formed with the wind for airflow extended along central axis Road；The both ends in air duct portion are respectively formed with the air inlet for air-flow inflow and the air outlet for air-flow outflow；Fan is contained in wind In road portion.

Further, when K is more than or equal to 480, the wind speed of hair dryer is more than or equal to 150 MPH, and the weight of hair dryer is small In equal to 2.0 kg.

Further, fan is tube-axial fan.

Further, air duct portion includes: the first exhausting portion for accommodating fan, and the interior diameter in the first exhausting portion is less than etc. In 84 millimeters；Air duct portion further include: for accommodating the electric machine casing of motor, motor is with respect to fan closer to air outlet；First letter Road portion is fixedly connected or is an integral structure with electric machine casing composition.

Further, motor is high revolving speed inner rotor motor, and the revolving speed of motor is more than or equal to 31000 rpms.

Further, hair dryer further include: for guiding the diversion division of air flow direction, diversion division be contained in housing portion and Extend along with central axis coincidence or parallel first straight line.

Further, diversion division includes: close to the diversion division rear end of air outlet；Close to the diversion division front end of air inlet；It leads Stream portion rear end and diversion division front end are located at the both ends of diversion division along first straight line；Diversion division rear end is to any vertical between air outlet Sectional area in the section of central axis is approximately equal to the airflow area in the section.Diversion division is the deflection cone of cone.

Further, the interior diameter of air outlet is less than or equal to 69 millimeters.

A kind of hair dryer, comprising: shell, handle, fan, motor and air duct portion, motor, driving fan turn around central axis It is dynamic；Shell, for accommodating fan and motor, motor is with respect to fan closer to air outlet；Shell includes air duct portion, and air duct portion is formed Have along central axis extend the air duct for airflow, the both ends in air duct portion be respectively formed with for air-flow flow into air inlet and For the air outlet of air-flow outflow, fan is contained in the portion of air duct, it is characterised in that: by the ability for designing the output wind energy of fan K, can get wind speed and weight expected from hair dryer, and the ability of the output wind energy of fan meets functional relation K=(γ * L) * n/ D, wherein γ is flabellum maximum established angle, and unit is spends, and γ >=67 degree；L is flabellum maximum chord length, and unit is rice, and L >=0.019 meter；N is rotation speed of the fan, and unit is rev/min, and n >=31000 rev/min；D is fan blade tip diameter, and unit is Millimeter, and d≤82 millimeter；There is fan the ability K of output wind energy, the wind speed V of weight G and the hair dryer output of hair dryer to divide Not with ability K constituting-functions relationship G=f1 (K) of fan output wind energy, V=f2 (K), and when K be more than or equal to 480 when, hair dryer Wind speed be more than or equal to 150 MPH, the weight of hair dryer is less than or equal to 2.0 kg.

The invention has the beneficial effects that: a kind of output wind speed and all biggish hair dryer of air quantity are provided, is reduced simultaneously The volume of hair dryer, alleviates the weight of hair dryer, to improve the whole service performance of hair dryer, and alleviates user Feeling of fatigue when using hair dryer.

Detailed description of the invention

Fig. 1 show the structural schematic diagram of the hair dryer of the first embodiment of the present invention；

Fig. 2 show the cross-sectional view of the part-structure of the hair dryer in Fig. 1；

Fig. 3 show the explosive view of the part-structure of the hair dryer in Fig. 1；

Fig. 4 show the cross-sectional view in the air duct portion for blowing extension set in Fig. 1；

Fig. 5 show the bottom view of the fan for blowing extension set in Fig. 1；

Fig. 6 show the front view of the fan for blowing extension set in Fig. 1；

It is defeated in unit flow area about fan 12 that Fig. 7 show the output wind speed V of the hair dryer in Fig. 1, main screw lift G The function curve diagram of the ability K of wind energy out；

Fig. 8 show the cross-sectional view of the hair dryer of the second embodiment of the present invention；

Fig. 9 show the cross-sectional view of the hair dryer of the third embodiment of the present invention.

Specific embodiment

Specific introduce is made to the present invention below in conjunction with the drawings and specific embodiments.

The present invention proposes a kind of hair dryer 100, depending on the user's operation mode, which is specifically as follows hand-held Formula hair dryer is also possible to backpack hair dryer.

As shown in Figures 1 to 4, hair dryer 100 includes the fan 12 rotated around central axis 101, driving fan rotation Motor 13, and the shell for accommodating fan 12 and motor 13.Wherein, shell includes the air duct portion 11 for airflow, shell Body is also formed with the handle for user's operation, and handle is connected to air duct portion 11 or is integrally formed with air duct portion 11.In this implementation In example, air duct portion 11 extends along central axis 101, and the air inlet A flowed into for air-flow is respectively formed at the both ends in air duct portion 11 With the air outlet B flowed out for air-flow；Fan 12 and motor 13 are contained in inside air duct portion 11, motor 13 with respect to fan 12 closer to Air outlet B；Fan 12 includes the air intake C and outlet air end D that the two sides of fan 12 are distributed in along central axis 101, wherein air inlet Hold C closer to air inlet B, outlet air end D is closer to air outlet A.Specifically, fan 12 is tube-axial fan, and fan 12 includes leaf It takes turns and installs to the blade of impeller.

In the present embodiment, air duct portion 11 is formed by connecting by the independent structure in four parts, in Fig. 3 from top to bottom successively are as follows: position The inlet section 111 for the close air inlet A that one end gas supply stream in air duct portion 11 enters, accommodates the first letter of fan 12 and motor 13 Road portion 112, accommodate diversion division 14 the second exhausting portion 113, and positioned at air duct portion 11 one end for air-flow flow out close to out The blower 114 of air port B.Wherein, the first exhausting portion 112 constitutes interference with inlet section 111 and the second exhausting portion 113 respectively and matches It closes, the second exhausting portion 113 constitutes with the first exhausting portion 112 and blower 114 be interference fitted respectively, and the second exhausting portion 113 is in Mandrel line 101 extends at certain taper.It should be understood that inlet section 111, the first exhausting portion 112, the second exhausting portion 113 and Blower 114 is also possible to integrated molding or in which several integrated moldings in them or constitutes be fixedly connected, about air duct portion 11 molding mode is not limited thereto.

First exhausting portion 112 includes the first shell 1121 of connection inlet section 111 and the second exhausting portion 113, the first exhausting Portion 112 is internally provided with the electric machine casing 1122 for accommodating motor 13, is also formed with outside electric machine casing 1122 for drawing The wind-guiding muscle 1123 of air guiding extended along central axis 101, in the present embodiment, inside first shell 1121,3 wind-guiding muscle 1123 are evenly distributed on the periphery of electric machine casing 1122, in other words electric machine casing 1122, wind-guiding muscle 1123 and first Shell 1121 is radially arranged from inside to outside.It should be understood that the specific number of wind-guiding muscle 1123 is not limited to 3.Wind-guiding muscle 1123 connection electric machine casings 1122 and first shell 1121, three are integrally formed formula structure, and the air-flow flowed out from fan 12 can be through It crosses after wind-guiding muscle 1123 guides and flows into the second exhausting portion 113.It will of course be understood that, electric machine casing 1122 is independently of One shell 1121 is connected with first shell 1121.In the present embodiment, electric machine casing 1122 is one of the first exhausting portion 112 Point, it is believed that it is integrally formed formula structure with the first exhausting portion 112.

Hair dryer 100 further includes the diversion division 14 for guiding air flow direction, and diversion division 14 extends along first straight line, and first Straight line and central axis 101 are overlapped or parallel, and in the present embodiment, first straight line is overlapped with central axis 101.In the present embodiment In, diversion division 14 be shape in the deflection cone and tapering of cone closer to air outlet B.Diversion division 14 and close motor bearings Bearing cap 16 constitutes interference fit, and opposite motor 13 and fan 12 are closer to air outlet B.It should be understood that diversion division 14 Structural form is not limited in cone.Diversion division 14 includes close to the diversion division rear end E of air outlet B and close to air inlet A Diversion division front end；Diversion division rear end E and diversion division front end are located at the both ends of diversion division 14 along first straight line.

Hair dryer 100 further includes the winding section 15 of supply lines winding, in the present embodiment, winding section 15 and the first exhausting portion 112 compositions are detachably connected.

In the present embodiment, motor is high revolving speed inner rotor motor, and the revolving speed of motor is 31000 revs/min.It is basic herein On, size, which defines, everywhere in the blade tip diameter and air duct portion 11 to the blade of fan 12 obtains performance and preferably dries Machine accommodates the 1123 of the first exhausting portion 112 of fan 12 specifically, the blade tip diameter of fan 12 is less than or equal to 82 millimeters Interior diameter A1 is less than or equal to 84 millimeters, and the overall diameter A2 of electric machine casing 1121 is less than or equal to 44 millimeters, and blower 114 is close to second The interior diameter A3 of the one end in exhausting portion 113 is less than or equal to 70 millimeters, in the one end of blower 114 far from the second exhausting portion 113 Diameter A4 be less than or equal to 69 millimeters, meanwhile, by the taper to diversion division 114, the second exhausting portion 113 and blower 114 into Row design, so that air-flow is from any two the outlet air end D to air outlet B of fan 12 perpendicular to the section of central axis 101 Airflow area ratio be more than or equal to 0.95 and be less than or equal to 1.1 so that air-flow is from the outlet air end D of fan 12 to wind The pressure loss of the air outlet B in road portion 11 is less than or equal to 10 ﹪, ensure that the capacity usage ratio with higher of hair dryer 100.Into One step, airflow of any two perpendicular to the section of central axis 101 between the outlet air end D to air outlet B of fan 12 Area ratio is more than or equal to 1.02 and is less than or equal to 1.1 so that air-flow is from the outlet air end D of fan 12 to the outlet air in air duct portion 11 The pressure loss of mouth B is less than or equal to 8 ﹪.Certainly, meeting between outlet air end D to air outlet B any two perpendicular to central axis The airflow area ratio in the section of line 101 is more than or equal to 0.95 and is less than or equal under conditions of 1.1, above structure size Occurrence can be adjusted in respective range.It should be understood that inlet section 111, the first exhausting portion 112, the second exhausting portion 113 with And the radial dimension of blower 114 is along axial gradual change.

Further, the outlet air end D of fan 12 is to any two between diversion division front end perpendicular to section of central axis 101 The airflow area ratio in face is more than or equal to 0.95 and is less than or equal to 1.05；Any two between diversion division rear end E to air outlet B The airflow area ratio in a section perpendicular to central axis 101 is more than or equal to 0.95 and is less than or equal to 1.05.This is pair The structure size in air duct portion 11 further limits, in fact, in the present embodiment, from diversion division rear end E to air outlet B Sectional area arbitrarily perpendicular to the section of central axis 101 is approximately equal to the airflow area in the section, in other words, from water conservancy diversion The basic structure without stopping air-flow in 11 inside of this section of air duct portion between portion rear end E to air outlet B, such structure setting So that pressure loss very little of the air-flow from diversion division rear end E to air outlet B, further increases the working efficiency of hair dryer. In the present embodiment, this section of air duct portion 11 between diversion division rear end E to air outlet B refers to blower 114.

The final output wind speed V of hair dryer 100 is more than or equal to 150 ms/h in the present embodiment, and air quantity is more than or equal to 510 Cubic feet/min, main screw lift G are less than or equal to 2.0kg, compare most of axial-flow type hair dryers, the blowing in the present embodiment Machine 100 has smaller volume and lighter weight, can effectively mitigate user's fatigue.In fact, we are logical adjustment electricity The structure and performance parameters of machine 13 and fan 12 control the output wind speed V and main screw lift G of hair dryer 100.

Specifically, obtained by the experiment of a large amount of mould streams to hair dryer 100 and analysis, it can be by adjusting variable K's Size makes hair dryer 100 that there is lighter main screw lift G and higher output wind speed V, variable K to indicate that fan 12 is through-flow in unit The ability of output wind energy in area, variable K have following formula:

K=γ*L*n/d

Wherein, γ is flabellum maximum established angle, and unit is degree (°)；L is flabellum maximum chord length, and unit is rice (m)；N turns for fan Speed, unit are rev/min (rpm)；D is the blade tip diameter of fan 12, and unit is millimeter (mm).Wherein, 90 ° of 67 °≤γ <, L >= 0.019m, n >=31000rpm, d≤82mm, when meeting above-mentioned condition, output wind energy of the fan 12 in unit flow area Ability K be more than or equal to 480.

K is the ability of output wind energy of the fan 12 in unit flow area herein, obtains K about above four by experiment Function K=f (γ, L, n, d) of a parameter.In other words, the ability K of output wind energy of the fan 12 in unit flow area with Flabellum maximum established angle γ, flabellum maximum chord length L, rotation speed of the fan n are related to blade tip diameter d.As shown in Figure 5, Figure 6, flabellum string The intersection length that a length of flabellum coaxially intersects with imaginary entity of the diameter between fan hub diameter and blade tip diameter, herein Imaginary entity structure is identical as the structure of fan hub, is of different sizes, the diameter difference of imaginary entity with fan hub, Also different with the intersection length that flabellum coaxially intersects, flabellum maximum chord length L is the maximum value of multiple intersection length, this implementation Flabellum maximum chord length L is the intersection length of flabellum root and hub surface in example；Blade tip diameter d is the highest of the flabellum of fan 12 Locate the diameter of position.Flabellum root to form connecting line with connecting with hub surface, and flabellum established angle is the connecting line each point This is perpendicular to sharp between the tangent line of central axis 101 on the tangent line and hub surface in the plane perpendicular to hub radius Angle, flabellum maximum established angle γ are the maximum value of flabellum established angle；Rotation speed of the fan n is the rotation of the fan 12 driven by motor 13 Speed, in the present embodiment, motor 13 and fan 12 are co-axially mounted, and rotation speed of the fan n is substantially equal with the revolving speed of motor 13, specifically The revolving speed of ground, motor 13 and fan 12 is all larger than equal to 31000 revs/min.It should be understood that in other embodiments of the present invention, The revolving speed of rotation speed of the fan n and motor 13 can also be unequal.

Fig. 7 show fan 12 in the ability K of the output wind energy in unit flow area, hair dryer 100 at air outlet B 100 main screw lift G of output wind speed V and hair dryer between functional relation curve graph.In fact, main screw lift G be about The function of blade tip diameter d, output wind speed V are about flabellum maximum established angle γ, flabellum maximum chord length L and rotation speed of the fan n tri- The function of person.As shown in Figure 7, when the ability K of the output wind energy when the fan of design 12 in unit flow area is equal to 480, Output wind speed V of the hair dryer 100 at air outlet B reaches 150MPH(mile perhour), while the complete machine weight of hair dryer 100 Amount is about 2.00 kg；When the ability K of output wind energy of the fan 12 in unit flow area is greater than 480, hair dryer 100 exists Output wind speed V at air outlet B is greater than 150MPH, while 100 main screw lift G of hair dryer is less than 2.00 kg；Further, when The ability K of output wind energy of the fan 12 in unit flow area is greater than 0 and when less than 480, and hair dryer 100 is at air outlet B Output wind speed V be greater than 0 and be less than 150MPH, while 100 main screw lift G of hair dryer be greater than 2.00 kg；When fan 12 is in unit When the ability K > 510 of the output wind energy in flow area, output wind speed V of the hair dryer 100 at air outlet B is greater than 170MPH, 100 main screw lift G of hair dryer is less than 1.85 kg simultaneously.Therefore, the output wind by control fan 12 in unit flow area The ability K of energy, so that it may obtain corresponding main screw lift G and output wind speed V.It certainly, fundamentally will be improved by setting The performance of the specific structure of fan 12 and motor 13 adjusts the ability K of output wind energy of the fan 12 in unit flow area 's.

To sum up, exist by adjusting the radial dimension of 11 different parts of air duct portion of this hair dryer 100 and control fan 12 The ability K of output wind energy in unit flow area makes hair dryer 100 have service performance more outstanding and more preferably Structure design, specially has less energy loss, higher output wind speed V and more compact light complete machine structure.

In the second embodiment of the present invention, as shown in figure 8, in the rear end of fan 21 close to the flowing in the air duct of motor 22 The ratio of any two flow section is situated between the flow cross section S2 of 231 part of air outlet on cross section S1 and blower 23 Between 0.95 ~ 1.1, in other words, an annular flow face (figure is formed between 241 centre of 24 inner wall of exhausting and electric machine casing Do not mark), the flow cross section S1 in the annular flow face of the intermediate present position of electric machine casing 241 and the air outlet on blower 23 The ratio of any two flow section can make between 0.95 ~ 1.01 between the flow cross section S2 at 231 positions First pressure P1 of the air-flow in the air duct near motor, flows through what blower 23 was formed in the duct of air hose air outlet 231 Second pressure P2 be more than or equal to 90%P1, such air-flow velocity will not suddenly change, airflow characteristic can be effectively improved, mentioned High aspect of blowing efficiency.

In the third embodiment of the present invention, positioned at 36 rear portion of 36 part of deflection cone or deflection cone flow cross section S2 with Between the flow cross section S3 of 33 air outlet of blower, 331 part the ratio of any two flow section between 0.95 ~ Between 1.05, it is also possible that first pressure P1 of the air-flow in the air duct near motor 32, flows through blower 33 and goes out in air hose The second pressure P2 formed in the duct in air port 331 is more than or equal to 90%P1, such air-flow velocity will not suddenly change, Ke Yiyou Effect improves airflow characteristic, improves aspect of blowing efficiency.

It should be noted that merely illustrating the hair dryer and first embodiment of second embodiment and 3rd embodiment above Hair dryer difference, other applicability technical characteristics can be applied to second embodiment and third in first embodiment In embodiment, do not repeat excessively herein.

It is understood that being located at motor 32 close to the flow cross section S1 in the air duct of motor 32 in the rear end of fan 31 The flow cross section S2 of tail portion, and the company interconnected between the flow cross section S3 of 33 air outlet of blower, 331 part The conduit enclosure of adapter tube, exhausting 34 and blower 33 is gradual change along axial direction.

Specifically, the flow cross section of the air passage portion near motor 32 is S1 such as Fig. 9, it is located at deflection cone 36 The flow cross section S2 at rear portion, the flow cross section in 33 air outlet of blower, 331 part are S3, or the wind near motor 32 Flowing at road part, any position between the air passage portion of 32 tail portion of motor and the exhausting 34 of air outlet part is transversal Face is Sn, then for flow cross section S1, flow cross section S2, flow cross section S3 and flow cross section Sn, appoints The ratio between two flow cross sections anticipate between 0.95 ~ 1.1.That is, by near motor air duct and air hose outlet air The optimization of duct flows cross section between mouthful, can make the pressure loss of air-flow be effectively controlled, and going out for complete machine can be improved Wind efficiency.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the above embodiments do not limit the invention in any form, all obtained by the way of equivalent substitution or equivalent transformation Technical solution is fallen within the scope of protection of the present invention.

Claims (10)

1. a kind of hair dryer, comprising:

Fan；

Motor drives the fan around center axis thereof；

Shell, for accommodating the fan and the motor；

The fan has the ability K of output wind energy, the wind speed V difference of the weight G of the hair dryer and hair dryer output With ability K constituting-functions relationship G=f of the fan output wind energy₁(K), V=f₂(K)；The ability K of fan output wind energy, which meets, to close It is formula K=(γ * L) * n/d, in which:

γ is flabellum maximum established angle, and unit is spends, and γ >=67 degree；

L is flabellum maximum chord length, and unit is rice, and L >=0.019 meter；

N is rotation speed of the fan, and unit is rev/min, and n >=31000 rev/min；

D is fan blade tip diameter, and unit is millimeter, and d≤82 millimeter.

2. hair dryer according to claim 1, it is characterised in that:

The shell includes:

Air duct portion, the air duct portion are formed with along the air duct for airflow that the central axis extends；The air duct portion Both ends are respectively formed with the air inlet for air-flow inflow and the air outlet for air-flow outflow；The fan is contained in the air duct portion It is interior.

3. hair dryer according to claim 1, it is characterised in that:

When K is more than or equal to 480, the wind speed of the hair dryer is more than or equal to 150 MPH, and the weight of the hair dryer is less than or equal to 2.0 kg。

4. hair dryer according to claim 1, it is characterised in that:

The fan is tube-axial fan.

5. hair dryer according to claim 2, it is characterised in that:

The air duct portion includes:

For accommodating the first exhausting portion of the fan, the interior diameter in first exhausting portion is less than or equal to 84 millimeters；The wind Road portion further include:

For accommodating the electric machine casing of the motor, the relatively described fan of the motor is closer to the air outlet；Described first Exhausting portion is fixedly connected or is an integral structure with electric machine casing composition.

6. hair dryer according to claim 1, it is characterised in that:

The motor is high revolving speed inner rotor motor, and the revolving speed of the motor is more than or equal to 31000 rpms.

7. hair dryer according to claim 1, it is characterised in that:

The hair dryer further include:

For guiding the diversion division of air flow direction, the diversion division be contained in the enclosure interior and along and the central axis weight It closes or parallel first straight line extends.

8. hair dryer according to claim 7, it is characterised in that:

The diversion division includes:

Close to the diversion division rear end of the air outlet；

Close to the diversion division front end of the air inlet；

The diversion division rear end and the diversion division front end are located at the both ends of the diversion division along the first straight line；The water conservancy diversion Portion rear end is to the air-flow for being arbitrarily approximately equal to the section between the air outlet perpendicular to the sectional area in the section of the central axis Circulation area；The diversion division is the deflection cone of cone.

9. hair dryer according to claim 2, it is characterised in that:

The interior diameter of the air outlet is less than or equal to 69 millimeters.

10. a kind of hair dryer, comprising: shell, handle, fan, motor and air duct portion, motor drive the fan around central axis Line rotation；Shell, for accommodating the fan and the motor, the relatively described fan of the motor is closer to the air outlet； The shell includes air duct portion, and the air duct portion is formed with along the air duct for airflow that the central axis extends, described The both ends in air duct portion are respectively formed with the air inlet for air-flow inflow and the air outlet for air-flow outflow, and the fan is contained in institute State in the portion of air duct, it is characterised in that: by design fan output wind energy ability K, can get hair dryer expected from wind speed and Weight, the ability of the output wind energy of fan meet functional relation K=(γ * L) * n/d, wherein

γ is flabellum maximum established angle, and unit is spends, and γ >=67 degree；

L is flabellum maximum chord length, and unit is rice, and L >=0.019 meter；

N is rotation speed of the fan, and unit is rev/min, and n >=31000 rev/min；

D is fan blade tip diameter, and unit is millimeter, and d≤82 millimeter；

The fan has the ability K of output wind energy, the wind speed V difference of the weight G of the hair dryer and hair dryer output With ability K constituting-functions relationship G=f1 (K) of the fan output wind energy, V=f2 (K), and when K be more than or equal to 480 when, it is described The wind speed of hair dryer is more than or equal to 150 MPH, and the weight of the hair dryer is less than or equal to 2.0 kg.