CN108235466A - Blowing air heating component and blowing heating movement and hot blow wind devices - Google Patents

Abstract

The invention discloses hot blow wind devices and blowing heating movement and blowing air heating component,First heating wire and the second heating wire piecewise are helically wound on mica stent,First heating wire and the second heating wire parallel connection are electrically connected and one of them of the first heating wire and the second heating wire are electrically connected, and contact is located at the centre position of mica stent,First heating wire and the second heating wire are wrapped on mica stent in the opposite direction respectively using the contact that is electrically connected as initiating terminal,Electric current flows successively through the first heating wire and the second heating wire,Electromagnetic radiation at least part that first heating wire and second heating wire generate is cancelled,Its advantage is the layout by winding direction of two heating wire on mica stent and current direction,The direction for making two heating wire generated electromagnetic radiation in heating power is opposite,So as to balance out at least part of electromagnetic radiation.

Description

Blowing air heating component and blowing heating movement and hot blow wind devices

Technical field

The present invention relates to hot blows wind devices such as a kind of hair dryers in life product field, more particularly, to a kind of blowing air Heating component and blowing heating movement and hot blow wind devices.

Background technology

The hot blows such as hair dryer, electric comb wind devices are the electrical equipments of household, are mainly used for drying up hair and hair；Extensively It is general to apply in family, Hair Salon or bath center, it is also configured in pet shop, blowing after being cleaned for pet hair It is dry.By taking hair dryer as an example, primary structure includes plastic casing, the heating wire, control circuit board and the wind turbine that heat air etc.. Plastic casing includes the main part of portion of the handle and the above-mentioned device of installation.Wherein, heating wire is installed on mica stent And in ventilating hole channel, wind turbine is then configured in the rear of heating wire.After hair dryer unlatching, heating wire is sent out because being powered Heat, and the condition of high temperature is held in, the air at plastic casing rear is drawn into plastic casing and pushed ahead by wind turbine, air warp It is blown out from the ventilating hole channel of hair dryer after crossing electric-heating-wire-heating.

It is well known that heating wire can generate a large amount of electromagnetic radiation in heating power, which can penetrate plastics Housing and the head for acting on human body for a long time, can affect to the health of human body.

Application publication number is the entitled radiation-proof electric hair drier of CN102326944, is used in the channel of shell Portion is made of including one metallic object, and the open barrel cover of leading portion closed rear end, and heating wire is set in barrel cover, and heating wire is produced Raw electromagnetic radiation is shielded by metal barrel cover.

Application publication number is the anti-magnetic radiation Special electric wind of entitled pregnant woman of CN104705969A, by being blown in electricity Foldable, dismountable Special handle is set on wind, and pregnant woman installs when using hair dryer and hand-held folding handle is dried, band The handle and power cord of strong electromagnetic radiation will upward, the abdomen fetus far from pregnant woman, reach anti-electromagnetic radiation of drying again Purpose.

The first radiation-proof electric hair drier can increase the weight of hair dryer, and increase the production cost of hair dryer, the most not Foot, user's long-term holding hair dryer can be more inconvenient.

Second of hair dryer increases Special handle, and the volume and weight of product itself increases very much, the production cost of enterprise Also it increases, and operationally there are many inconvenience, be also only for the purpose of the abdomen fetus far from pregnant woman, user is come It says, amount of radiation is not reduced.

In view of this, those skilled in the art try to develop a kind of novel blowing air heating component, on overcoming State the presence of problem.

Invention content

The technical problems to be solved by the invention are to provide a kind of blowing air heating component that can reduce electromagnetic radiation, It makes respective electromagnetism spoke not by increasing the volume and weight of traditional hair dryer by the direction of winding for changing two heating wire It penetrates and cancels out each other or cut down, it is further provided movement is heated in a kind of blowing using above-mentioned air heating component and blowing hot wind is set It is standby.

Technical solution is used by the present invention solves above-mentioned technical problem：Blowing air heating component, including insulation Mica stent, the first heating wire and the second heating wire, it is characterised in that the first heating wire and the second heating wire piecewise are with spiral shell Rotation mode is wrapped on mica stent, the first heating wire and the second heating wire parallel connection electrical connection and the first heating wire and the second electric heating One of them contact that is electrically connected of silk is located at the centre position of mica stent, and the first heating wire and the second heating wire are electrically connected with described Contact is wrapped on mica stent in the opposite direction respectively for initiating terminal, and electric current flows successively through the first heating wire and the second electric heating Electromagnetic radiation at least part that silk, first heating wire and second heating wire generate is cancelled.

Further preferred embodiment is the present invention：First heating wire winding mica stent front half section, it is described The second heating wire winding mica stent second half section.

Further preferred embodiment is the present invention：Using the contact that is electrically connected as initiating terminal, the initial segment of the first heating wire The initial segment with the second heating wire is in an angle.

Further preferred embodiment is the present invention：First heating wire and the diameter of the second heating wire are identical, and first Heating wire or the second heating wire are spring heating wire.

Further preferred embodiment is the present invention：The outer surface of the mica stent is coated with one layer of tourmaline coating.

Further preferred embodiment is the present invention：The mica stent is made of six cloudlet master slices and is in divergent shape, cloud The outside of master slice is equipped with the wire casing being embedded in for the first heating wire or the second heating wire.

Further preferred embodiment is the present invention：The end of the six cloudlet master slices is fixed by fixing bracket.

Further preferred embodiment is the present invention：Blowing heating movement, including blowing air heating component, wind turbine and ring Shape plastic stent, for assembling on annular plastics stent, annular plastics stent is fixed on the rear end of mica stent, and the one of wind turbine Part is stretched in mica holder back section cavity, and the blowing includes the mica stent of insulation, first with air heating component Heating wire and the second heating wire, it is characterised in that the first heating wire and the second heating wire piecewise are helically wound in mica On stent, the first heating wire and the second heating wire parallel connection electrical connection and one of them of the first heating wire and the second heating wire are electrically connected Contact is located at the centre position of mica stent, the first heating wire and the second heating wire and is distinguished using the contact that is electrically connected as initiating terminal It is wrapped in the opposite direction on mica stent, electric current flows successively through the first heating wire and the second heating wire, the described first electricity Electromagnetic radiation at least part that heated filament and second heating wire generate is cancelled.

Further preferred embodiment is the present invention：The wind turbine includes motor and fan, the motor position In in the back segment cavity of mica stent, the fan is located in annular plastics stent.

Further preferred embodiment is the present invention：First heating wire winding mica stent front half section, it is described The second heating wire winding decompression wire and described is connected in parallel to behind the second half section of mica stent, the second heating wire Decompression wire be wrapped in second half section of mica stent.

Further preferred embodiment is the present invention：Using the contact that is electrically connected as initiating terminal, the initial segment of the first heating wire The initial segment with the second heating wire is in an angle.

Further preferred embodiment is the present invention：First heating wire and the diameter of the second heating wire are identical, and first Heating wire or the second heating wire are spring heating wire.

Further preferred embodiment is the present invention：The outer surface of the mica stent is coated with one layer of tourmaline coating.

Further preferred embodiment is the present invention：The mica stent is formed by least 2 cloudlet master slices and is in divergent shape, The outside of mica sheet is equipped with the wire casing being embedded in for the first heating wire or the second heating wire.

Further preferred embodiment is the present invention：Described six or the end of four cloudlet master slices are carried out by fixing bracket It is fixed.

Further preferred embodiment is the present invention：Hot blow wind devices, including heating movement and plastic casing, the blowing Heating movement is located in the plastic casing, is applied corresponding to one layer of tourmaline is coated on the inner wall of the plastic casing of mica stent Layer.

Compared with prior art, it is an advantage of the invention that by winding direction of two heating wire on mica stent and The layout of current direction makes the direction of two heating wire generated electromagnetic radiation in heating power on the contrary, so as to balance out At least part of electromagnetic radiation, this can reduce the electromagnetic radiation of hair dryer equipment at work.Such heating wire is in mica branch The layout of winding layout and current direction on frame, does not increase the weight and volume of hair dryer equipment, does not increase the production of product Cost.

Description of the drawings

Fig. 1 is the structure chart of hair dryer；

Fig. 2 is the structure chart of electric comb；

Fig. 3 is winding schematic diagram of two heating wire on mica stent；

Fig. 4 is electromagnetic radiation schematic diagram of the heating wire on mica stent；

Fig. 5 is the circuit diagram for heating movement；

Fig. 6 is the schematic diagram of plastics inner cylinder；

Fig. 7 is the structure chart of mica stent；

Fig. 8 is the structure chart of blowing heating movement；

Fig. 9 is the local structural graph of the plastic casing of hair dryer；

Figure 10 is the exploded view of Fig. 9；

Figure 11 is the structure chart of portion of the handle；

Figure 12 is the exploded view of portion of the handle.

Specific embodiment

The present invention is described in further detail below in conjunction with attached drawing embodiment.

Hot blow wind devices, blowing heating movement 1 and plastic casing 2, blowing heating movement 1 is located in plastic casing 2, corresponding In being coated with one layer of tourmaline coating on the inner wall of the plastics inner cylinder 25 of the plastic casing 2 of mica stent 3.Hair dryer equipment can mould The shape and accessory of material shell body 2 are different, can be divided into hair dryer and electric comb, be divided into as depicted in figs. 1 and 2.It is extensive Ground apply with family, Hair Salon and bath center, for people dry up hair be used, be also useful for pet shop and blown to pet Dry hair.

Since heating wire can generate a large amount of electromagnetic radiation, common hair dryer, from blowing during heating power 5 centimetres or so of mouth, the amount of electromagnetic radiation measured with electromagnetic wave measuring instrument is 40-155mG (milligauss), and the present invention is by two The winding direction of heating wire and the layout of current direction offset part electromagnetic radiation, are measured with same money electromagnetic wave measurement instrument Amount of electromagnetic radiation is 0.1-6mG (milligauss).

Tourmaline coating can be used as electromagnetic shielding, antibacterial and health-care material, what tourmaline was discharged when heated bear from Son can neutralize the cation that electromagenetic wave radiation goes out, and electromagnetic wave is made to occur to be lost in transmission process and generate electromagnetic shielding effect It should.It is 4-14 μm of far infrared electromagnetic that tourmaline, which can send out wavelength, simultaneously, is matched with human body infrared absorption spectra, can be by Absorption of human body accelerates blood circulation of human body, increases the immunity of human body.

Blowing heating movement 1 is located in plastics inner cylinder 25, and plastics inner cylinder is as shown in fig. 6, blowing heating movement such as Fig. 8 institutes Show, including blowing air heating component 11, wind turbine 12 and annular plastics stent 13, wind turbine 12 is mounted on annular plastics stent 13 On, annular plastics stent 13 is fixed on the rear end of mica stent 3, and a part for wind turbine 12 stretches to 3 back segment cavity of mica stent In 31, blowing includes mica stent 3, the first heating wire 111 and the second heating wire 112 of insulation with air heating component 11, the One heating wire 111 and 112 piecewise of the second heating wire are helically wound on mica stent 3, the first heating wire 111 and Two heating wire, 112 parallel connection is electrically connected and one of them of the first heating wire 111 and the second heating wire 112 are electrically connected, and contact 113 is located at The centre position of mica stent 3, the first heating wire 111 and the second heating wire 112 be electrically connected contact 1113 for initiating terminal respectively to Opposite direction is wrapped on mica stent 3, and electric current flows successively through the first heating wire 111 and the second heating wire 112, the first electric heating Electromagnetic radiation at least part that 111 and second heating wire 112 of silk generates is cancelled.First heating wire 111 and the second heating wire 112 connect respectively with power input line L1, L2 and output line L3.Mica stent 3 is as shown in Figure 7.

As shown in Figure 3 and Figure 4, it is the signal of the first heating wire and the second heating wire generated electromagnetic radiation when being powered Figure, the two energy is suitable and direction is substantially opposite, you can offsets most electromagnetic radiation.

First heating wire 111 and 112 piecewise of the second heating wire are distributed on mica stent 3, the technique for arranging heating wire Can be relatively easy, it will not be wound between two heating wire.

Wind turbine 12 includes motor and fan, and motor is located in the back segment cavity 31 of mica stent 3, and fan is located at annular plastics In stent 13.Make entirely to heat that cassette mechanism structure is more compact, the structural reliability higher of movement and wind turbine it is more efficient.

When hair dryer works, 112 heating power of the first heating wire and 111 second heating wire, the wind of 3 rear end of mica stent Machine 12 sucks air from outside, the heating by the first heating wire 111 and the second heating wire 112 is then blown out forward, after heating Air for drying up hair.

First heating wire 111 is wrapped in the front half section of mica stent 3, after the second heating wire 112 is wrapped in mica stent 3 Half section, decompression wire 114 is connected in parallel to behind the second heating wire 112 and decompression wire 114 is wrapped in mica stent 3 Second half section.Decompression wire 114 makes voltage in order to reduce alternating current, when hair dryer is opened, the first heating wire 111 and the Under two heating wire, 112 unpowered state, hair dryer is in cold wind state.

With the contact 113 that is electrically connected for initiating terminal, the initial segment of the first heating wire 111 and the initial segment of the second heating wire 112 are in One angle, the angle are between 20-60 degree.The contact 113 that is electrically connected is fixed on metal connecting pin on mica stent 3 for one, and first The end of heating wire 111 and the end of the second heating wire 112 are all connected to this.The angle is as the first heating wire 111 and second The separated starting point of heating wire 112, brings convenience the winding of heating wire.

First heating wire 111 is identical with the diameter of the second heating wire 112, and the first heating wire 111 or the second heating wire 112 are Spring heating wire.The diameter of two heating wire is identical, and the electric current for flowing through heating wire is consistent, generated electromagnetic radiation also base This is suitable, as long as winding direction control is proper, it is possible to have the even more electromagnetic radiation in part that can be cancelled.

The outer surface of mica stent 3 is coated with one layer of tourmaline coating, the tourmaline coating on the inner wall of plastic casing 2 Coating it is consistent.

Mica stent 3 is made of six cloudlet master slices 31 and in divergent shape, and the outside of mica sheet 31 is equipped with for the first electric heating The wire casing 311 that 111 or second heating wire 112 of silk is embedded in.Six cloudlet master slices 31 composition outer profile is column structure, for heating wire Winding, layout of the wire casing 311 for the heating wire after fixed winding on mica stent 3 on mica sheet 31.

The end of six cloudlet master slices 31 is fixed by fixing bracket 32.Fixing bracket is metalwork, and tool is there are one in Heart end 321 and six slot positions 322, mica sheet 31 snaps onto to be fixed against in six slot positions 322.

As shown in figure 5, the circuit diagram for hair dryer, including input power cord, the first heating wire, the second heating wire, It is depressured wire, temperature detect switch (TDS) T/S, wind turbine 12 etc..

It is that the mounting means of the plastic casing of hair dryer is specifically described below.

Hair dryer as shown in figs9-12, including blowing heating movement 1 and plastic casing 2, plastic casing 2, which includes placing, to be blown Wind heats the main part 21 of movement 1 and portion of the handle 22, and portion of the handle 22 includes 221 and second half shell of first half-shell body 222, the second half shell 222 is included in the internal layer half shell 2221 of laminated arrangement and outer layer half shell 2222, internal layer half shell 2221 are fixed to each other by screw assembly 7 and first half-shell body 221, and internal layer half shell 2221 passes through card with outer layer half shell 2222 Fastener intercombination makes the inside of outer layer half shell 2222 be close to the outside of internal layer outer housing 2221, first half-shell body 221 it is outer Surface matches with the outer surface of outer layer half shell 2222 and collectively constitutes the outer surface of hair dryer housing.The plastic casing is mainly The portion of the handle of hair dryer and the structure with coupling part.It is the shell structure of portion of the handle 22 in diagram, certain structure It can also be applied to the main part 21 of hair dryer.The structure has been avoided that the screw of fixed function is exposed, improves U.S. of product Sight degree；Screw is covered with outer layer simultaneously, this is not only avoided that coming off for screw, moreover it is possible to prevent from water stain entering by screw hole The inside of hair dryer.

As shown in figs9-12.The inside of first half-shell body 221 is integrally formed with screw pole 223, internal layer half shell 2221 it is outer Surface is equipped with screw hole 224, and screw assembly 7, which is screwed in across screw hole 224 on screw pole 223, makes first half-shell body 221 and internal layer Half shell 2221 is fixed to each other, while the tail end of screw assembly 7 is embedded in screw hole 224 and is no more than the tail end of screw assembly 7 The outer surface of internal layer half shell 2221.The addition of screw assembly 7 will not cause internal layer half shell 2221 and outer layer half shell 2222 Between can not be close to due to screw assembly.

As shown in figs9-12, first half-shell body 221 and outer layer half shell 2222 form a surface as cylindrical housing. Internal layer half shell can be more than the thickness of first half-shell body 221 with the thickness after the composition of outer layer half shell 2222, but after forming Outer surface matches with the outer surface of first half-shell body 221, is unlikely to influence appearance and hand-held feel.

As shown in figs9-12, internal layer half shell 2221 is equipped with raised fixture block 225, and outer layer half shell 2222 is equipped with card slot 226, raised fixture block 225 fastens with card slot 226 and internal layer half shell 2221 is made to be fixed to each other with outer layer half shell 2222.Protrusion card Block 225 is between the two tight fit with card slot 226, and after loading onto, internal layer half shell will not be disengaged easily with outer layer half shell.

First half-shell body 221, internal layer half shell 2221 and 2222 three of outer layer half shell are molded respectively, then group again It is fitted together.

Blowing provided by the present invention air heating component and hot blow wind devices are described in detail above, herein In apply specific case the principle of the present invention and embodiment be expounded, the explanation of above example is only intended to sides Assistant solves the present invention and core concept.It should be pointed out that for those skilled in the art, this hair is not being departed from Under the premise of bright principle, can also to the present invention some improvement and modification can also be carried out, these improvement and modification also fall into power of the present invention In the protection domain of profit requirement.

Claims (16)

1. blowing air heating component, mica stent, the first heating wire and the second heating wire including insulation, it is characterised in that First heating wire and the second heating wire piecewise are helically wound on mica stent, the first heating wire and the second heating wire Parallel connection is electrically connected and one of them of the first heating wire and the second heating wire are electrically connected, and contact is located at the centre position of mica stent, the One heating wire and the second heating wire are wrapped on mica stent in the opposite direction respectively using the contact that is electrically connected as initiating terminal, Electric current flows successively through the first heating wire and the second heating wire, the electricity that first heating wire and second heating wire generate Magnetic radiation at least part is cancelled.

2. blowing air heating component according to claim 1, it is characterised in that first heating wire winding exists The front half section of mica stent, second heating wire winding is in the second half section of mica stent.

3. blowing air heating component according to claim 1, it is characterised in that using the contact that is electrically connected as starting The initial segment of end, the initial segment of the first heating wire and the second heating wire is in an angle.

4. blowing air heating component according to claim 1, it is characterised in that first heating wire and second The diameter of heating wire is identical, and the first heating wire or the second heating wire are spring heating wire.

5. blowing air heating component according to claim 1, it is characterised in that the outer surface of the mica stent It is coated with one layer of tourmaline coating.

6. blowing air heating component according to claim 1, it is characterised in that the mica stent is by least 2 Mica sheet forms and is in divergent shape, and the outside of mica sheet is equipped with the wire casing being embedded in for the first heating wire or the second heating wire.

7. blowing air heating component according to claim 6, it is characterised in that six or the four cloudlet master slices End be fixed by fixing bracket.

8. blowing heating movement, including blowing air heating component, wind turbine and annular plastics stent, assembling is moulded in annular Expect on stent, annular plastics stent is fixed on the rear end of mica stent, and a part for wind turbine stretches to mica holder back section cavity Interior, the mica stent, the first heating wire and the second heating wire, feature that the blowing includes insulation with air heating component exist It is helically wound on mica stent in the first heating wire and the second heating wire piecewise, the first heating wire and the second electric heating Silk parallel connection is electrically connected and one of them of the first heating wire and the second heating wire are electrically connected, and contact is located at the centre position of mica stent, First heating wire and the second heating wire are wrapped in mica stent in the opposite direction respectively using the contact that is electrically connected as initiating terminal On, electric current flows successively through the first heating wire and the second heating wire, and first heating wire and second heating wire generate Electromagnetic radiation at least part be cancelled.

9. blowing heating movement according to claim 8, it is characterised in that the wind turbine includes motor and wind Fan, the motor are located in the back segment cavity of mica stent, and the fan is located in annular plastics stent.

10. blowing heating movement according to claim 8, it is characterised in that first heating wire winding is in mica branch The front half section of frame, second heating wire winding are connected in parallel to behind the second half section of mica stent, the second heating wire Decompression wire and the decompression wire are wrapped in the second half section of mica stent.

11. blowing heating movement according to claim 8, it is characterised in that using the contact that is electrically connected as initiating terminal, the The initial segment of one heating wire and the initial segment of the second heating wire are in an angle.

12. blowing heating movement according to claim 8, it is characterised in that first heating wire and the second heating wire Diameter it is identical, the first heating wire or the second heating wire are spring heating wire.

13. blowing heating movement according to claim 8, it is characterised in that the outer surface of the mica stent is coated with one Layer tourmaline coating.

14. blowing heating movement according to claim 8, it is characterised in that the mica stent is by six cloudlet master slice groups Cheng Bingcheng divergent shapes, the outside of mica sheet are equipped with the wire casing being embedded in for the first heating wire or the second heating wire.

15. blowing heating movement according to claim 14, it is characterised in that the end of the six cloudlet master slices passes through Fixing bracket is fixed.

16. hot blow wind devices, including any blowing heating movement and plastic casing as described in claim 8-15, described blows Wind heating movement is located in the plastic casing, corresponding to being coated with one layer of tourmaline on the inner wall of the plastic casing of mica stent Coating.