CN220571707U - Water ion hair drier - Google Patents

Abstract

The utility model relates to a water ion hair dryer, comprising: the air duct is internally provided with a first air duct and a second air duct, the first air duct and the second air duct are independently arranged, the first air duct is sleeved outside the second air duct, and a first air outlet of the first air duct is arranged adjacent to a second air outlet of the second air duct; the handle is provided with a first air inlet communicated with the outside and the first air duct; the fan assembly is used for driving the first air duct to generate negative pressure; the heating assembly is arranged in the first air duct; and the water ion module is arranged in the second air duct. According to the water ion electric hair dryer disclosed by the application, negative pressure air flow generated by the fan assembly is blown out at a high speed through the first air outlet to form a high-pressure air ring at the periphery of the first air outlet and form pressure difference with the adjacent second air outlet, so that the second air channel can form air flow under the drive of the high-pressure air ring to take heat generated by the operation of the water ion module; meanwhile, the air flow of the second air channel can form a heat-insulating fluid layer to separate heat in the first air channel.

Description

Water ion hair drier

Technical Field

The utility model relates to the technical field of electric hair dryers, in particular to a water ion electric hair dryer.

Background

The water ion electric hair drier is a novel water ion electric hair drier technology, water molecules are converted into water ions by utilizing an ionization technology, and then the water ions can penetrate into hair and scalp deeply through the water ion electric hair drier and are sprayed out, so that the effects of moistening and protecting the hair and reducing static electricity are achieved. Compared with the traditional water ion hair dryer, the water ion hair dryer is safer and milder to use, and the problems of dry hair, frizziness, bifurcation and the like can not be caused. In addition, the water ion hair dryer has various effects of eliminating hair odor, cleaning scalp, promoting hair growth and the like, so that the water ion hair dryer is more and more popular with people.

The water ion assembly generates heat during operation, and therefore heat dissipation from the water ion assembly is required to ensure that the condensing member effectively condenses the vapor in the air. However, the power of the heating component of the conventional water ion electric hair dryer is generally larger, and the heat generated by the heating component cannot be well separated, so that the heat dissipation effect of the water ion component is affected to a certain extent, the condensation efficiency of the water ion component is reduced, the water ion function of the water ion electric hair dryer is weakened, and the effects of moistening and protecting hair and inhibiting static electricity cannot be well achieved.

Disclosure of Invention

Based on the above, it is necessary to provide a water ion electric hair dryer aiming at the problem that the heat generated by the heating component is not well separated so as to influence the heat dissipation effect of the water ion component to a certain extent, so that the condensation efficiency of the water ion component is reduced to weaken the water ion function.

A water ion hair dryer comprising: the air duct is internally provided with a first air duct and a second air duct, the first air duct and the second air duct are independently arranged, the first air duct is sleeved outside the second air duct, a first air outlet of the first air duct and a second air outlet of the second air duct are positioned on the same side of the air duct and are communicated with the outside, the first air outlet and the second air outlet are adjacently arranged, and a second air inlet of the second air duct is positioned on the other side of the air duct and is communicated with the outside; the handle is arranged on the peripheral outer wall of the air duct and is provided with a first air inlet used for communicating the outside with the first air duct; the fan assembly is arranged on the air duct or the handle and is used for driving the first air duct to generate negative pressure so as to drive air flow to enter the interior of the handle along the first air inlet and to be conveyed to the first air duct; the heating component is arranged in the first air duct; and the water ion module is arranged in the second air duct.

The utility model discloses a water ion hairdryer, be equipped with independent first wind channel and second wind channel in the dryer, fan assembly work makes first wind channel produce the negative pressure and drives the air current to get into the inside of handle and carry to first wind channel and blow out at a high speed through first air outlet for first air outlet week side forms high pressure wind ring and forms pressure differential with the second air outlet that sets up adjacently, consequently need not to set up fan assembly drive in the second wind channel, can make the air flow into the second wind channel through the second air intake under the drive of high pressure wind ring and form the air flow and export through the second air outlet, make the heat that water ion module work produced can be taken away by the air current; meanwhile, the second air duct is positioned at the inner side of the first air duct, and the heat insulation fluid layer can be formed by the air flow of the second air duct, so that the water ion module and the heat emitted by the hot air flow in the first air duct can be effectively separated, and the water ion module can be ensured to effectively dissipate heat and continuously and stably work normally.

In one embodiment, the air duct comprises an outer cylinder and an inner cylinder, the second air inlet is formed in the outer cylinder, the outer cylinder is sleeved outside the inner cylinder, the inner cylinder is annular, a second air passing cavity is formed by encircling the inner annular wall of the inner cylinder, a first air outlet and a second air outlet are formed in one side, far away from the second air inlet, of the inner cylinder, a second air outlet is formed in one side, close to the second air inlet, of the inner cylinder, and the second air inlet, the second air outlet, the second air passing cavity and the second air outlet are sequentially communicated to form the second air duct; the outer annular wall of the inner cylinder and the inner annular wall of the inner cylinder enclose to form a first air passing cavity, a first air passing opening is formed in the outer wall of the inner cylinder, the first air passing opening, the first air passing cavity and the first air outlet are sequentially communicated to form a first air channel, the handle is arranged on the outer cylinder, and the first air passing opening is communicated with the first air inlet. Through adopting above-mentioned structure, the interior rampart of inner tube has formed annular second and has crossed the wind chamber with outer rampart cooperation on the inner tube to the air current that the fan subassembly during operation produced flows in first wind chamber and flows through first air outlet dispersion, realizes the guide to negative pressure air current, makes the air-out scope enlarge, and the interior rampart of inner tube encloses simultaneously and closes and form the second and cross the wind chamber, and the second crosses the wind chamber and is located first wind intracavity side, second wind channel and first wind channel each other do not communicate.

In one embodiment, the inner cylinder comprises an inner cylinder body and an inner cylinder cover, the inner cylinder body and the inner cylinder cover are annular, the inner cylinder cover is arranged on one side, close to the second air inlet, of the inner cylinder body, the inner cylinder cover and the inner cylinder body enclose to form the first air passing cavity, the inner annular wall of the inner cylinder body encloses to form the second air passing cavity, one side, far away from the second air inlet, of the inner cylinder body is provided with the first air outlet and the second air outlet, and the inner cylinder cover is provided with the second air passing opening. Through setting up detachable inner tube body and inner tube lid, can make the installation that is located structures such as fan subassembly or heating element in the first wind chamber more convenient, be favorable to improving production efficiency.

In one embodiment, a first limiting protrusion is formed on the inner side wall of the outer cylinder, a second limiting protrusion is formed on the outer side wall of the inner cylinder, and the second limiting protrusion abuts against the first limiting protrusion close to the side wall of the second air inlet. Through forming first spacing arch and the spacing arch of second at the inside wall of urceolus inside wall and inner tube respectively, when the inner tube was installed to preset position, first spacing arch will be able to offset with the spacing arch of second and form spacing effect to the inner tube, plays the simple and convenient effect that prevents the inner tube pine and take off.

In one embodiment, the water ion module comprises a shell component and a water ion component, wherein the shell component is positioned in the second air duct, the shell component is connected with the outer cylinder or the inner cylinder, the shell component is provided with an installation cavity, the shell component is provided with a blowing inlet and a blowing outlet, the blowing inlet, the installation cavity and the blowing outlet are sequentially communicated to form an ion passage, the blowing inlet is communicated with the second air duct, the water ion component is arranged on the shell component, and the water ion component is positioned in the installation cavity. Through setting up the casing subassembly and being used for installing the water ion subassembly, can form the guard action to the water ion subassembly, the casing subassembly is equipped with the ion passageway, and the air current in the second wind channel gets into the ion passageway through blowing the entry, on the one hand can dispel the heat for the water ion subassembly, on the other hand can make water ion subassembly and more air contact and make the water vapor cooling condensation in the air become the comdenstion water to the comdenstion water further ionizes the water ion and to blowing out the mouth fast diverges.

In one embodiment, the water ionizer includes an ion emitting unit in contact with the refrigerator, the ion emitting unit being located within the ion channel, and a refrigerator at least partially located within the ion channel.

In one embodiment, the water ion module further comprises a buckle, the buckle is arranged on the outer side wall of the shell assembly, and a clamping hole matched with the buckle is formed in the side wall of the second air duct. Through set up buckle and the card hole of looks adaptation on the lateral wall in casing subassembly and second wind channel respectively, through the cooperation in buckle and card hole, can realize the fast assembly of water ion module, and it is firm to install.

In one embodiment, the outer cylinder comprises an outer cylinder body and an air inlet rear cover, the outer cylinder body is sleeved outside the inner cylinder, the air inlet rear cover comprises a cover body and a limiting column, the cover body is arranged on one side, far away from the second air outlet, of the outer cylinder body, the limiting column is arranged on one side, close to the inner cylinder, of the cover body, the limiting column is provided with a second air inlet, the second air inlet penetrates through the cover body, the limiting column and the inner cylinder are oppositely arranged, the limiting column and the inner cylinder are matched to form a clamping hole, and two ends of the clamping buckle are respectively abutted to the inner cylinder and the limiting column. Through setting up detachable urceolus body and air inlet back lid, can make the installation that is located the inside structures such as inner tube of urceolus more swift, the lid comprises lid and spacing post behind the air inlet simultaneously to when the lid is installed to the urceolus body on, spacing post can form the draw-in hole with the inner tube cooperation, and spacing post and the buckle of inner tube clamp water ion module of accessible from this carries out spacingly it, and after removing the air inlet back lid, water ion module can easily be demolishd.

In one embodiment, a limiting groove is formed on one side, facing the inner cylinder, of the limiting column, and the inner cylinder and the side wall of the limiting groove enclose to form the clamping hole. Through adopting above-mentioned structure, can further carry out spacingly to the buckle of water ion module, under the stop of spacing groove lateral wall, can prevent that water ion module from taking place to rotate in the second wind channel.

In one embodiment, the cover body is provided with a third air inlet, the inner cylinder, the outer cylinder body, the cover body and the limiting column enclose to form an annular third air passing cavity, an air passing gap is formed between the limiting column and the inner cylinder, and the third air inlet, the third air passing cavity, the air passing gap and the second air channel are sequentially communicated. Through adopting above-mentioned structure, inner tube, urceolus body, lid enclose and close with spacing post and form annular third and cross the wind chamber, and the third crosses the wind chamber and communicates with the third air intake on second wind channel and the lid respectively to the air can flow in the second wind channel through second air intake and third air intake simultaneously, is favorable to improving the amount of wind in second wind channel, ensures the radiating effect to the water ion module.

In one embodiment, the peripheral wall of the cover body is provided with a groove, and the inner wall of the outer cylinder body and the side wall of the groove enclose to form the third air inlet.

In one embodiment, the outer side wall of the cover body is provided with a plurality of sliding grooves, the sliding grooves are arranged along the circumferential direction of the cover body, the inner side wall of the outer cylinder body is provided with a sliding block matched with the sliding grooves, the sliding block can slide along the sliding grooves, at least a first position and a second position are arranged on the sliding block relative to the sliding grooves, when the sliding block is positioned at the first position, the sliding block abuts against the side wall of the sliding groove away from the second air inlet, the cover body is locked with the outer cylinder body, when the sliding block is positioned at the second position, the sliding block is separated from the side wall of the sliding groove away from the second air inlet, and the cover body is separable from the outer cylinder body. Through adopting above-mentioned structure, lid and urceolus body accessible spout are connected with the cooperation of slider, and the lateral wall of spout can be spacing to the slider to can lock the slider and make lid and urceolus body coupling inseparable when the slider is located the spout and keeps away from with the spout the lateral wall of second air intake offsets.

In one embodiment, the buckle comprises a hook and a reinforcing rib, the hook is arranged on the outer wall of the shell component, the hook is matched with the clamping hole, the reinforcing rib is located at the joint of the hook and the shell component, and two ends of the reinforcing rib are respectively connected with the hook and the shell component. The trip is passing the in-process of draw-in hole, and certain elastic deformation can take place for the trip, through setting up the strengthening rib, and the strengthening rib is located between trip and the casing subassembly, can make the link intensity of trip improve, reduces the fracture possibility of trip for the trip still can have better connectivity after long-time use.

In one embodiment, the number of the buckles is two or more, and the two or more buckles are circumferentially spaced along the housing assembly.

In one embodiment, the housing assembly is disposed along the length direction of the second air duct, the water ion module further includes a plurality of buffer protrusions, the buffer protrusions are disposed at two ends of the outer side wall of the housing assembly, the buffer protrusions are circumferentially spaced apart along the housing assembly, and the buffer protrusions are disposed between the housing assembly and the side wall of the second air duct. Through adopting above-mentioned structure, when water ion module receives external force to strike and takes place to rock, the buffering arch on the casing subassembly lateral wall will offset with the lateral wall in second wind channel for water ion module rocks the degree and reduces, is favorable to improving the stability of installation and the work of structure such as installation intracavity projecting pole, makes the spoilage decline.

Drawings

Fig. 1 is a perspective view of a water ion hair dryer according to an embodiment;

FIG. 2 is an exploded view of an embodiment of a water ion hair dryer;

FIG. 3 is a first cross-sectional view of a water ion hair dryer according to an embodiment;

FIG. 4 is a second cross-sectional view of a water ion hair dryer according to an embodiment;

FIG. 5 is a third cross-sectional view of a water ion hair dryer according to an embodiment;

FIG. 6 is an enlarged view of area A of FIG. 5;

FIG. 7 is a fourth cross-sectional view of a water ion hair dryer according to an embodiment;

FIG. 8 is a perspective view of an inner barrel according to an embodiment

FIG. 9 is an exploded view of an inner barrel of an embodiment;

FIG. 10 is a perspective view of an air intake rear cover according to an embodiment;

fig. 11 is a perspective view of a water ion module according to an embodiment.

Wherein, the correspondence between the reference numerals and the component names is:

1 air duct, 101 first air duct, 1011 first air passing opening, 1012 first air passing cavity, 1013 first air outlet, 102 second air duct, 1021 second air inlet, 1022 second air passing opening, 1023 second air passing cavity, 1024 second air outlet, 103 limit groove, 104 third air inlet, 105 third air passing cavity, 106 air passing gap, 107 slide groove, 108 groove, 11 outer cylinder, 111 outer cylinder body, 1111 slide block, 112 air inlet rear cover, 1121 cover body, 1122 limit column, 113 first limit protrusion, 12 inner cylinder, 121 inner cylinder body, 122 inner cylinder cover, 123 second limit protrusion;

2 handles, 201 first air inlets;

3, a fan assembly;

4, heating the assembly;

5 water ion module, 501 blowing in port, 502 installation cavity, 503 blowing out port, 51 shell component, 52 water ion component, 53 buckle, 531 trip, 532 strengthening rib, 54 buffering protruding.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and therefore the scope of the present utility model is not limited to the specific embodiments disclosed below.

The following describes some embodiments of the water ion hair dryer according to the present utility model with reference to the accompanying drawings.

As shown in fig. 1 to 3, this embodiment discloses a water ion electric hair dryer, including: the air duct 1 is internally provided with a first air duct 101 and a second air duct 102, the first air duct 101 and the second air duct 102 are independently arranged, the first air duct 101 is sleeved outside the second air duct 102, a first air outlet 1013 of the first air duct 101 and a second air outlet 1024 of the second air duct 102 are positioned on the same side of the air duct 1 and are communicated with the outside, the first air outlet 1013 is arranged adjacent to the second air outlet 1024, and a second air inlet 1021 of the second air duct 102 is positioned on the other side of the air duct 1 and is communicated with the outside; the handle 2 is arranged on the peripheral outer wall of the air duct 1 and is provided with a first air inlet 201 for communicating the outside with the first air duct 101; the fan assembly 3 is arranged on the air duct 1 or the handle 2, and the fan assembly 3 is used for driving the first air duct 101 to generate negative pressure so as to drive air flow to enter the interior of the handle along the first air inlet 201 and be conveyed to the first air duct 101; the heating component 4 is arranged in the first air duct 101; the water ion module 5, the water ion module 5 is disposed in the second air duct 102.

The application discloses a water ion electric hair drier, be equipped with independent first wind channel 101 and second wind channel 102 in dryer 1, fan assembly 3 work makes first wind channel 101 produce the negative pressure and drives the air current to get into the inside of handle 2 and carry to first wind channel 101 and blow out at a high speed through first air outlet 1013, make first air outlet 1013 week side form high-pressure wind ring and form pressure differential with the second air outlet 1024 that sets up adjacently, therefore need not to set up fan assembly 3 in the second wind channel 102 and drive, can make the air flow through second air inlet 1021 inflow second wind channel 102 and form the air flow and export through second air outlet 1024 under the drive of high-pressure wind ring, make the heat that water ion module 5 work produced can be taken away by the air current; meanwhile, the second air duct 102 is located at the inner side of the first air duct 101, and the heat insulation fluid layer can be formed by the air flow of the second air duct 102, so that the water ion module 5 and the heat emitted by the hot air flow in the first air duct 101 can be effectively separated, and the water ion module 5 can be ensured to effectively dissipate heat and continuously and stably work normally.

As shown in fig. 3 to 5, this embodiment further defines, in addition to the features of the above-described embodiment: the air duct 1 comprises an outer cylinder 11 and an inner cylinder 12, wherein a second air inlet 1021 is formed in the outer cylinder 11, the outer cylinder 11 is sleeved outside the inner cylinder 12, the inner cylinder 12 is annular, a second air passing cavity 1023 is formed by encircling the inner annular wall of the inner cylinder 12, a first air outlet 1013 and a second air outlet 1024 are formed in one side, far away from the second air inlet 1021, of the inner cylinder 12, a second air passing port 1022 is formed in one side, close to the second air inlet 1021, of the inner cylinder 12, and the second air inlet 1021, the second air passing cavity 1022, the second air passing cavity 1023 and the second air outlet 1024 are sequentially communicated to form a second air duct 102; the outer annular wall of the inner cylinder 12 and the inner annular wall of the inner cylinder 12 enclose to form a first air passing cavity 102, a first air passing opening 1011 is formed in the outer wall of the inner cylinder 12, the first air passing opening 1011, the first air passing cavity 102 and a first air outlet 1013 are sequentially communicated to form a first air channel 101, the handle 2 is arranged on the outer cylinder 11, and the first air passing opening 1011 is communicated with the first air inlet 201. Through adopting above-mentioned structure, the interior annular wall of inner tube 12 cooperates with outer annular wall and has formed annular second and has crossed wind chamber 1023 on inner tube 12 to the air current that fan subassembly 3 during operation produced flows in first wind chamber 102 and disperses the outflow through first air outlet 1013, realizes the guide to the negative pressure air current, makes the air-out scope enlarge, and the interior annular wall of inner tube 12 encloses simultaneously and closes and form second and cross wind chamber 1023, and second cross wind chamber 1023 is located first wind chamber 102 inboard, and second wind channel 102 and first wind channel 101 are not mutually communicated.

As shown in fig. 4, 8 and 9, this embodiment further defines, in addition to the features of the above-described embodiment: the inner cylinder 12 comprises an inner cylinder body 121 and an inner cylinder cover 122, the inner cylinder body 121 and the inner cylinder cover 122 are annular, the inner cylinder cover 122 is arranged on one side of the inner cylinder body 121, which is close to the second air inlet 1021, the inner cylinder cover 122 and the inner cylinder body 121 enclose to form a first air passing cavity 102, the inner annular wall of the inner cylinder body 121 encloses to form a second air passing cavity 1023, a first air outlet 1013 and a second air outlet 1024 are formed on one side of the inner cylinder body 121, which is far away from the second air inlet 1021, and the inner cylinder cover 122 is provided with a second air passing opening 1022. Through setting up detachable inner tube body 121 and inner tube lid 122, can make the fan subassembly 3 or the installation of structures such as heating element 4 that are located first cross wind chamber 102 more convenient, be favorable to improving production efficiency.

As shown in fig. 4, 7 and 8, this embodiment further defines, in addition to the features of the above-described embodiment: the inner side wall of the outer cylinder 11 is formed with a first limiting protrusion 113, the outer side wall of the inner cylinder 12 is formed with a second limiting protrusion 123, and the second limiting protrusion 123 is close to the side wall of the second air inlet 1021 and abuts against the first limiting protrusion 113. Through forming first spacing protruding 113 and the spacing protruding 123 of second at urceolus 11 inside wall and the inside wall of inner tube 12 respectively, when inner tube 12 installs to preset position, first spacing protruding 113 will be able to form spacing effect to inner tube 12 with the spacing protruding 123 of second offset, play the simple and convenient effect that prevents inner tube 12 pine takes off of assembly.

As shown in fig. 4 and 11, this embodiment further defines, in addition to the features of the above-described embodiment: the water ion module 5 comprises a shell assembly 51 and a water ion assembly 52, wherein the shell assembly 51 is positioned in the second air duct 102, the shell assembly 51 is connected with the outer cylinder 11 or the inner cylinder 12, the shell assembly 51 is provided with a mounting cavity 502, the shell assembly 51 is provided with an air blowing opening 501 and an air blowing opening 503, the air blowing opening 501, the mounting cavity 502 and the air blowing opening 503 are sequentially communicated to form an ion passage, the air blowing opening 501 is communicated with the second air duct 102, the water ion assembly 52 is arranged on the shell assembly 51, and the water ion assembly 52 is positioned in the mounting cavity 502. By arranging the housing assembly 51 for mounting the water ion assembly 52, a protective effect can be formed on the water ion assembly 52, the housing assembly 51 is provided with an ion passage, and air flow in the second air duct 102 enters the ion passage through the blowing inlet 501, so that on one hand, heat can be dissipated to the water ion assembly 52, and on the other hand, the water ion assembly 52 can be contacted with more air and moisture in the air can be cooled and condensed into condensed water, so that the condensed water can be further ionized into water ions and quickly spread to the blowing outlet 503.

In addition to the features of the above embodiments, the present embodiment further defines: the water ionizer includes an ion emitting unit in contact with the refrigerator, the ion emitting unit being located in the ion path, and a refrigerator at least partially located in the ion path.

As shown in fig. 4 and 11, this embodiment further defines, in addition to the features of the above-described embodiment: the water ion module 5 further comprises a buckle 53, the buckle 53 is arranged on the outer side wall of the shell assembly 51, and a clamping hole matched with the buckle 53 is formed in the side wall of the second air duct 102. Through set up buckle 53 and the card hole of looks adaptation on the lateral wall of casing subassembly 51 and second wind channel 102 respectively, through the cooperation in buckle 53 and card hole, can realize the fast assembly of water ion module 5, and the installation is firm.

As shown in fig. 4 and 10, this embodiment further defines, in addition to the features of the above-described embodiment: the outer cylinder 11 comprises an outer cylinder body 111 and an air inlet rear cover 112, the outer cylinder body 111 is sleeved outside the inner cylinder 12, the air inlet rear cover 112 comprises a cover body 1121 and a limit column 1122, the cover body 1121 is arranged on one side, far away from the second air outlet 1024, of the outer cylinder body 111, the limit column 1122 is arranged on one side, close to the inner cylinder 12, of the cover body 1121, the limit column 1122 is provided with a second air inlet 1021, the second air inlet 1021 penetrates through the cover body 1121, the limit column 1122 is arranged opposite to the inner cylinder 12, the limit column 1122 and the inner cylinder 12 are matched to form a clamping hole, and two ends of the buckle 53 are respectively abutted against the inner cylinder 12 and the limit column 1122. Through setting up detachable urceolus body 111 and air inlet back lid 112, can make the installation that is located the inside inner tube 12 of urceolus 11 and other structural members more swift, air inlet back lid 112 comprises lid 1121 and spacing post 1122 simultaneously to when lid 1121 installs to urceolus body 111 on, spacing post 1122 can form the draw-in hole with inner tube 12 cooperation, and the buckle 53 that from this accessible spacing post 1122 presss from both sides tight water ion module 5 with inner tube 12 carries out spacingly it, and after removing air inlet back lid 112, water ion module 5 can easily be demolishd.

As shown in fig. 10, this embodiment further defines, in addition to the features of the above-described embodiment: a limit groove 103 is formed on one side of the limit column 1122 facing the inner cylinder 12, and a clamping hole is formed by enclosing the inner cylinder 12 and the side wall of the limit groove 103. By adopting the structure, the buckle 53 of the water ion module 5 can be further limited, and the water ion module 5 can be prevented from rotating in the second air duct 102 under the blocking of the side wall of the limiting groove 103.

As shown in fig. 4 to 6, this embodiment further defines, in addition to the features of the above-described embodiment: the cover 1121 is provided with a third air inlet 104, the inner cylinder 12, the outer cylinder body 111, the cover 1121 and the limit column 1122 are enclosed to form a ring-shaped third air passing cavity 105, an air passing gap 106 is formed between the limit column 1122 and the inner cylinder 12, and the third air inlet 104, the third air passing cavity 105, the air passing gap 106 and the second air duct 102 are sequentially communicated. Through adopting above-mentioned structure, inner tube 12, urceolus body 111, lid 1121 enclose with spacing post 1122 and form annular third and cross wind chamber 105, and third crosses wind chamber 105 and second wind channel 102 and the third air intake 104 on the lid 1121 intercommunication respectively to the air can flow in second wind channel 102 through second air intake 1021 and third air intake 104 simultaneously, is favorable to improving the amount of wind in second wind channel 102, ensures the radiating effect to water ion module 5.

As shown in fig. 5 and 10, this embodiment further defines, in addition to the features of the above-described embodiment: the peripheral wall of the cover body is provided with a groove 108, and the inner wall of the outer cylinder body 111 and the side wall of the groove 108 are enclosed to form a third air inlet 104.

As shown in fig. 7 and 10, this embodiment further defines, in addition to the features of the above-described embodiment: the outer side wall of the cover body 1121 is provided with a plurality of sliding grooves 107, the sliding grooves 107 are arranged along the circumferential direction of the cover body 1121, the inner side wall of the outer cylinder body 111 is provided with a sliding block 1111 which is matched with the sliding grooves 107, the sliding block 1111 can slide along the sliding grooves 107, the sliding block 1111 at least has a first position and a second position relative to the sliding grooves 107, when the sliding block 1111 is positioned at the first position, the sliding block 1111 and the sliding groove 107 are propped against the side wall far away from the second air inlet 1021, the cover body 1121 is locked with the outer cylinder body 111, when the sliding block 1111 is positioned at the second position, the sliding block 1111 and the sliding groove 107 are separated from the side wall far away from the second air inlet 1021, and the cover body 1121 is separable from the outer cylinder body 111. By adopting the above structure, the cover 1121 and the outer cylinder 111 can be connected by the cooperation of the chute 107 and the slide 1111, and the side wall of the chute 107 can limit the slide 1111, so that when the slide 1111 is located in the chute 107 and abuts against the side wall of the chute 107 far away from the second air inlet 1021, the slide 1111 can be locked to tightly connect the cover 1121 and the outer cylinder 111.

As shown in fig. 11, in addition to the features of the above embodiment, the present embodiment further defines: the buckle 53 comprises a hook 531 and a reinforcing rib 532, the hook 531 is arranged on the outer wall of the shell component 51, the hook 531 is matched with the clamping hole, the reinforcing rib 532 is located at the joint of the hook 531 and the shell component 51, and two ends of the reinforcing rib 532 are connected with the hook 531 and the shell component 51 respectively. The trip 531 is passing the in-process of draw-in hole, and certain elastic deformation can take place for trip 531, through setting up strengthening rib 532, and strengthening rib 532 locates between trip 531 and the shell subassembly 51, can make the link intensity of trip 531 improve, reduces the cracked possibility of trip 531 for trip 531 still can have better connectivity after long-time use.

In addition to the features of the above embodiments, the present embodiment further defines: the number of the buckles 53 is two or more, and the two or more buckles 53 are circumferentially spaced along the housing assembly 51.

As shown in fig. 11, in addition to the features of the above embodiment, the present embodiment further defines: the shell assembly 51 is arranged along the length direction of the second air duct 102, the water ion module 5 further comprises a plurality of buffer protrusions 54, the buffer protrusions 54 are arranged at two ends of the outer side wall of the shell assembly 51, the buffer protrusions 54 are circumferentially distributed at intervals along the shell assembly 51, and the buffer protrusions 54 are located between the shell assembly 51 and the side wall of the second air duct 102. Through adopting above-mentioned structure, when water ion module 5 receives external force to assault and takes place to rock, the buffer projection 54 on the casing subassembly 51 lateral wall will offset with the lateral wall of second wind channel 102 for water ion module 5 rocks the degree and reduces, is favorable to improving the stability of installation and the work of structure such as projecting pole in the installation cavity 502, makes the spoilage decline.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A water ion hair dryer, comprising:

the novel air duct type air conditioner comprises an air duct (1), wherein a first air duct (101) and a second air duct (102) are arranged in the air duct (1), the first air duct (101) and the second air duct (102) are independently arranged, the first air duct (101) is sleeved outside the second air duct (102), a first air outlet (1013) of the first air duct (101) and a second air outlet (1024) of the second air duct (102) are arranged on the same side of the air duct (1) and are communicated with the outside, the first air outlet (1013) and the second air outlet (1024) are arranged adjacently, and a second air inlet (1021) of the second air duct (102) is arranged on the other side of the air duct (1) and is communicated with the outside;

the handle (2) is arranged on the peripheral outer wall of the air duct (1), and is provided with a first air inlet (201) for communicating the outside with the first air duct (101);

the fan assembly (3) is arranged on the air duct (1) or the handle (2), and the fan assembly (3) is used for driving the first air duct (101) to generate negative pressure so as to drive air flow to enter the interior of the handle along the first air inlet (201) and to be conveyed to the first air duct (101);

the heating component (4) is arranged in the first air duct (101);

and the water ion module (5) is arranged in the second air duct (102).

2. The water ion hair dryer according to claim 1, wherein the air duct (1) comprises an outer duct (11) and an inner duct (12), the second air inlet (1021) is formed in the outer duct (11), the outer duct (11) is sleeved outside the inner duct (12), the inner duct (12) is annular, the inner annular wall of the inner duct (12) encloses to form a second air passing cavity (1023), one side, far away from the second air inlet (1021), of the inner duct (12) is provided with the first air outlet (1013) and the second air outlet (1024), one side, close to the second air inlet (1021), of the inner duct (12) is provided with a second air outlet (1022), and the second air inlet (1021), the second air passing cavity (1023) and the second air outlet (1024) are sequentially communicated to form the second air duct (102);

the outer annular wall of the inner cylinder (12) and the inner annular wall of the inner cylinder (12) enclose to form a first air passing cavity (1012), a first air passing opening (1011) is formed in the outer wall of the inner cylinder (12), the first air passing opening (1011), the first air passing cavity (1012) and the first air outlet (1013) are sequentially communicated to form a first air channel (101), the handle (2) is arranged on the outer cylinder (11), and the first air passing opening (1011) is communicated with the first air inlet (201).

3. The water ion hair dryer according to claim 2, wherein the water ion module (5) comprises a shell component (51) and a water ion component (52), the shell component (51) is located in the second air duct (102), the shell component (51) is connected with the outer cylinder (11) or the inner cylinder (12), the shell component (51) is provided with a mounting cavity (502), the shell component (51) is provided with an air blowing opening (501) and an air blowing opening (503), the air blowing opening (501), the mounting cavity (502) and the air blowing opening (503) are sequentially communicated to form an ion passage, the air blowing opening (501) is communicated with the second air duct (102), the water ion component (52) is arranged on the shell component (51), and the water ion component (52) is located in the mounting cavity (502).

4. A water ion hair dryer according to claim 3, wherein the water ion module (5) further comprises a buckle (53), the buckle (53) is arranged on the outer side wall of the shell assembly (51), and a clamping hole matched with the buckle (53) is formed on the side wall of the second air duct (102).

5. The water ion hair dryer according to claim 4, wherein the outer barrel (11) comprises an outer barrel body (111) and an air inlet rear cover (112), the outer barrel body (111) is sleeved outside the inner barrel (12), the air inlet rear cover (112) comprises a cover body (1121) and a limit post (1122), the cover body (1121) is covered on one side, far away from the second air outlet (1024), of the outer barrel body (111), the limit post (1122) is arranged on one side, close to the inner barrel (12), of the cover body (1121), the limit post (1122) is provided with the second air inlet (1021), the second air inlet (1021) penetrates through the cover body (1121), the limit post (1122) and the inner barrel (12) are oppositely arranged, the limit post (1122) and the inner barrel (12) are matched to form the clamping holes, and two ends of the clamping buckle (53) are respectively abutted against the inner barrel (12) and the limit post (1122).

6. The water ion hair dryer according to claim 5, wherein a limit groove (103) is formed on one side of the limit column (1122) facing the inner cylinder (12), and the inner cylinder (12) and the side wall of the limit groove (103) enclose to form the clamping hole.

7. The water ion hair dryer according to claim 5, wherein the cover body (1121) is provided with a third air inlet (104), the inner cylinder (12), the outer cylinder body (111), the cover body (1121) and the limit column (1122) are enclosed to form a third annular air passing cavity (105), an air passing gap (106) is formed between the limit column (1122) and the inner cylinder (12), and the third air inlet (104), the third air passing cavity (105), the air passing gap (106) and the second air duct (102) are sequentially communicated.

8. The water ion hair dryer according to claim 5, wherein an outer side wall of the cover body (1121) is provided with a plurality of sliding grooves (107), the sliding grooves (107) are arranged along the circumferential direction of the cover body (1121), sliding blocks (1111) matched with the sliding grooves (107) are formed on the inner side wall of the outer barrel body (111), the sliding blocks (1111) can slide along the sliding grooves (107), the sliding blocks (1111) at least have a first position and a second position relative to the sliding grooves (107), when the sliding blocks (1111) are located at the first position, the sliding blocks (1111) are propped against the side wall of the sliding grooves (107) away from the second air inlet (1021), the cover body (1121) is locked with the outer barrel body (111), when the sliding blocks (1111) are located at the second position, the sliding blocks (1111) are separated from the side wall of the sliding grooves (107) away from the second air inlet (1021), and the cover body (1121) is separable from the outer barrel body (111).

9. The water ion hair dryer of any one of claims 4 to 8, wherein,

the buckle (53) comprises a clamping hook (531) and a reinforcing rib (532), the clamping hook (531) is arranged on the outer wall of the shell assembly (51), the clamping hook (531) is matched with the clamping hole, the reinforcing rib (532) is positioned at the joint of the clamping hook (531) and the shell assembly (51), and two ends of the reinforcing rib (532) are respectively connected with the clamping hook (531) and the shell assembly (51); and/or

The number of the buckles (53) is two or more, and the two or more buckles (53) are distributed at intervals along the circumferential direction of the shell assembly (51).

10. The water ion hair dryer according to any one of claims 3 to 8, wherein the housing assembly (51) is arranged along the length direction of the second air duct (102), the water ion module (5) further comprises a plurality of buffer protrusions (54), the buffer protrusions (54) are respectively arranged at two ends of the outer side wall of the housing assembly (51), the buffer protrusions (54) are circumferentially distributed at intervals along the housing assembly (51), and the buffer protrusions (54) are located between the housing assembly (51) and the side wall of the second air duct (102).