CN217781530U - Article airing rack and article airing rod - Google Patents

Abstract

The utility model discloses an article sunning frame and article sunning pole, article sunning pole include the body, accept in this internal piece that generates heat and install in the impeller of body one end, and the body is used for hanging the article of treating the sunning, and the body is inside to be formed with the wind channel and to be located the installation cavity of wind channel one side, the wind channel is followed the length direction of casing extends the setting, and the piece that generates heat is acceptd in the installation cavity and is followed the length extending direction setting of body, and the wind channel is including being close to the income wind gap of impeller and with the air outlet of installation cavity intercommunication, the body is in keeping away from and is equipped with one side in the wind channel be equipped with the opening of installation cavity intercommunication. Therefore, the fan wheel forms air flow to blow to the heating part through the air duct, heat generated by the heating part is blown out to the articles aired on the body more fully through the opening, the articles can be dried more efficiently, the heat utilization rate is improved, and the drying efficiency is improved.

Description

Article airing rack and article airing rod

Technical Field

The utility model relates to the technical field of household items, especially relate to an article sunning frame and article sunning pole.

Background

In recent years, with the increasing popularization of smart home devices, people have higher and higher requirements for use experience of various articles used in life. For example, products such as towel racks and clothes hangers usually installed indoors and used for airing towels and clothes have limited indoor ventilation environment, and the towels and clothes hung on the towel racks and the clothes hangers are always in a wet state, so that bacteria are easily bred, the use hygiene is affected, and the use experience of users is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that exists currently, the utility model provides an article sunning frame and article sunning pole with stoving effect with higher speed.

In order to achieve the above object, the embodiment of the present invention provides a technical solution that:

an article airing rod comprises a body, a heating piece contained in the body and a fan wheel arranged at one end of the body, wherein the body is used for hanging articles to be aired, an air channel and an installation cavity located on one side of the air channel are formed inside the body, the air channel extends along the length direction of a shell, the heating piece is contained in the installation cavity and extends along the length direction of the body, the air channel comprises an air inlet close to the fan wheel and an air outlet communicated with the installation cavity, and an opening communicated with the installation cavity is formed in one side, away from the air channel, of the body.

The fan wheel is a turbine fan wheel and exhausts air towards the air duct along the length direction of the body; and/or the presence of a gas in the gas,

the fan wheel comprises a first fan wheel and a second fan wheel which are respectively positioned at two ends of the air duct, a separation sheet is arranged in the air duct, and the separation sheet separates the air duct into two parts which respectively correspond to the first fan wheel and the second fan wheel.

Wherein, the width of wind channel is the convergent setting towards the air outlet.

The air duct is positioned above the mounting cavity, and the air outlet and the opening are arranged opposite to each other up and down; and/or the presence of a gas in the gas,

still include the protection screen panel, the protection screen panel is located the opening part.

The air duct comprises a plurality of air outlets, and the air outlets of the air duct are sequentially arranged along the length direction of the body.

The two adjacent air channels are separated by a wind shield, and the air inlets of the air channels are all positioned at the tail end of the body close to the fan wheel.

The air inlets of the air ducts are sequentially arranged in the body from one side close to the installation cavity to one side far away from the installation cavity, the air outlets of the air ducts with the air inlets relatively close to the installation cavity are positioned at the positions relatively close to the fan wheel in the length direction of the body, and the air outlets of the air ducts with the air inlets relatively far away from the installation cavity are positioned at the positions relatively far away from the fan wheel in the length direction of the body.

The air inlets of the plurality of air channels are arranged in the body and surround the outer periphery of the mounting cavity.

The air duct comprises a first air duct, a second air duct and a third air duct which are formed by being separated through a wind shield, the air inlet comprises a first air inlet, a second air inlet and a third air inlet which respectively correspond to the first air duct, the second air duct and the third air duct, the air outlet comprises a first air outlet, a second air outlet and a third air outlet which respectively correspond to the first air duct, the second air duct and the third air duct, the second air inlet and the third air inlet are respectively positioned at two opposite sides of the first air inlet, and the first air outlet, the second air outlet and the third air outlet are sequentially arranged along the length direction of the body from one end close to the impeller to the other end.

An article sunning frame, include any embodiment article sunning pole and with the mechanism that hangs that article sunning pole is connected, hang the mechanism include with the connecting portion that body surface connects and locate the terminal installation department of connecting portion, article sunning frame accessible the installation department is fixed in the assigned position.

The article airing rack and the article airing rod provided by the embodiment are characterized in that an air duct and an installation cavity located on one side of the air duct are formed inside a body of the article airing rod, the air duct extends along the length direction of the shell, the body is used for hanging articles to be aired, the heating element is contained in the installation cavity and is arranged along the length extending direction of the body, the air duct comprises an air inlet close to the fan wheel and an air outlet communicated with the installation cavity, and an opening communicated with the installation cavity is formed in one side, away from the air duct, of the body. The fan wheel forms airflow and blows in the installation cavity through the air outlet of the air duct, heat generated by the heating part is blown out through the opening, generally speaking, moisture on an article to be dried can be mainly concentrated on the part below the article drying rod under the action of gravity, the article drying rod generates heat after the heating part is opened in the use process, the fan wheel forms airflow and blows the airflow to the heating part after the airflow is turned through the air duct, the heat generated by the heating part is blown out to the article dried on the body more fully through the opening, the article can be dried more efficiently, the heat utilization rate is improved, and the drying efficiency is improved.

Drawings

FIG. 1 is a perspective view of an article drying rack according to a first embodiment of the present application;

FIG. 2 is a schematic perspective view of the article drying rack of FIG. 1 from another angle;

FIG. 3 is a cross-sectional view of the article drying rack of FIG. 1;

FIG. 4 is an exploded view of the article hanger of FIG. 1;

FIG. 5 is an exploded view of another angle of the article drying rack of FIG. 1;

FIG. 6 is another cross-sectional view of the article drying rack of FIG. 1;

FIG. 7 is a perspective view of an article drying bar according to a second embodiment of the present application;

FIG. 8 is an exploded view of the article airing bar of FIG. 7;

FIG. 9 is a schematic view of another angle of the article drying bar of FIG. 8;

FIG. 10 is a cross-sectional view of the article airing bar of FIG. 7;

FIG. 11 is a perspective view of the body of the article airing bar according to the third embodiment of the present application;

FIG. 12 is a right side view of the body of FIG. 11;

fig. 13 isbase:Sub>A cross-sectional view of the body of fig. 12 taken along the directionbase:Sub>A-base:Sub>A.

Detailed Description

The technical solution of the present invention is further elaborated below by referring to the drawings and the specific embodiments of the specification. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the following description, reference is made to the expression "some embodiments" which describe a subset of all possible embodiments, but it should be understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict.

It will also be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "inner," "outer," "left," "right," and the like are for purposes of illustration only and do not denote a single embodiment.

Referring to fig. 1 and 2, an article drying rack according to an embodiment of the present invention includes an article drying rod 20 and a hanging mechanism 10 connected to the article drying rod 20, where the hanging mechanism 10 includes a connecting portion 11 connected to an outer surface of a body 21 of the article drying rod 20 and a mounting portion 12 disposed at a distal end of the connecting portion 11, and the article drying rack is fixed at a predetermined position by the mounting portion 12. Generally, when the article drying rack is used as a towel rack, the article drying rack may be coupled and fixed to a wall surface of a bathroom or a lavatory through the mounting portion 12. Further description of the article airing bar 20 is described in detail below.

Referring to fig. 3 to 5, the article airing rod 20 includes a body 21 having a cavity therein and a heating element 23 accommodated in the cavity, the body 21 is used for hanging an article to be aired, an opening 211 is formed at one side of the body 21, the heating element 23 includes a heating element 231 extending along a length direction of the body 21 and a heat collecting cover 232 surrounding the heating element 231, a radiation opening 230 is formed at a side of the heat collecting cover 232 corresponding to the opening 211, and heat generated by the heating element 231 is radiated outwards through the radiation opening 230 and the opening 211 under the action of the heat collecting cover 232.

In the above embodiment, the heating assembly 23 is disposed in the body 21 of the article drying rod 20, the heating assembly 23 includes the heating member 231 extending along the length direction of the body 21 and the heat collecting cover 232 surrounding the heating member 231, the article to be dried is suspended on the body 21, generally speaking, moisture on the article to be dried is mainly concentrated on the portion below the article drying rod 20 under the action of gravity, during the use process, the heating member 231 is opened to generate heat, and the heat is collected by the heat collecting cover 232, so that the heat is radiated to the article dried on the body 21 through the radiation port 230 and the opening 211, and thus, the heat generated by the heating member 231 can be radiated more intensively to the portion on the article to be dried through the radiation port 230, thereby drying the article more efficiently, improving the heat utilization rate, and improving the drying efficiency.

In some embodiments, please refer to fig. 7 and 8, the article drying rod 20 further includes a protective mesh 26 disposed at the opening 211 of the body 21, wherein the protective mesh 26 has a high temperature resistant characteristic and is used for isolating the heating element 231 from the external environment, so as to prevent the heating element 231 from being damaged by colliding with other objects in the external environment, or prevent a user from being burned by directly touching the opened heating element 231. The protective mesh 26 is provided with a plurality of through holes 261, and the through holes 261 may be round holes, strip-shaped holes or other shapes.

In some embodiments, the article airing rod 20 further includes a fan wheel 22, a partition plate 214 is disposed in the body 21 and divides the cavity into an air duct 212 and a mounting cavity 213, the air duct 212 and the mounting cavity 213 both extend along the length direction of the body 21, the air duct 212 is located above the mounting cavity 213, the air duct 212 includes an air inlet 218 close to the fan wheel 22 and an air outlet 215 communicated with the mounting cavity 213, the air outlet 215 is disposed on the partition plate 214, the heating element 23 is disposed in the mounting cavity 213, and the fan wheel 22 rotates to form an air flow entering the mounting cavity 213 through the air duct 212 and the air outlet 215. Optionally, the air outlet 215 and the opening 211 are disposed opposite to each other, specifically, the air outlet 215 is located right above the opening 211, so that the airflow generated by the fan wheel 22 can be blown out downwards more quickly, and thus noise generated by repeated rotation of the airflow in the installation cavity 213 is avoided. Optionally, the air outlet 215 is smaller than the opening 211, so that the airflow entering the mounting cavity 213 is more concentrated and the heat coverage area is wider when the airflow is blown out from the opening 211. Wherein, separate into wind channel 212 and installation cavity 213 through baffle 214 with the cavity in the body 21, heating element 23 locates in installation cavity 213, can make the heat that heating element 23 produced gather in installation cavity 213, promotes the intensification efficiency in installation cavity 213, reduces calorific loss. By arranging the fan wheel 22, the airflow generated by the fan wheel 22 firstly flows into the air duct 212 and then flows into the heat collecting cover 232 positioned in the mounting cavity 213 from the air duct 212 through the air outlet 215, so that the stable airflow direction is favorably formed, the turbulence is reduced, the airflow generated by the fan wheel 22 flows into the heat collecting cover 232 from the air duct 212 to carry heat and then is blown out from the radiation port 230, the temperature of the airflow in the heat collecting cover 232 can be rapidly raised, hot air is formed and blown out from the radiation port 230, and the drying efficiency is favorably improved. In other embodiments, the partition 214 may not be disposed in the body 21, and the fan 22 rotates to form an air flow to directly blow into the heat collecting cover 232 in the cavity.

Optionally, the heat collecting cover 232 is further provided with a through slot 2321 communicated with the air outlet 215, the through slot 2321 is disposed opposite to the radiation port 230, and the through slot 2321 is smaller than the radiation port 230, so that at least a portion of the heat collecting cover 232 faces the position where the radiation port 230 is disposed from the position where the through slot 2321 is disposed, thereby ensuring that heat generated by the heat generating member 231 can be radiated outwards through the radiation port 230. The heat-collecting cover 232 may be integrally formed, the through slot 2321 is disposed on a side of the heat-collecting cover 232 away from the radiation opening 230, and optionally, the heat-collecting cover 232 may also be formed by combining a plurality of separate parts. In this embodiment, the heat collecting cover 232 includes two shells 233 symmetrically disposed, the two shells 233 are disposed on two opposite sides of the heat generating member 231, respectively, and the through slot 2321 and the radiation port 230 are formed between the two shells 233. The outer surface of the housing 233 includes a plurality of planes forming a predetermined angle therebetween, and when the heat collecting cover 232 is installed in the cavity, the edges of the planes extend along the length direction of the cavity and abut against the inner surface of the cavity. The heat collecting cover 232 is composed of two separated shells 233, and the shells 233 can generate certain elastic deformation when being arranged in the cavity, so that the installation can be simplified, and the installation is more stable.

The width of the air duct 212 is gradually reduced toward the air outlet 215. Referring to fig. 6, the air duct 212 is located on a side of the body 21 away from the opening 211, and a cross-sectional area of the air duct 212 is smaller than a cross-sectional area of the mounting cavity 213. The cross section of the air duct 212 is substantially semicircular, and the width of the air duct 212 is gradually reduced towards the position of the air outlet 215, so that the wind power is more concentrated and the wind speed is faster when the airflow generated by the fan wheel 22 flows into the air duct 212 and then flows into the heat collecting cover 232 of the installation cavity 213.

In some embodiments, the article airing rod further includes an end cap 24 detachably connected to one end of the body 21, and the fan wheel 22 is installed in the end cap 24. Of course, the end cap 24 and the body 21 may be provided as a single structure. An air inlet 241 is disposed on the end cover 24 corresponding to the fan wheel 22, and a through hole 242 communicated with the air duct 212 is disposed at one end of the end cover 24 connected to the body 21. The body 21 has a substantially hollow cylindrical shape, and the opening 211 is located at a lower side of the body 21, that is, the opening 211 is oriented in a direction perpendicular to the ground after the article is aired on the body 21. The outer contour shape of the end cover 24 is substantially the same as the outer contour shape of the body 21, the end cover 24 is installed on the body 21 to close one end of the body 21, the fan wheel 22 is located in the end cover 24, optionally, the fan wheel 22 may be a turbine fan wheel, the air inlet direction of the turbine fan wheel is perpendicular to the air outlet direction, the turbine fan wheel is exhausted toward the air duct 212 along the length direction of the body 21, the turbine fan wheel sucks air from the air inlet 241 at the lower side of the end cover 24, the generated air flows into the air duct 212 through the through hole 242, the air pressure in the air duct 212 can be increased, even if the length of the body 21 is long, the position of the body 21 far away from the turbine fan wheel also has the air pressure, and thus the air flow can more uniformly flow into the heat collecting cover 232 and be blown out from the radiation port 230. The end cover 24 can provide space for installing the turbine fan wheel, and is convenient to assemble.

Optionally, an ozone generator 251 is further disposed in the end cover 24 and located on the air outlet path of the fan wheel 22. The ozone generator 251 generates ozone to flow along with the airflow generated by the fan wheel 22, so that the airflow has a sterilizing effect. Optionally, a circuit board 25 and a timer 252 located on the circuit board 25 are further disposed in the end cover 24, and the timer 252 can control the fan wheel 22 and the heating element 231 to be turned off according to a set time length. The set time period can be set by a user, and the timer 252 can start timing when the fan wheel 22 or the heating element 231 is turned on, and automatically control the fan wheel 22 or the heating element 231 to stop working when the set time period is reached.

In some embodiments, a plurality of baffles 216 are disposed at intervals along the length of the air outlet 215, and the baffles 216 divide the air outlet 215 into a plurality of independent airflow inlets. The air outlet 215 is partitioned by the flow guide plate 216 to form a plurality of independent air flow inlets, which is beneficial to improving the uniformity of air flow passing through the air outlet 215. Optionally, the fan 22 includes a first fan and a second fan located at two ends of the air duct 212, respectively, a spacer 217 is disposed in the air duct 212, and the spacer 217 separates the air duct 212 into two parts corresponding to the first fan and the second fan, respectively. The partition 217 is disposed to make the air duct 212 correspond to the first fan wheel and the second fan wheel, so that the air flows generated by the two fan wheels 22 are relatively independent, and interference is reduced.

In some embodiments, a humidity sensor 253 is further disposed on the body 21, the humidity sensor 253 is used for detecting the humidity of the articles aired on the body 21 and sending the detected humidity to a control circuit, and the control circuit controls the operation of the heat generating member 231 according to the humidity. The humidity sensor 253 can be arranged on the side wall of the upper side of the body 21, when an article is aired on the body 21, the humidity sensor 253 can be directly contacted with the part of the article contacted with the body 21, the humidity of the article is detected and sent to the control circuit, and when the humidity is higher, the control circuit can automatically start the heating part 231 and the fan wheel 22 to work or automatically switch the working modes of the heating part 231 and the fan wheel 22 to higher gears; conversely, when the humidity is low, the control circuit may automatically turn off the heat generating member 231 and the fan wheel 22, or switch the operation mode of the heat generating member 231 and the fan wheel 22 to a lower gear. Optionally, a light sensor 254 is further disposed on the body 21, the light sensor 254 is configured to detect a status signal of the body 21 with an article currently aired, and send the status signal to the control circuit, and the control circuit controls the heating element 231 to operate according to the status signal. The light sensor 254 can also be arranged on the side wall of the upper side of the body 21, when the article is aired on the body 21, the light sensor 254 can detect that the article is aired on the body 21, so as to obtain a state signal of the article currently aired on the body 21 and send the state signal to the control circuit, and the control circuit can automatically control the heating element 231 and the fan wheel 22 to be started; on the contrary, when the article is taken off from the main body 21, the light sensor 254 can detect that there is no article being dried on the main body 21, and the control circuit can automatically control the heating element 231 and the fan wheel 22 to stop working. Wherein the control circuit can be disposed on the circuit board 25 inside the end cap 24, and the humidity sensor 253 and the light sensor 254 can be electrically connected to the control circuit through wires. Optionally, the control circuit automatically controls the heating element 231 and the fan wheel 22 to work, and simultaneously controls the ozone generator 251 to be turned on or off.

Optionally, the heat collecting cover 232 is made of a metal material, that is, the heat collecting cover 232 is a metal heat collecting cover 232, and heat generated by the heat generating member 231 is transferred to the body 21 through the metal heat collecting cover 232 to dry a contact portion of the article and the body 21. Specifically, the metal heat collecting cover 232 may be made of a metal material such as aluminum, stainless steel, etc., and the surface of the metal heat collecting cover 232 facing the heat generating member 231 is polished to be a bright surface, so that a better radiation effect may be provided for the heat generated by the heat generating member 231, and the heat may be radiated from the radiation opening 230 to the outside more intensively. Optionally, the body 21 is made of a thermally conductive plastic material. When the article is aired on the body 21, the body 21 can conduct heat to the article, and the part in contact with the body 21 can be directly heated and dried by the body 21 with better heat conductivity. Optionally, the heat generating member 231 is a carbon fiber heat generating tube. The carbon fiber heating tube has good heating effect, light weight and high heating temperature control accuracy. In other embodiments, the heat collecting cover 232 is provided with heat dissipating holes through which the heat generated by the heat generating member 231 is transferred to the body 21 to dry the portion of the article contacting the body 21. Of course, the heat collecting cover 232 may also be a metal heat collecting cover 232 and provided with the heat dissipating holes, so as to transfer heat to the body 21 more efficiently.

Referring to fig. 7 to 10, a second embodiment of an article airing bar 20 according to the present application is different from the first embodiment in that: the air duct 212 includes a plurality of air outlets 215 of the air duct 212 arranged in sequence along the length direction of the body 21. By forming the plurality of air channels 212 and arranging the air outlets 215 of the plurality of air channels 212 in sequence along the length direction of the body 21, the air flow generated by the fan wheel 22 can be divided into different air volumes with different required sizes, and the air volumes are respectively guided to blow to different parts of the heat generating member 231 through the corresponding air channels 212, for example, the air volume 212 of the air channel of which the air outlet 215 faces the center part of the heat generating member 231 can be larger than the air volume of the air channels 212 of which the air outlets 215 face the opposite ends of the heat generating member 231. Optionally, two adjacent air ducts 212 are separated by an air baffle 219, and the air inlets 218 of a plurality of air ducts 212 are located at the end of the body 21. The air inlets 218 are close to the fan wheel 22, and the cross sections of the air inlets 218 may be different according to the amount of air required by the corresponding air ducts 212, so that the air flow generated by the fan wheel 22 may be purposefully blown to different portions of the heat generating member 231 located in the mounting cavity 213 through the respective air ducts 212, so as to more fully and uniformly blow out the heat generated by the heat generating member 231 from the opening 211. Optionally, the cross section of the air outlet 215 of the air duct 212 may also be different according to the air volume required by the corresponding air duct 212.

Optionally, the air inlets 218 of the plurality of air channels 212 are sequentially arranged in the body 21 from a side close to the mounting cavity 213 to a side far from the mounting cavity 213, in the plurality of air channels 212, the air inlet 218 of the air channel 212 relatively close to the mounting cavity 213 is located at a position relatively close to the impeller 22 in the length direction of the body 21, and the air inlet 218 of the air channel 212 relatively far from the mounting cavity 213 is located at a position relatively far from the impeller 22 in the length direction of the body 21. A plurality of wind channels 212 are stacked on one side of the installation cavity 213, and a plurality of wind outlets 215 are sequentially arranged along the length direction of the body 21, so that a plurality of wind channels 212 independent from each other are conveniently formed. Optionally, the air duct 212 includes a first air duct 2121, a second air duct 2122, and a third air duct 2123 partitioned by an air blocking plate 219, the air inlet 218 includes a first air inlet 2181, a second air inlet 2182, and a third air inlet 2183 corresponding to the first air duct 2121, the second air duct 2122, and the third air duct 2123, respectively, the air outlet 215 includes a first air outlet 2151, a second air outlet 2152, and a third air outlet 2153 corresponding to the first air duct 2121, the second air inlet 2182, and the third air inlet 2183, respectively, in the body 21, which are arranged in sequence from a side close to the installation cavity 213 to a side far from the installation cavity 213, the first air outlet 2151, the second air outlet 2152, and the third air outlet 2153 are arranged in sequence from one end close to the fan wheel 22 to the other end along a length direction of the body 21, and the air inlet 218 is arranged in sequence close to the installation cavity 213, so that the air outlet 2151, the air outlet 2152, and the third air outlet 2153 is arranged in sequence from one end close to the installation cavity 215, which is arranged close to the installation cavity 213, the air duct 215, which is relatively close to the air outlet 215, the air duct 215, which is simplified structure of the air duct 215 is relatively close to the fan wheel 213.

It is understood that the number of the air ducts 212 may also be two or more than three, for example, the air duct 212 further includes a fourth air duct 2124 partitioned by a wind shielding plate 219, the air inlet 218 includes a first air inlet 2181, a second air inlet 2182, a third air inlet 2183 and a fourth air inlet 2184 corresponding to the first air duct 2121, the second air duct 2122, the third air duct 2123 and the fourth air duct 2124, respectively, the first air inlet 2181, the second air inlet 2182, the third air inlet 2183 and the fourth air inlet 2184 are sequentially arranged in the body 21 from a side close to the mounting cavity 213 to a side away from the mounting cavity 213, the air duct outlet 215 includes a first air outlet 2151, a second air outlet 2152, a third air outlet and a fourth air outlet 2154 corresponding to the first air duct 2121, the second air outlet 2122, the third air duct 2123 and the fourth air duct 2124, respectively, and the first air outlet 2151, the second air outlet 2153 and the fourth air outlet 2154 are sequentially arranged from one end of the body 21521 along a length of the fan wheel. The first air passage 2121, the second air passage 2122, the third air passage 2123 and the fourth air passage 2124 are generally rectangular as a whole, the first air inlet 2181, the second air inlet 2182, the third air inlet 2183 and the fourth air inlet 2184 are sequentially arranged in the body 21 from a side close to the installation cavity 213 to a side away from the installation cavity 213, and the first air outlet 2151, the second air outlet 2152, the third air outlet 2153 and the fourth air outlet 2154 are sequentially arranged along the length direction of the body 21 from one end close to the fan wheel 22 to the other end, so that the air flow generated by the fan wheel 22 can be separated into a plurality of air flows as required by the arrangement of the plurality of air passages 212, and the air flows are directed to different parts of the heat generating element 231 through the guidance of the plurality of independent air passages 212.

It should be noted that the arrangement of the plurality of air ducts 212 is not limited to the above embodiment, and referring to fig. 11 to 13, the article airing rod provided in the third embodiment of the present application is different from the second embodiment mainly in that: the air inlets 218 of the air ducts 212 are disposed around the outer periphery of the mounting cavity 213 in the body 21, the second air inlet 2182 and the third air inlet 2183 are respectively located at two opposite sides of the first air inlet 2181, and the first air outlet 2151, the second air outlet 2152 and the third air outlet 2153 are sequentially arranged along the length direction of the body 21 from one end close to the impeller 22 to the other end, so that the overall peripheral profile of the body 21 is kept circular, and the structural design of the air ducts 212 which are independent of each other is simplified.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. The protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The article airing rod is characterized by comprising a body, a heating piece contained in the body and a fan wheel arranged at one end of the body, wherein the body is used for hanging articles to be aired, an air channel and an installation cavity located on one side of the air channel are formed in the body, the air channel extends along the length direction of the body, the heating piece is contained in the installation cavity and extends along the length extending direction of the body, the air channel comprises an air inlet close to the fan wheel and an air outlet communicated with the installation cavity, and an opening communicated with the installation cavity is formed in one side, away from the air channel, of the body.

2. The article airing bar of claim 1, wherein said fan wheel is a turbine fan wheel and blows air toward said duct along a length of said body; and/or the presence of a gas in the gas,

the fan wheel comprises a first fan wheel and a second fan wheel which are respectively positioned at two ends of the air duct, a separation sheet is arranged in the air duct, and the separation sheet separates the air duct into two parts which respectively correspond to the first fan wheel and the second fan wheel.

3. The article airing bar of claim 1, wherein the width of said air duct is tapered toward said air outlet.

4. The article airing bar of claim 1, wherein said air duct is located above said mounting cavity, and said air outlet and said opening are disposed opposite one another; and/or the presence of a gas in the atmosphere,

the protective net cover is arranged at the opening.

5. The article airing bar of claim 1, wherein said air duct includes a plurality of air outlets, and said air outlets of said plurality of air ducts are arranged in sequence along a length direction of said body.

6. The article airing bar of claim 5, wherein adjacent two of said air ducts are separated by a wind screen, and said air inlets of said air ducts are located at a distal end of said body near said fan wheel.

7. The article airing bar according to claim 5, wherein said air inlets of said plurality of air paths are arranged in said body in sequence from a side close to said mounting cavity to a side away from said mounting cavity, and of said plurality of air paths, said air inlet of said air path relatively close to said mounting cavity is located at a position relatively close to said fan wheel in a longitudinal direction of said body, and said air inlet of said air path relatively far from said mounting cavity is located at a position relatively far from said fan wheel in a longitudinal direction of said body.

8. The article airing bar of claim 5, wherein said air inlets of said plurality of air channels are disposed within said body around an outer periphery of said mounting cavity.

9. The article airing bar of claim 8, wherein the duct includes a first duct, a second duct, and a third duct partitioned by a wind screen, the air inlets include a first air inlet, a second air inlet, and a third air inlet corresponding to the first duct, the second duct, and the third duct, respectively, and the air outlets include a first air outlet, a second air outlet, and a third air outlet corresponding to the first duct, the second duct, and the third duct, respectively, the second air inlet and the third air inlet being located on opposite sides of the first air inlet, respectively, and the first air outlet, the second air outlet, and the third air outlet being sequentially arranged along a length direction of the body from one end near the impeller to the other end.

10. An article drying rack comprising the article drying pole according to any one of claims 1 to 9 and a hanging mechanism connected to the article drying pole, wherein the hanging mechanism comprises a connecting portion connected to the outer surface of the body and a mounting portion provided at the end of the connecting portion, and the article drying rack can be fixed at a designated position through the mounting portion.

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