CN115265138A

CN115265138A - All-round drying equipment of head protective equipment

Info

Publication number: CN115265138A
Application number: CN202210920382.4A
Authority: CN
Inventors: 刘亚琦; 胡新宇
Original assignee: Shenzhen Feika Technology Co ltd
Current assignee: Shenzhen Feika Technology Co ltd
Priority date: 2022-07-29
Filing date: 2022-07-29
Publication date: 2022-11-01
Anticipated expiration: 2042-07-29
Also published as: CN115265138B

Abstract

The invention discloses omnibearing drying equipment for a head protector, which comprises a base, wherein an installation cavity is arranged in the base, a hollow upright post is arranged in the middle position of the upper end surface of the base, an air inlet channel is arranged in the upright post, an air outlet of an air pump is connected with an air outlet pipe and is connected and communicated with the air inlet channel of the upright post through the air outlet pipe, a supporting air bag is fixedly arranged at the upper end of the base, and a drying disc is movably arranged on the upright post at the upper end of the supporting air bag; according to the novel helmet drying method, the elastic contact piece which can be unfolded is arranged to be in contact with the helmet lining and then be unfolded, the elastic contact piece can be unfolded while slightly unfolding the helmet lining by the aid of the structure, accumulation and hardening of sweat stains, dirt and the like at local positions of the helmet lining can be effectively prevented, drying and sterilization are more thorough, the UV lamp is arranged inside the splicing seam, and the UV lamp is hidden, cannot hurt eyes of a human body after the helmet is taken down, and is safer.

Description

All-round drying equipment of head protective equipment

Technical Field

The invention relates to the field of helmet drying, in particular to omnibearing drying equipment for a head protector.

Background

The motorcycle helmet is a skin-attached product, and a large amount of sweat is adsorbed on the lining of the helmet in summer and is continuously accumulated, so that a large amount of bacteria are generated in the helmet and peculiar smell is generated. Secondly, along with the rise of the travel culture, some users who like the travel do not have the condition to unpick, wash and dry the helmet in the process of long-distance motorcycle travel, need a simple and fast product that disinfects and disinfects by the helmet, in order to ensure riding safety of riders and provide healthy riding conditions for riders, also need a helmet disinfection nursing product more.

Helmet stoving product on the present market, it is generally detained the helmet on drying device, then utilize air current cooperation heater to blow out hot-blast, reach the purpose of stoving helmet inside lining, but this kind of mode has a lot of problems, for example the people is when wearing the helmet, the sweat is carrying the dust, during the fibre net of helmet inside lining can be soaked to spot etc., because the head can slightly strut the inside lining when wearing, lead to these dirty things can enter into the fibre net, take off the helmet after, the fibre net resets, lead to the condition that helmet inside lining part position can appear hardening in the past for a long time, bacterial growing is serious, even ordinary helmet drying apparatus has the disinfection's of disinfecting function, also difficult clear away.

In addition, the UV lamp is by the wide application in disinfection field of disinfecting, and disinfection of disinfecting is come for the helmet to the UV lamp commonly used in the market at present, but the UV lamp has very big damage to human eyes, so adopt this kind of UV lamp to need very notice, in order to avoid the emergence of this kind of condition, use the condition of intelligent inductive switch UV lamp a bit, the condition that does not work can appear in the switch of intelligent inductive control UV lamp, after all intelligent control is influenced by environmental factor very greatly, life is often very short.

Finally, because traditional drying equipment only buckles the helmet in the upper end, then the blowout hot-air dries and disinfects, and this kind of mode carries out diffuse drying to whole helmet space, and drying efficiency is low, and the air current velocity of flow is slow, and it is not thorough to dry and disinfect.

Disclosure of Invention

The invention aims to solve the technical problem that the omnibearing drying equipment for the head protector utilizes the opening force of the elastic contact element to slightly open the lining of the helmet after the lining is contacted and compressed when in work, so that the problems that the lining of the helmet is hardened to breed bacteria and the drying and sterilization are not thorough can be effectively solved, and the drying, sterilization and disinfection of the helmet can be more comprehensive and thorough by utilizing the structure, so that the use is more sanitary; in addition, the structure borrows the appearance structure and the working mode of the elastic contact element, a working mechanism that the elastic contact element works and is expanded is reasonably applied, the design is more reasonable, compared with the existing electronic mode, the physical mechanism has longer service life, and the condition that the electric control mode is out of order can be effectively prevented.

The invention is realized by the following technical scheme: an omnibearing drying device for head protectors comprises a base, wherein an installation cavity is arranged in the base, a control main board, an air pump and a battery are installed in the installation cavity, a hollow upright post is arranged in the middle of the upper end face of the base, an air inlet channel is arranged in the upright post, and an air outlet of the air pump is connected with an air outlet pipe and communicated with the air inlet channel of the upright post through the air outlet pipe;

a supporting air bag is fixedly arranged at the upper end of the base, a drying disc is movably arranged on a stand column at the upper end of the supporting air bag, a placing cavity with an opening at the top is arranged on the upper end surface of the drying disc, more than one hollow convex ring is arranged outside the stand column, the inner part of the convex ring is communicated with an air inlet channel, more than one drying ring with different outer diameters is arranged outside the stand column from top to bottom, each drying ring corresponds to one convex ring, and the drying rings are communicated with the convex rings through connecting hoses;

an annular concave cavity is formed in the outer part of the drying ring, an elastic gas storage ring with elastic deformation capacity is arranged in the annular concave cavity, more than one elastic contact piece is arranged in a way that the outer ring of the elastic gas storage ring surrounds the elastic gas storage ring, the elastic contact pieces are arc-shaped, are pressed and spread after being contacted with the helmet lining, and stretch the helmet lining by the outward spreading force of the elastic contact pieces;

the elastic contact piece is communicated with the elastic gas storage ring, the elastic gas storage ring is communicated with the drying ring, a heater is arranged in the upright post, gas output by the gas pump is heated by the heater and then output into the drying ring and enters the elastic contact piece from the drying ring, more than one drying small hole is arranged on the outer arc surface of the elastic contact piece in parallel, and hot air is discharged to the outside from the drying small hole and is contacted with the lining of the helmet;

the middle of the outer side face of the elastic contact element is provided with a splicing seam, an embedded UV lamp is arranged in the elastic contact element on the inner side of the splicing seam, when the elastic contact element is in contact with the helmet lining and is compressed and unfolded with the helmet lining, the splicing seam is opened and exposes the UV lamp, and the UV lamp, the air pump and the heater are all connected with the control mainboard, controlled by the control mainboard and powered by a battery.

As preferred technical scheme, be provided with a support gasbag chamber in the support gasbag, the inlet channel who supports gasbag chamber and stand switches on through first pipe connection, and first pipe is located support gasbag chamber one side and installs first solenoid valve, and the outside of supporting the gasbag simultaneously is provided with the second pipe, installs the second solenoid valve on the second pipe, and the input position that lies in the heater in the inlet channel of stand sets up a sealed bulkhead, installs a third pipe on the sealed bulkhead, installs the third solenoid valve on the third pipe, first solenoid valve, second solenoid valve and third solenoid valve all with control mainboard connection and open or close through control mainboard control to supply power by the battery.

As a preferred technical scheme, an inlet and outlet wire hole is formed in the position, opposite to the control mainboard, of the bottom surface of the placing cavity, a wiring pipe with a conductive upper end and a conductive lower end is arranged in the supporting air bag opposite to the inlet and outlet wire hole, the UV lamps are connected in series, then the connecting wires of the UV lamps are connected with the control mainboard through the inlet and outlet wire hole and the wiring pipe, more than one control key is arranged on the control mainboard, the control key is located on the upper end face of the base, and the battery is a lithium battery and is charged through a charging interface arranged on the control mainboard.

According to a preferable technical scheme, the elastic contact piece is made of an elastic metal material, an air inlet cavity is formed in the elastic contact piece, an air inlet expansion cavity is formed in the elastic air storage ring, the air inlet expansion cavity and the air inlet cavity in the elastic contact piece are connected and communicated through more than one first connecting guide pipe, an annular transition cavity is formed in each drying ring, and the elastic air storage ring and the drying rings are connected and communicated through a plurality of second connecting guide pipes.

As a preferred technical scheme, more than one first interface is arranged on the inner side face of the drying ring in a circle around the drying ring, second interfaces are arranged at positions, corresponding to the first interfaces, outside the convex ring, and the connecting hose is connected with the second interfaces through the first interfaces.

As the preferred technical scheme, the side face of the drying disc is provided with more than one screw hole, the screw holes are locked into a locking screw rod from outside to inside, the locking screw rod is locked into the placing cavity from outside and tightly presses the outer side face of the helmet placed in the placing cavity, and the head of the locking screw rod is sleeved with a silica gel sleeve and is in contact with the helmet through the silica gel sleeve.

According to the preferable technical scheme, an inclined guide groove is formed in the position, located in the placing cavity, of the outer portion of the stand column, a guide sliding block is arranged in the position of an inner hole of the drying disc, and the guide sliding block is buckled into the inclined guide groove in a sliding mode.

Preferably, the heater is a PTC heater.

The beneficial effects of the invention are: 1. the elastic contact piece in the arc shape is adopted, so that after the elastic air storage ring is inflated, the elastic contact piece can be in contact with the helmet lining for extrusion, the elastic contact piece is expanded, the helmet lining is slightly expanded due to the fact that the helmet lining is in contact with the elastic contact piece, the lining can be slightly expanded by the elastic contact piece which is continuously expanded, and therefore the helmet can be better nursed in a sterilization and drying mode after being expanded, hardening of the part of the helmet lining can be effectively prevented, and breeding of bacteria can be effectively reduced;

2. according to the invention, the exhaust port is arranged on the elastic contact piece, and the elastic contact piece is close to the helmet liner, so that the directional air outlet mode can be used for deeply sterilizing and drying, the sterilizing effect is better, and the drying efficiency is higher;

3. according to the invention, the splicing seam is formed in the middle of the elastic contact element, and then the UV lamp is embedded into the bottom of the splicing seam, so that when the helmet is taken out and is not used, the UV lamp is hidden, and even if the UV lamp is turned on at the moment, light rays are difficult to emit and hurt eyes of a human body.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention with the drying ring removed;

FIG. 3 is a partial schematic view of the present invention;

FIG. 4 is a top view of the drying ring of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4A in accordance with the present invention;

FIG. 6 is a control schematic of the present invention;

fig. 7 is a diagram of the compression of the elastic contact and the inner side of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

As shown in fig. 1-3, the omnibearing drying equipment for the head protector comprises a base 1, wherein a mounting cavity 26 is arranged in the base 1, a control main board 21, an air pump 28 and a battery 23 are arranged in the mounting cavity 26, a hollow upright post 15 is arranged in the middle of the upper end surface of the base 1, an air inlet channel 35 is arranged in the upright post 15, an air outlet of the air pump 28 is connected with an air outlet pipe 25 and is communicated with the air inlet channel 35 of the upright post 15 through the air outlet pipe 25;

a supporting air bag 2 is fixedly arranged at the upper end of a base 1, a drying disc 5 is movably arranged on a stand column 15 at the upper end of the supporting air bag 2, a placing cavity 7 with an opening at the top is arranged on the upper end surface of the drying disc 5, more than one hollow convex ring 17 is arranged outside the stand column 15, the inner part of the convex ring 17 is communicated with an air inlet channel 35, more than one drying ring 14 with different outer diameters are arranged outside the stand column 15 from top to bottom, each drying ring 14 corresponds to one convex ring 17, and the drying rings 14 and the convex rings 17 are communicated through a connecting hose 12;

an annular concave cavity is formed in the outer part of the drying ring 14, an elastic gas storage ring 18 with elastic deformation capacity is arranged in the annular concave cavity, the outer ring of the elastic gas storage ring 18 surrounds the elastic gas storage ring 18 for a circle and is provided with more than one elastic contact piece 16, the elastic contact pieces 16 are arc-shaped, are pressed and spread after being in contact with the helmet lining 100, and stretch the helmet lining 100 by the outward spreading force of the elastic contact pieces 16;

the elastic contact piece 16 is connected and communicated with the elastic air storage ring 18, the elastic air storage ring 18 is connected and communicated with the drying ring 14, a heater 33 is arranged in the upright post 15, air output by the air pump 28 is heated by the heater 33 and then output into the drying ring 14 and enters the elastic contact piece 16 from the drying ring 14, more than one drying small hole 9 is arranged on the arc-shaped surface of the outer side of the elastic contact piece 16 in parallel, and hot air is exhausted to the outside from the drying small hole 9 and is contacted with the helmet liner 100;

the middle of the outer side face of the elastic contact piece 16 is provided with a splicing seam 13, an embedded UV lamp 41 is arranged in the elastic contact piece 16 on the inner side of the splicing seam 13, when the elastic contact piece 16 contacts the helmet lining 100 and is tightly pressed and expanded with the helmet lining 100, the splicing seam 13 is opened and the UV lamp 41 is exposed, the UV lamp, the air pump and the heater are all connected with the control mainboard and are controlled by the control mainboard and powered by a battery.

As shown in fig. 2, a supporting airbag cavity 27 is arranged in the supporting airbag 2, the supporting airbag cavity 27 is connected and conducted with an air inlet channel 35 of the upright post 15 through a first conduit 24, the first conduit 24 is located at one side of the supporting airbag cavity 2 and is provided with a first electromagnetic valve, a second conduit 6 is arranged at one side of the outer side of the supporting airbag 2, the second conduit 6 is provided with a second electromagnetic valve, a sealing partition plate 31 is arranged at the position of an input end of a heater in the air inlet channel 35 of the upright post 15, a third conduit 32 is arranged on the sealing partition plate 31, a third electromagnetic valve 30 is arranged on the third conduit 32, and the first electromagnetic valve, the second electromagnetic valve and the third electromagnetic valve 30 are all connected with the control main board 21 and are controlled to be opened or closed through the control main board 21 and are powered by a battery 23, as shown in fig. 6.

An inlet and outlet wire hole 11 is arranged at the position, opposite to the control mainboard, of the bottom surface of the placing cavity 7, a wiring pipe 22 with a conductive upper end and a conductive lower end is arranged in a supporting air bag opposite to the inlet and outlet wire hole 11, after the UV lamps 41 are mutually connected in series, a connecting wire 8 of the UV lamps is connected with the control mainboard 21 through the inlet and outlet wire hole 11 and the wiring pipe 22, more than one control key 10 is arranged on the control mainboard 21, the control key 10 is positioned on the upper end surface of the base 1, and the battery 23 is a lithium battery and is charged through a charging interface arranged on the control mainboard.

As shown in fig. 4 and 5, the elastic contact piece 16 is made of an elastic metal material, an air inlet cavity 42 is formed in the elastic contact piece 16, an air inlet expansion cavity 43 is formed in the elastic air storage ring 18, the air inlet expansion cavity 43 and the air inlet cavity 42 in the elastic contact piece 16 are communicated through more than one first connecting conduit 45, an annular transition cavity 36 is formed in each drying ring 14, and the annular transition cavity 36 and the air inlet expansion cavity 43 are communicated through a plurality of second connecting conduits 44 between the elastic air storage ring 18 and the drying ring 14.

More than one first connector 37 is arranged on the inner side surface of the drying ring 14 in a circle around the drying ring, the second connectors 34 are arranged at the positions, corresponding to the first connectors 37, of the outer part of the convex ring 17, and the connecting hose 12 is connected with the second connectors 34 through the first connectors 37.

As shown in fig. 2, the side of the drying plate 5 is provided with more than one screw hole, the screw holes are all locked into a locking screw 3 from outside to inside, the locking screw 3 is locked into the placing cavity from outside and is pressed against the outer side surface of the helmet placed in the placing cavity, and the head of the locking screw 3 is all sleeved with a silica gel sleeve and is contacted with the helmet through the silica gel sleeve.

As shown in fig. 1 and 2, an inclined guide groove 4 is formed in the position, located in the placing cavity, outside the upright post 15, a guide slider 29 is arranged in the position of the inner hole of the drying disk 5, and the guide slider 29 is slidably buckled into the inclined guide groove 4.

In this embodiment, the heater 33 is a PTC heater, and the PTC heater heats the passing airflow to achieve a better drying purpose.

The whole working process is as follows:

when the helmet is dried, the helmet is buckled in the whole placing cavity, the locking screw rod outside the drying disc is locked at the moment, so that the locking screw rod is positioned and pressed on the helmet in the middle, the upright post, the drying ring and the elastic contact pieces outside the drying ring are all positioned in the helmet at the moment, when the elastic air storage ring on the outer side surface of the drying ring is not inflated, all the elastic contact pieces are not contacted with the lining of the helmet, and the drying disc is positioned at the bottommost position of the inclined guide sliding chute at the moment;

after the preparation is finished, the control button is pressed at the moment, the control mainboard controls the first electromagnetic valve to be opened, the second electromagnetic valve to be closed and the third electromagnetic valve to be kept closed, the control mainboard opens the air pump at the moment, the air pump gives air, and as the third electromagnetic valve is closed, so that the gas can only enter the supporting air bag cavity through the first conduit to expand the supporting air bag cavity and further jack up the drying disk positioned at the top of the supporting air bag, because the drying disk is provided with the guide sliding block which is buckled into the inclined guide groove in a sliding way, therefore, in the ascending process of the drying disk, the drying disk moves obliquely upwards along the oblique guide groove, after the whole drying disk moves to the extreme position, the first electromagnetic valve is closed by the control main board, the third electromagnetic valve is opened, the second electromagnetic valve is kept closed, at the moment, gas discharged by the air pump enters the convex ring through the upright post and then enters the drying ring through the connecting hose, because the elastic air storage pipe is communicated with the drying ring, the elastic air storage ring expands because excessive air flow is not charged and is not exhausted soon, so the air output of the drying small hole in the embodiment is not too large, and the air flow output by the air pump can expand the elastic air storage ring, because more than one elastic supporting piece is arranged on the elastic gas storage ring and is communicated with the elastic gas storage ring, each elastic supporting piece can gradually approach the lining of the helmet in the expansion process of the elastic gas storage ring, and finally contacts with the helmet liner, and then continues to expand after contact, the elastic contact piece finally extrudes with the helmet liner to be elastically expanded, and at the moment, the expanding force is applied to the helmet liner in the same way, so that the helmet liner is slightly expanded at the position of the elastic support piece, as shown in fig. 7, the air flow discharged from the drying aperture can dry the expanded liner;

because elastic contact is strutted, sealed concatenation seam also can be opened originally this moment, and the light that is located inboard UV lamp pearl and sends can expose, directly shines on helmet inside lining this moment, reaches the disinfection effect of disinfecting after strutting, realizes fixed point air supply stoving and the purpose of disinfecting, and efficiency is higher, and bactericidal effect is better, more thorough. After the helmet was taken off, even UV lamp induction system is malfunctioning, also can be through the mode resealing UV lamp that the concatenation seam resets, reach safety protection's purpose, and this kind of mode can not use UV lamp induction system, can realize safety protection through the physical mode, and structural design is more reasonable.

After the above steps are continued for a period of time, the next step is carried out, namely the positions of the elastic contact element and the helmet lining on the height and the circumference are adjusted, at this time, the control main board automatically controls the air pump to be closed, the elastic air storage ring resets under the non-inflated state, the elastic contact element originally in contact with the helmet lining is not in contact with the helmet lining any more, at this time, the second electromagnetic valve is opened, at this time, the air in the support air bag can be slowly discharged from the second conduit, at this time, the expansion height of the support air bag is reduced, the drying disk also descends gradually, in the process, the air in the support air bag can not be discharged at once, for example, after only one fifth of the air is discharged, the second electromagnetic valve is closed, the first electromagnetic valve is kept closed, the third electromagnetic valve is opened, the air pump continues to inflate to re-expand the elastic air storage ring, then the above steps are continuously carried out, after the drying operation is continued for a period of time, the second electromagnetic valve is opened, then the second electromagnetic valve is closed, the above steps are repeated, so that a rotary descending process from top to the elastic contact with the helmet lining at different heights and the circumference can be fully contacted, and the helmet lining can be dried, and the sterilizing effect is better.

The invention has the beneficial effects that: 1. the elastic contact piece in the arc shape is adopted, so that after the elastic air storage ring is inflated, the elastic contact piece can be in contact with the helmet lining for extrusion, the elastic contact piece is expanded, the helmet lining is slightly expanded due to the fact that the helmet lining is in contact with the elastic contact piece, the lining can be slightly expanded by the elastic contact piece which is continuously expanded, and therefore the helmet can be better nursed in a sterilization and drying mode after being expanded, hardening of the part of the helmet lining can be effectively prevented, and breeding of bacteria can be effectively reduced;

The beneficial effects of the invention are: .

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an all-round drying equipment of head protective equipment which characterized in that: the air pump comprises a base, wherein a mounting cavity is formed in the base, a control main board, an air pump and a battery are mounted in the mounting cavity, a hollow upright post is arranged in the middle of the upper end face of the base, an air inlet channel is formed in the upright post, and an air outlet of the air pump is connected with an air outlet pipe and communicated with the air inlet channel of the upright post through the air outlet pipe;

2. The all directional head gear drying apparatus of claim 1, wherein: the utility model discloses a support gasbag, including support gasbag, stand, support gasbag, first pipe, second pipe, third solenoid valve, be provided with a support gasbag chamber in the support gasbag, switch on through first pipe connection between the inlet channel of support gasbag chamber and stand, first pipe is located support gasbag chamber one side and installs first solenoid valve, and the outside of supporting the gasbag simultaneously is provided with the second pipe, installs the second solenoid valve on the second pipe, and the input position that lies in the heater in the inlet channel of stand sets up a sealed partition plate, installs a third pipe on the sealed partition plate, installs the third solenoid valve on the third pipe, first solenoid valve, second solenoid valve and third solenoid valve all with control mainboard connection and open or close through control mainboard control to supply power by the battery.

3. The all directional head gear drying apparatus of claim 1, wherein: placing the position that the chamber bottom surface just faces the control mainboard and setting up an inlet and outlet wire hole, just setting up the wiring pipe that the lower extreme switched on in the support gasbag to inlet and outlet wire hole, its connecting wire is connected with the control mainboard through inlet and outlet wire hole and wiring pipe after the UV lamp establishes ties mutually, be provided with more than one control button on the control mainboard, the control button is located the base up end, and the battery is the lithium cell, and it charges by the interface that charges that sets up on the control mainboard.

4. The all directional headgear drying apparatus of claim 1, wherein: the elastic contact piece is made of elastic metal materials, an air inlet cavity is formed in the elastic contact piece, an air inlet expansion cavity is formed in the elastic air storage ring, the air inlet expansion cavity and the air inlet cavity in the elastic contact piece are connected and communicated through more than one first connecting guide pipe, an annular transition cavity is formed in the drying ring, and the annular transition cavity and the air inlet expansion cavity are connected and communicated through a plurality of second connecting guide pipes between the elastic air storage ring and the drying ring.

5. The all directional headgear drying apparatus of claim 1, wherein: the side surface in the drying ring is provided with more than one first interface around the drying ring, the positions of the outer part of the convex ring corresponding to the first interfaces are provided with second interfaces, and the connecting hose is connected with the second interfaces through the first interfaces.

6. The all directional head gear drying apparatus of claim 1, wherein: the side of stoving dish is provided with more than one screw, and a locking screw is all locked into from outside to inside to the screw, and locking screw is locked into from the outside and is placed the intracavity to put into and compressing tightly placing the helmet lateral surface of intracavity, a locking screw head all suit silica gel cover, through silica gel cover and helmet contact.

7. The all directional headgear drying apparatus of claim 1, wherein: an inclined guide groove is formed in the position, located in the placing cavity, of the outer portion of the stand column, a guide sliding block is arranged in the position of an inner hole of the drying disc, and the guide sliding block is buckled into the inclined guide groove in a sliding mode.

8. The all directional head gear drying apparatus of claim 1, wherein: the heater is a PTC heater.