CN112503878B - Portable drying device - Google Patents

Abstract

The invention provides a portable drying device, and belongs to the technical field of drying of articles for daily use. This portable drying device includes the installation casing that is made by light material, is in the encapsulated situation when drying, the installation casing on seted up the casing air intake, the installation casing in be equipped with the stoving region that heating module and confession were treated the article of drying and were placed, heating module heat its characterized in that at the during operation to the wind that comes from the casing air intake: and a multidirectional air outlet structure for allowing hot air coming out of the heating module to flow into the drying area from multiple directions is arranged between the heating module and the drying area. This portable drying device's advantage lies in: the realization is to the integral heating in stoving region, does not have the heating dead angle to make the temperature field in the stoving region more even, effectively solve prior art list air outlet and local air outlet and lead to the problem that the temperature field gradient is big in the stoving region, and partial region does not have hot-blast even.

Description

Portable drying device

Technical Field

The invention belongs to the technical field of drying of articles for daily use, and particularly relates to a portable drying device.

Background

In order to meet the requirement that people go out and carry conveniently or because of the constraint of indoor space, people tend to light household appliances with small volume, light weight and the like, the portable dryer is a family appliance produced under the trend, the portable dryer adopts a box body or a barrel structure which is made of light materials and has small volume, objects to be dried are placed in the portable dryer, and the objects placed in the portable dryer are dried by hot air generated by a heating module arranged in the portable dryer.

However, in the current portable dryer, because the direction of the hot air output from the heating module is single, the hot air flowing in the region for storing the articles to be dried in the portable dryer is not uniform, and the problem of poor drying effect is caused.

Disclosure of Invention

It is an object of the present invention to provide a portable drying appliance which solves at least part of the above problems.

In order to achieve the purpose, the invention adopts the following technical scheme: the portable drying device comprises an installation shell which is made of light materials and is in a closed state during drying, wherein a shell air inlet is formed in the installation shell, a heating module and a drying area for placing an object to be dried are arranged in the installation shell, and the heating module heats air from the shell air inlet during working, and is characterized in that: and a multidirectional air outlet structure for allowing hot air coming out of the heating module to flow into the drying area from multiple directions is arranged between the heating module and the drying area.

In the above portable drying device, the multi-directional air outlet structure includes a partition member disposed between the heating module and the drying region for partitioning the heating module and the drying region, and the partition member is provided with a plurality of air outlets with different air outlet directions.

In the portable drying device, the multidirectional air outlet structure further comprises a heating balance piece which is arranged between the heating module and the blocking piece and is of a hollow structure, the heating balance piece is provided with flow dividing ports which are in one-to-one correspondence with the air outlets on the blocking piece, each flow dividing port is provided with a plurality of flow dividing channels at intervals, and when the portable drying device works, one end of an opening on the heating balance piece receives hot air from the heating module and then enters the air outlet corresponding to the flow dividing port through the flow dividing channels on each flow dividing port.

In the portable drying device, the multi-directional air outlet structure further comprises guiding members which are arranged in one-to-one correspondence with the air outlets, and when the portable drying device works, each guiding member guides the conveying direction of the hot air which is discharged from the corresponding air outlet to move from the guiding member to the direction of the drying area.

In the portable drying device, all the air outlets are sequentially adjacent to form a ring-shaped structure.

In the above portable drying device, the portion of the mounting casing corresponding to the drying area is made of flexible material and/or is arranged in a corrugated structure along the hot air conveying direction.

In the above-mentioned portable drying device, the drying area is provided with a rotary casing supporting assembly having a movable end, the rotary casing supporting assembly rotates the movable end until the movable end cooperates with the inner side of the installation casing and/or the components located in the installation casing to unfold the portion of the installation casing corresponding to the drying area, and rotates the movable end to separate the inner side of the installation casing and/or the components located in the installation casing corresponding to the movable end when the portable drying device is not in use, so as to fold the portion of the installation casing corresponding to the drying area.

In the above portable drying device, the rotary casing support assembly is detachably provided with an article support assembly for placing articles, the article support assembly comprises a first direction support member extending along the hot air conveying direction, and a second direction support member having one end rotatably arranged on the first direction support member and the other end serving as a movable end, the movable end of the second direction support member rotates to a direction far away from the first direction support member when in use until transversely suspended on the hot air conveying direction and rotates to the first direction support member when not in use.

In the above portable drying device, the object support assembly further includes a clip or a hook disposed on the first direction support member and/or the second direction support member.

In the portable drying device, the mounting shell comprises a first shell section corresponding to the drying area, and a second shell section and a third shell section which are respectively arranged at two ends of the first shell section, the object enters and exits from the first shell section through the second shell section, when the portable drying device does not work, the second shell section and the third shell section are close, and when the portable drying device works, the second shell section and the third shell section are separated.

Compared with the prior art, this portable drying device's advantage lies in:

1. hot air for drying objects, which is generated after being heated by the heating module, passes through the heating equalizing part in the multi-directional air outlet structure and the air outlets with different air outlet directions, so that the hot air can be conveyed to the drying area along different directions, the integral heating of the drying area is realized, heating dead angles do not exist, the temperature field in the drying area is more uniform, and the problems that the gradient of the temperature field in the drying area is large and even a part of the area has no hot air due to a single air outlet and a local air outlet in the prior art are effectively solved;

2. different from current article because of adopting folding mode of hanging, folding coincidence part is easily appeared and is dried, does not have imperviousness's drawback, and this drying device sets up first direction support piece and second direction support piece simultaneously, has increaseed article and hot-blast area of contact, has promoted heat exchange efficiency for the evaporation rate of water, effectively prevents simultaneously that the article from piling up in the stoving region and having reduced the appearance of the relatively great humid hot air circulation area condition of humidity that has absorbed the moisture content of article.

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 embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 provides a schematic structural view of an embodiment of the present invention in a stowed state.

FIG. 2 provides a schematic illustration of the embodiment of FIG. 1 in its expanded state.

Fig. 3 provides a schematic view of the structure of fig. 2 with the flexible bag removed.

Fig. 4 provides a schematic illustration of the partial explosion structure of fig. 2.

Fig. 5 provides a schematic illustration of the partially exploded structure of fig. 4 with the flexible bag removed.

FIG. 6 is a schematic structural view of the rotatable elastic supporting strip in an embodiment of the present invention, which forms an intermediate inclination angle with the air outlet panel after being supported in place;

fig. 7 provides a schematic view of a rotatable bar of an embodiment of the present invention received on a spreader plate.

Fig. 8 provides a schematic illustration of the structure of fig. 7 when the rotatable bars are rotated outwardly apart.

Fig. 9 provides a schematic structural diagram of a hot air equalizer in an embodiment of the present invention.

Fig. 10 provides a schematic structural view of the air outlet panel in an embodiment of the present invention.

Fig. 11 provides a schematic diagram of the overall explosive structure of fig. 2.

In the figure, a base 1, an anti-skid rubber pad 11, a touch pad 12, a touch pad pressing plate 13, a magnet 14, a base air inlet 15, a fan 21, a heating element mounting seat 22, a heating element 23, a hot air equalizer 24, a hot air equalizer air outlet 241, an air guide strip 242, an air outlet panel 3, an air outlet panel clamping groove 35, an air outlet panel air outlet 32, a guide groove 33, a clamping seat 34, a disinfection element 31, a lower enclosing frame 41, a flexible bag 42, an upper enclosing frame 43, a middle cover 44, a hand digging notch 441, a rotatable elastic supporting strip 45, a clothes supporting plate 5, a rotatable blocking strip 51, an abdicating groove 52, a clamping clamp 53, a supporting groove 54, a limiting block 55, a clamping buckle 56, a top cover 6 and a top cover wet and hot air outlet 61.

Detailed Description

The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not to be construed as limiting the present invention.

As shown in fig. 11, the portable drying device includes a mounting casing made of a light material and in a closed state during drying, a base air inlet 15 (a structure of the casing air inlet, but not limited to such a structure) is formed in the mounting casing, a heating element 23 (a structure of the heating module, but not limited to such a structure) and a drying area for placing an object to be dried are arranged in the mounting casing, the heating element 23 heats air from the base air inlet 15 during operation, and a multi-directional air outlet structure for allowing hot air coming out of the heating element 23 to flow into the drying area from multiple directions is arranged between the heating element 23 and the drying area.

It should be noted that, since the mounting housing is made of a lightweight material (usually plastic or other material with a relatively low density), it is relatively lightweight and portable. In addition, the heating module herein generally refers to an electric heater using electric energy, but it is also possible to use another energy source (such as solar energy) to heat the air from the air inlet 15, and in order to facilitate the control of the air volume of the air from the air inlet 15, as shown in fig. 11, a blower 21 is provided between the air inlet 15 and the heating element 23, and in order to allow the air from the blower 21 to substantially enter the heating element 23, a heating element mounting seat 22 with an air duct inside is provided around the heating element 23, and both ends of the heating element mounting seat are respectively in sealed communication with the blower 21 and the multi-directional air outlet structure, so that the hot air from the heating element 23 can substantially flow to the multi-directional air outlet structure, thereby ensuring the continuous and effective supply of the hot air.

In addition, the articles herein may include not only clothes such as clothes and trousers, but also shoes and socks, and may be other articles requiring drying (such as various appliances such as food, but not limited thereto).

In order to facilitate carrying or storage, in one or some embodiments, a portion of the mounting housing corresponding to the drying area is made of a flexible material and/or is arranged in a corrugated structure along a hot air conveying direction, as shown in fig. 1, the portion of the mounting housing corresponding to the drying area is in a storage structural state, and as shown in fig. 2, the portion of the mounting housing corresponding to the drying area is in a spreading structural state.

In addition, it should be noted that the mounting housing herein may be designed as an integral body, or may be divided into an upper portion, a lower portion, an upper middle portion, a lower portion, or more portions, and the upper portion, the lower portion, or the upper portion, the middle portion, the lower portion, or more portions are detachably connected (e.g., a clip bayonet is used to achieve a snap connection, a magnet is used to achieve a magnetic connection, a screw bolt and a nut are used to achieve a connection, etc.) and/or fixedly connected (e.g., a hinged connection, a glue joint, a rivet joint, etc.). In one or some embodiments, as shown in fig. 2 and 4, a three-part mounting housing, specifically, a flexible bag 42 (a structure, but not limited to, a first section of the housing) corresponding to the drying area, and a cover 6 (a structure, but not limited to, a second section of the housing) and a base 1 (a structure, but not limited to, a third section of the housing) respectively provided at both ends of the flexible bag 42, wherein items are moved into and out of the flexible bag 42 from the cover 6, the cover 6 is connected to the base 1 when not in operation, and the cover 6 is separated from the base 1 when in operation, and in another or some embodiments, as shown in fig. 11, a magnet 14 is provided as a detachable connection between the cover 6 and the base 1, in order to facilitate the combination and separation of the top cover 6 and the base 1, and in another embodiment or embodiments, in order to facilitate the orderly folding and unfolding of the flexible bag 42 during storage, as shown in fig. 11, a lower surrounding frame 41, a middle cover 44 and an upper surrounding frame 43 are further disposed in the flexible bag 42, the lower edge of the flexible bag 42 is fixed on the lower surrounding frame 41, the upper edge of the flexible bag 42 is fixed on the upper surrounding frame 43, the lower surrounding frame 41 is fixed in the base 1, the upper surrounding frame 43 is fixed on the inner wall of the middle cover 44, and a magnet 14 is also disposed on the middle cover 44 for cooperating with the magnet 14 on the top cover 6 and the base 1, respectively, and in another embodiment or embodiments, the middle cover 44 is provided with a hand-cut-out 441 for facilitating the installation and disassembly of the top cover 6.

In addition, by utilizing the principle of hot air rising, in one or some embodiments, as shown in fig. 11, the base air inlet 15, the heating element 23 and the multi-directional air outlet structure are arranged at the relative lower part of the installation shell and are arranged from bottom to top in sequence, and the drying area is arranged above the multi-directional air outlet structure.

In order to accelerate the discharge of the hot and humid air that has absorbed moisture from the article, in one or more embodiments, as shown in fig. 1 to 6 and 11, a top-cover hot and humid air outlet 61 (which is a structure of the housing outlet, but not limited thereto) is also provided on the mounting housing.

The multi-directional air outlet structure is configured to flow hot air from the heating module into the drying region from multiple directions, and may include multiple structures, in one or some embodiments, as shown in fig. 10 and 11, the multi-directional air outlet structure includes an air outlet panel 3 (a structure of a barrier, of course, the barrier may be another structure as needed) disposed between the heating module and the drying region and used for separating the heating module and the drying region, and the air outlet panel 3 is provided with a plurality of air outlet panel air outlets 32 (a structure of an air outlet, but not limited to such a structure) with different air outlet directions.

In order to make the blowing directions of the hot wind be uniformly distributed, in one or some embodiments, when the number of the outlet panel outlets 32 is an even number, the outlet panel outlets are symmetrically arranged in a one-to-one correspondence manner, and when the number of the outlet panel outlets 32 is an odd number, the outlet panel outlets are uniformly arranged at intervals, and the central portions of all the outlet panel outlets 32 are substantially arranged at the same height.

In order to blow hot air to the drying area in all directions, in one or some embodiments, as shown in fig. 4, 5, 10 and 11, all the outlet panel outlets 32 are sequentially and adjacently enclosed to form a ring structure, so as to form a 360-degree omni-directional structure.

In order to enhance more uniform flow of the hot air from the heating module to the drying area, in one or some embodiments, as shown in fig. 11, the multidirectional air outlet structure further includes a hot air equalizer 24 (a structure of a heating equalizing member, but not limited to such a structure) disposed between the heating body 23 and the air outlet panel 3, the hot air equalizer 24 is provided with hot air equalizer air outlets 241 (a structure of a diversion port, but not limited to such a structure) corresponding to each air outlet panel air outlet 32 on the air outlet panel 3 one to one, each hot air equalizer air outlet 241 is separated by a wind guiding strip 242 into a plurality of diversion channels, when in operation, after receiving the hot air from the heating body 23 at one end of the opening of the hot air equalizer 24, the hot air is distributed to each air outlet panel air outlet 32 by diversion of the diversion channels on each hot air equalizer air outlet 241 and then mixed and allocated to be at a reasonable uniform temperature, it is further noted that the size of each hot air equalizer air outlet 241 and the number and size of the diversion channels included therein may be different, and may be determined according to needs.

In addition, as shown in fig. 3, 4, 5 and 11, the air outlet panel 3 is provided with an air outlet panel clamping groove 35, so that the hot air equalizer 24 is conveniently clamped into the air outlet panel clamping groove 35, and the air outlets 32 of the air outlet panels are respectively arranged in the circumferential direction of the air outlet panel clamping groove 35.

In order to make the hot air substantially enter the drying area along the set conveying direction, in one or some embodiments, as shown in fig. 4, 5 and 11, the multi-directional outlet structure further includes guide slots 33 (which is a structure of a guide, but not limited to such a structure) disposed in one-to-one correspondence with the outlet openings 32 of the outlet panels, and in operation, each guide slot 33 guides the conveying direction of the hot air coming out of the corresponding outlet opening 32 of the outlet panel to move from the guide slot 33 to the drying area.

To reduce the resistance to the hot air as it is diverted, in one or some embodiments, the bottom of the guide slot 33 is an arcuate ramp, as shown in fig. 4, 5 and 11.

In addition, in order to prevent the water on the air outlet panel 3 from permeating the heating element 23, in one or some embodiments, as shown in fig. 4, 5, 9 and 11, the air guide strips 242 are disposed obliquely downward from inside to outside at a predetermined inclination angle, and the inclination angle is matched with the arc-shaped inclined plane of the guide groove 33, so that the hot air from the air outlet 32 of each air outlet panel is blown to the arc-shaped inclined plane of the guide groove 33 disposed on the air outlet panel 3 corresponding to one of the air outlet panel, and finally is input to the drying region in the approximately parallel conveying direction.

In one or some embodiments, in order to provide the drying apparatus with the sterilization and disinfection functions, a disinfection module (generally including a UVC ultraviolet sterilizer, an ozone sterilizer, etc.) is further disposed in the installation housing, as shown in fig. 4, 5 and 11, the disinfection module includes a plurality of disinfection elements 31, in the figure, a specific arrangement position of the plurality of disinfection elements 31 is shown, and the plurality of disinfection elements are disposed on the air outlet panel 3 and are distributed uniformly and symmetrically.

In one or some embodiments, a rotary casing support assembly is provided in the drying region, the rotary casing support assembly having a movable end, the rotary casing support assembly being configured to rotate the movable end until the movable end engages with the inner side of the mounting casing and/or the component located within the mounting casing to expand the portion of the mounting casing corresponding to the drying region when in use, and to rotate the movable end to separate the inner side of the mounting casing and/or the component located within the mounting casing to which the movable end engages when not in use, so as to collapse the portion of the mounting casing corresponding to the drying region.

As shown in fig. 3, 5 and 6, a specific structure of the rotary casing support assembly (certainly, other structures can be provided as required, but is not limited to such structures) includes a rotatable elastic support bar 45, one end of which is hinged to the middle cover 44, and the other end of which is a movable end, wherein the movable end abuts against the air outlet panel 3 during operation, and in addition, in order to prevent the movable end from accidentally moving when abutting against the air outlet panel 3, a clamping seat 34 engaged with the rotatable elastic support bar 45 is provided on the air outlet panel 3.

It should be noted that, the rotatable elastic supporting strip 45 is used for supporting and fixing the flexible bag 42 in a hinge manner, which is simple to operate and reliable in fixing.

In one or some embodiments, the rotary casing supporting component is detachably provided with an object supporting component for placing an object, the object supporting component comprises a first direction supporting piece extending along the hot air conveying direction, and a second direction supporting piece, one end of the second direction supporting piece is rotatably arranged on the first direction supporting piece, the other end of the second direction supporting piece is a movable end, the movable end of the second direction supporting piece rotates towards a direction far away from the first direction supporting piece when in use until the second direction supporting piece transversely hangs in the hot air conveying direction, and the movable end rotates on the first direction supporting piece when not in use.

It should be noted that, the article support assembly herein adds the first direction support piece on the basis of the existing second direction support piece, so that the article can be placed along the second direction, and also can be placed along the first direction, thereby reducing the stacking caused by placing the article in only one direction to affect the circulation of hot air, and because the first direction support piece can be arranged along the hot air circulation direction, being beneficial to the passage of hot air, thereby achieving the purpose of improving the drying effect.

As shown in fig. 7 and 8, as a specific structure of the object supporting assembly (which may be configured as another structure as needed), the clothes supporting plate 5 (which is a structure of the first-direction supporting member, but not limited to this structure) is included in a vertical arrangement (which is the first direction in this specific structure, but not limited to this direction)), so that the contact area between the object and the hot air is increased, the heat exchange efficiency is improved, and the evaporation speed of water is increased by the opening action of the clothes supporting plate 5. Prop clothing board 5 simultaneously and prevent effectively that the article from piling up in the drying zone and reduce the appearance of the circulation area's of the damp and hot air of moisture content in the article condition to be favorable to the quick circulation of damp and hot air, can set up one or more as required to the quantity that sets up, should prop clothing board 5 in addition and set up to hollow out construction, in order to further be favorable to hot-blast circulation. In addition, the object supporting assembly further includes a rotatable blocking strip 51 (a structure of the second direction supporting member, but not limited to such a structure), one end of which is hinged to the clothes supporting plate 5, and the other end of which is a movable end, when the rotatable blocking strip 51 does not work, the rotatable blocking strip 51 can be retracted into the recess 52 formed on the clothes supporting plate 5 and clamped in the buckle 56, so as to reduce the volume and facilitate storage and carrying, and when the rotatable blocking strip 51 works, the rotatable blocking strip 51 can be separated from the buckle 56 and rotated to a horizontal position (which is the second direction in this specific structure, but not limited to this direction), and then the position is limited by the limiting block 55, so that not only can the object be placed on the rotatable blocking strip 51, but also the object placed on the clothes supporting plate 5 can be prevented from falling off and blocking the air outlet 32 of the air outlet panel, thereby affecting the uniform circulation of hot air.

As shown in fig. 3 and 6, the clothes-supporting plate 5 of the above-mentioned article supporting assembly is provided with a supporting groove 54 for the rotatable elastic supporting strip 45 to be caught or inserted on a corresponding side adjacent to the pair of rotatable elastic supporting strips 45, and the supporting groove 54 is engaged with the unfolded rotatable elastic supporting strip 45. In addition, the pair of rotatable elastic supporting bars 45 in the above-mentioned specific structure of the rotary casing supporting assembly is disposed obliquely inward and downward from outside to inside when being unfolded and abutted against the air outlet panel 3, so that the distance between the pair of rotatable elastic supporting bars 45 is gradually narrowed with the decrease of the height, and when the clothes supporting plate 5 sinks along the rotatable elastic supporting bars 45 for a certain distance, and when the distance between the two sides of the clothes supporting plate 5 where the beveled guide grooves 54 are disposed is greater than the distance between the parts of the pair of rotatable elastic supporting bars 45 at the same height as the beveled guide grooves 54, the clothes supporting plate 5 is automatically limited on the pair of rotatable elastic supporting bars 45.

In addition, in one or some embodiments, the clothes supporting plate 5 and/or the rotatable barrier 51 are provided with clips 53 or hooks (not shown in the drawings) to reduce the accidental dropping of the objects from the clothes supporting plate 5 and/or the rotatable barrier 51, and the objects can be lifted upwards to prevent the objects from dropping down and blocking the air outlet 32 of the air outlet panel, so as to affect the circulation of the hot air.

As shown in fig. 11, a specific embodiment of the drying apparatus is as follows: when the drying device is used, the top cover 6 is firstly opened, the middle cover 44 is lifted, the flexible bag 42 is automatically unfolded along with the lifting of the middle cover 44, the pair of rotatable elastic support bars 45 hinged with the middle cover 44 are adjusted to enable the bottoms of the rotatable elastic support bars 45 to be clamped on the clamping seat 34 of the air outlet panel 3, so that the flexible bag 42 is lifted and supported and fixed by the rotatable elastic support bars 45, the support grooves 54 on the clothes supporting plate 5 are clamped on the rotatable elastic support bars 45 from top to bottom and pushed downwards, and the distance between the pair of rotatable elastic support bars 45 is narrowed along with the reduction of the height due to the fact that the rotatable elastic support bars 45 are obliquely downwards and inwards arranged after being lifted to the proper position, so that the clothes supporting plate 5 can be automatically limited after the support grooves 54 on the clothes supporting plate 5 are matched with the rotatable elastic support bars 45 and then the clothes supporting plate 5 is pushed downwards for a certain distance. Turning down the rotatable barrier strip 51 on the clothes supporting plate 5, sleeving the clothes supporting plate 5 with the object to be dried and sterilized, clamping the object by the clamp 53 to prevent the object from falling down, blocking the air outlet 32 of the air outlet panel, and covering the top cover 6. The fan 21 and the heating element 23 are powered on to work, external wind is sucked from the air inlet 15 on the base 1, flows through the air duct in the heating element mounting seat 22, is heated after passing through the heating element 23 and is sent to the hot air equalizer 24, passes through the equalizing action of the hot air equalizer 24, is reasonably distributed and is blown out from the equalizer air outlet 241 and is sent into the drying area through the air outlet panel air outlet 32 and the guide groove 33, the hot air exchanges heat with wet objects in the drying area, finally, the wet hot air absorbing the moisture in the objects is led out from the top cover wet hot air outlet 61 on the top cover 6, after the wet objects are dried, the top cover 6 is opened, the dried objects are taken out, the rotatable elastic supporting strips 45 are folded, the flexible bag 42 is stored in the inner part, the top cover 6 is covered, the drying work of the whole objects is finished, and in addition, the sterilizing element 31 in the sterilizing module can be opened as required to sterilize the objects.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments, or alternatives may be employed, by those skilled in the art, without departing from the spirit or ambit of the invention as defined in the appended claims.

Although terms such as the base 1, the non-slip rubber mat 11, the touch pad 12, the touch pad pressure plate 13, the magnet 14, the base air inlet 15, the blower 21, the heating element mounting seat 22, the heating element 23, the hot air equalizer 24, the hot air equalizer air outlet 241, the air guide strip 242, the air outlet panel 3, the air outlet panel slot 35, the air outlet panel air outlet 32, the guide slot 33, the card holder 34, the sterilizing element 31, the lower surrounding frame 41, the flexible bag 42, the upper surrounding frame 43, the middle cover 44, the hand digging notch 441, the rotatable elastic support strip 45, the clothes supporting plate 5, the rotatable barrier strip 51, the relief slot 52, the card holder 53, the support slot 54, the limit block 55, the card holder 56, the top cover 6, and the top cover hot and wet air outlet 61 are used more often, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to the spirit of the present invention.

Claims (3)

1. The utility model provides a portable drying device, includes the installation casing that is made by light material, is in the encapsulated situation when drying, the installation casing on seted up the casing air intake, the installation casing in be equipped with the stoving region that heating module and confession were treated the article of drying and were placed, heating module heat the wind that comes from the casing air intake at the during operation, its characterized in that: a multidirectional air outlet structure for allowing hot air from the heating module to flow into the drying area from multiple directions is arranged between the heating module and the drying area;

the multidirectional air outlet structure comprises a blocking piece which is arranged between the heating module and the drying area and used for separating the heating module and the drying area, and a plurality of air outlets with different air outlet directions are formed in the blocking piece;

the heating module, the multi-directional air outlet structure and the drying area are sequentially arranged upwards from low to high along the height direction of the drying device;

the air outlet is arranged in a direction from the center of the baffle piece to the outside along the radial direction;

wherein, all the air outlets are sequentially and adjacently encircled to form a ring-shaped structure;

the multidirectional air outlet structure also comprises a heating balancing piece which is arranged between the heating module and the blocking piece and is of a hollow structure, the heating balancing piece is provided with shunting ports which are in one-to-one correspondence with the air outlets on the blocking piece, each shunting port is provided with a plurality of shunting channels at intervals, and when the multidirectional air outlet structure works, one end of an opening on the heating balancing piece receives hot air from the heating module and then enters the air outlet corresponding to the shunting port through the shunting channel on each shunting port;

the multi-directional air outlet structure also comprises guide pieces which are arranged in one-to-one correspondence to the air outlets, and when the multi-directional air outlet structure works, each guide piece guides the conveying direction of hot air from the corresponding air outlet to move from the guide piece to the direction of a drying area;

the baffle piece comprises an air outlet panel, and the air outlet comprises an air outlet of the air outlet panel;

the heating equalizing part comprises a hot air equalizer, the flow dividing port comprises a hot air equalizer air outlet, and at least one part of the hot air equalizer air outlet extends out of one corresponding air outlet panel air outlet along the radial outward direction;

the plurality of shunting channels on the air outlet of each hot air equalizer are formed by separating air guide strips, and the air guide strips are obliquely and downwards arranged at a set inclination angle from inside to outside;

the guide piece comprises a guide groove, the bottom of the guide groove is an arc-shaped inclined plane, the relatively lower part of the arc-shaped inclined plane corresponds to one corresponding air outlet of the air outlet panel, and the air outlet of the air outlet panel is higher than the relatively lower part of the arc-shaped inclined plane;

the part of the mounting shell corresponding to the drying area is made of flexible materials and/or is arranged in a fold type structure along the hot air conveying direction;

the drying area is internally provided with a rotary shell supporting component with one end being a movable end, the rotary shell supporting component rotates the movable end until the movable end is matched with the inner side part of the installation shell and/or a part positioned in the installation shell so as to prop open the part on the installation shell corresponding to the drying area when in use, and rotates the movable end to be separated from the inner side part of the installation shell matched with the movable end and/or the part positioned in the installation shell so as to be convenient for accommodating the part on the installation shell corresponding to the drying area when not in use;

the rotary housing support assembly comprises:

the rotatable elastic support bars are correspondingly arranged in two numbers and are of U-shaped structures, the head of each U-shaped structure is hinged to the upper part of the installation shell, and the bottom of each U-shaped structure is a movable end; and

the clamping seats are arranged on the air outlet panel, each pair of clamping seats is in one-to-one correspondence with the rotatable elastic supporting bars, each clamping seat is provided with a clamping groove, and when the air outlet panel works, the bottoms of the rotatable elastic supporting bars of the U-shaped structures are clamped in the clamping grooves formed in the clamping seats and are obliquely arranged inwards from outside to inside and downwards;

the height of the relative inner side of the clamping groove is lower than that of the relative outer side of the clamping groove;

the rotary shell supporting assembly is detachably provided with an article supporting assembly for placing articles, the article supporting assembly comprises a first direction supporting piece and a second direction supporting piece, the first direction supporting piece extends along the hot air conveying direction, one end of the second direction supporting piece is rotatably arranged on the first direction supporting piece, the other end of the second direction supporting piece is a movable end, the movable end of the second direction supporting piece rotates towards a direction far away from the first direction supporting piece when in use until transversely suspended in the hot air conveying direction, and the movable end rotates on the first direction supporting piece when not in use;

the first direction supporting pieces are correspondingly arranged, comprise clothes supporting plates and are of hollow structures;

wherein, every prop the both sides that the clotheshorse set up along direction of height and respectively be equipped with an bevel connection guide slot, when the installation, every be U type structure both sides respectively the card go into or insert and set up in a pair ofly prop on the clotheshorse and lie in a pair of with one side on the bevel connection guide slot, should prop the clotheshorse after the card goes into or inserts and follow high downstream until this props when the interval of the bevel connection guide slot of clotheshorse both sides is greater than this to be in with the interval between the position of bevel connection guide slot with the altitude department on the rotatable elastic support bar, spacing on this pair of rotatable elastic support bar.

2. The portable drying apparatus of claim 1, wherein the object support assembly further comprises a clip or hook disposed on the first direction support member and/or the second direction support member.

3. The portable drying apparatus of claim 1, wherein the mounting case includes a first case section corresponding to the drying region, and a second case section and a third case section respectively provided at both ends of the first case section, the article being moved into and out of the first case section from the second case section, the second case section and the third case section being moved together when not in operation and separated when in operation.

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