CN220735366U - Shoe drier - Google Patents

Abstract

The utility model relates to a shoe dryer, comprising: a body; the air guide assembly is arranged on the machine body, the air guide assembly is at least partially positioned in the cavity, a first overcurrent air duct and at least two first air outlets are arranged in the air guide assembly, the at least two first air outlets are communicated with the first overcurrent air duct, one end of the air guide assembly, provided with the first air outlets, extends out of the cavity, and the first overcurrent air duct is communicated with the cavity; the quantity of the air-out support arms is at least two, and one end of the air-out support arms is connected with one end of the air guide assembly, which is close to the first air outlet. The utility model provides a dry by fire shoes ware, the wind-guiding subassembly of this application has four first air outlets to and four air-out support arms, therefore the dry by fire shoes ware of this application has four wind channels that go out the hot air current, realizes drying to a plurality of shoes.

Description

Shoe drier

Technical Field

The utility model relates to the technical field of household drying equipment, in particular to a shoe dryer.

Background

In daily life, the moisture in the shoes is generally naturally dried, and the deodorizing effect is poor due to long natural drying time, so that shoe dryers are appeared on the market for more convenient shoe drying. The shoe drier, also called shoe drier and shoe warmer, is small household appliance specially designed for drying shoes.

The air-out support arm of the existing shoe dryer only has one pair, can only dry one pair of shoes at a time, has poor user experience when more than two pairs of shoes need to be dried, and occupies a certain space in order to better hang the shoes, so that the whole size of the shoe dryer is large, and the shoe dryer is inconvenient to store and transport.

Disclosure of Invention

Based on the above, it is necessary to provide a shoe dryer with a plurality of air outlet channels, compact structure and small overall size.

A shoe dryer, comprising: the device comprises a machine body, wherein a cavity is formed in the machine body, an air inlet is formed in one end of the machine body, and the cavity is communicated with the air inlet; the air guide assembly is arranged on the machine body, the air guide assembly is at least partially positioned in the cavity, a first overcurrent air duct and at least two first air outlets are arranged in the air guide assembly, the at least two first air outlets are communicated with the first overcurrent air duct, one end of the air guide assembly, provided with the first air outlets, extends out of the cavity, and the first overcurrent air duct is communicated with the cavity; the air-out support arm, the quantity of air-out support arm is two at least, the one end of air-out support arm with the wind-guiding subassembly is close to the one end of first air outlet is connected, the other end of air-out support arm is to keeping away from the direction of air intake extends, the air-out support arm is located outside the cavity, be equipped with the second in the air-out support arm and cross the air duct, the second cross the air duct respectively with first air outlet and external intercommunication.

The application disclosesA shoe drier is provided, which is characterized in that an air guide component is arranged on a machine body to heat the componentBody of machineThe hot air flow that produces can be through on the wind-guiding subassembly evenly leads the air-out support arm, the hot air flow discharges to the external environment on the air-out support arm, consequently can hang the shoes that wait to dry and put on the air-out support arm and dry, the wind-guiding subassembly of this application has first overflow wind channel and two at least first air outlets, the hot air flow that the organism produced gets into first overflow wind channel earlier in, the rethread at least two first air outlets are to the direction of difference discharge, through setting up an air-out support arm at every first air outlet correspondence, thereby make the shoe drier have the wind channel of two at least air-out hot air flows, optionally, the wind-guiding subassembly has four first air outlets, and four air-out support arms, consequently the shoe drier of this application has four air channels of air-out hot air flow, realize drying a plurality of shoes.

In some embodiments, the machine body comprises a machine body shell and a fan assembly, the machine body shell is internally provided with the cavity and the air inlet, the fan assembly is arranged on the air guide assembly, air flow formed by the fan assembly is led to the air guide assembly, the fan assembly is positioned in the cavity, and the air guide assembly is arranged on the machine body shell. Through set up fan subassembly in the fuselage casing, when starting the fan subassembly, can accelerate fluid flow velocity, make the air current in the external environment accelerate get into in the cavity to fan subassembly sets up on wind-guiding subassembly, can guide the air current that is through accelerating to wind-guiding subassembly in, improves air-out efficiency.

In some embodiments, the air guiding assembly comprises an air guiding shell and a connecting piece, the air guiding shell is internally provided with a first overcurrent air duct and a second air outlet, the first overcurrent air duct is communicated with the second air outlet, the connecting piece is provided with the first air outlet, one end, away from the first air outlet, of the connecting piece is arranged on the air guiding shell, an inner cavity of the connecting piece is communicated with the second air outlet, and the connecting piece is movably connected with the air outlet support arm. Through set up the connecting piece on the wind-guiding casing, can regard as the wind-guiding pipe to be connected with the wind-guiding casing and extend to outside the wind chamber and be connected with the air-out support arm on the one hand, on the other hand can regard as fixed hinge for the air-out support arm can rotate relative the wind-guiding casing.

In some embodiments, the air conditioner further comprises a heating element, the heating element is arranged on the air guide shell, a mounting groove is further formed in the air guide shell, the mounting groove is communicated with the first overcurrent air channel, and the heating element is located at the mounting groove. Through seting up the mounting groove on the wind-guiding casing, set up the heat-generating body in mounting groove department, make the air current that fan subassembly rotated and produce pass through the heat-generating body earlier, in the first overflow wind channel of concentrating into the wind-guiding casing again to produce the hot air current, improve air-out efficiency.

In some embodiments, a third over-current air channel is formed on the fan assembly, and the third over-current air channel is respectively communicated with the cavity and the mounting groove. Through setting up the third in fan subassembly and overflows the wind channel, make the fan subassembly rotate the accelerated air current that produces concentrate in the third overflows the wind channel, again directly flow to first overflows the wind channel in, avoid the air current that the gas that produces accelerates to flow back to the wind chamber in and produce the turbulent flow, can improve air-out efficiency like this.

In some embodiments, the fan assembly includes a fan body and a wind scooper, a third overcurrent duct is provided on the wind scooper, the fan body is provided on the wind scooper, the wind scooper is close to the installation groove on the wind scooper, and the third overcurrent duct is communicated with the installation groove. Through set up the wind scooper on the fan body to the third overflows wind channel and the mounting groove intercommunication of wind scooper, make the air current that the fan body produced can flow into in the wind scooper in high efficiency.

In some embodiments, a plurality of third air outlets are formed at one end of the air outlet support arm away from the air inlet, and the plurality of third air outlets are communicated with the second overcurrent air duct. One end of the air outlet support arm, which is far away from the air inlet, is used for hanging the shoes to be dried, and the drying efficiency can be improved by arranging a plurality of third air outlets at the position.

In some embodiments, the machine body further comprises a chassis disposed on the machine body, the chassis being located on an end of the machine body adjacent to the air inlet. Through set up the chassis on the bottom that the organism is close to the air intake, can make the placing of drying by fire shoes ware more stable like this, be difficult for taking place to empty because of placing heavier shoes, promote the use experience.

Drawings

FIG. 1 is a perspective view of a shoe dryer according to the present utility model;

FIG. 2 is a cross-sectional view of the shoe dryer of the present utility model;

FIG. 3 is an exploded view of the air guiding assembly of the present utility model;

FIG. 4 is a schematic diagram showing the assembly of the heater and the air guiding assembly and the machine body of the present utility model.

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

1 machine body, 101 cavity, 102 air inlet, 11 machine body shell, 12 fan component, 1201 third overcurrent air channel, 121 fan body, 122 air guide cover and 14 chassis;

2 wind guiding components, 201 a first overflow air duct, 202 a first air outlet, 203 a second air outlet, 21 a wind guiding shell, 22 connecting pieces and 204 mounting grooves;

3 air-out support arm, 301 second overflow wind channel, 302 third air outlet.

Detailed Description

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

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

Some embodiments of the present utility model will be described below with reference to the accompanying drawings.

As shown in fig. 1 to 3, a shoe dryer includes: the machine body 1 is internally provided with a cavity 101, one end of the machine body 1 is provided with an air inlet 102, and the cavity 101 is communicated with the air inlet 102; the air guide assembly 2 is arranged on the machine body 1, the air guide assembly 2 is at least partially positioned in the cavity 101, a first overcurrent air duct 201 and at least two first air outlets 202 are arranged in the air guide assembly 2, the at least two first air outlets 202 are communicated with the first overcurrent air duct 201, one end of the air guide assembly 2 provided with the first air outlets 202 extends out of the cavity 101, and the first overcurrent air duct 201 is communicated with the cavity 101; the air-out support arm 3, the quantity of air-out support arm 3 is two at least, and the one end of air-out support arm 3 is connected with the one end that air-guiding subassembly 2 is close to first air outlet 202, and the other end of air-out support arm 3 extends to the direction of keeping away from air intake 102, and air-out support arm 3 is located outside cavity 101, is equipped with second excessive current wind channel 301 in the air-out support arm 3, and second excessive current wind channel 301 communicates with first air outlet 202 and external world respectively.

The application discloses a shoe drier, through set up wind-guiding subassembly 2 on organism 1, make the hot air flow that organism 1 produced can be through wind-guiding subassembly 2 evenly on the air-out support arm 3, the hot air flow is discharged to the external environment on air-out support arm 3, consequently, can hang the shoes that wait to dry and put on air-out support arm 3 and dry, wind-guiding subassembly 2 of this application has first air flue 201 and two at least first air outlets 202, the hot air flow that organism 1 produced gets into first air flue 201 earlier in, the rethread at least two first air outlets 202 discharge to different directions, through set up an air-out support arm 3 at every first air outlet 202 correspondence, thereby make the shoe drier have the wind channel of two at least air-out hot air flows, optionally, wind-guiding subassembly 2 has four first air outlets 202, and four air-out support arms 3, consequently, the shoe drier of this application has the wind channel of four air-out hot air flows, realize drying many shoes.

As shown in fig. 1 and 2, in this embodiment, the machine body 1 includes a body housing 11 and a fan assembly 12, a cavity 101 and an air inlet 102 are provided in the body housing 11, the fan assembly 12 is disposed on the air guiding assembly 2, an air flow formed by the fan assembly 12 is led to the air guiding assembly 2, the fan assembly 12 is disposed in the cavity 101, and the air guiding assembly 2 is disposed on the body housing 11. By arranging the fan assembly 12 in the body shell 11, when the fan assembly 12 is started, the fluid flow speed can be accelerated, so that the air flow in the external environment is accelerated to enter the cavity 101, and the fan assembly 12 is arranged on the air guide assembly 2, so that the accelerated air flow can be guided into the air guide assembly 2, and the air outlet efficiency is improved.

As shown in fig. 2 and 3, in this embodiment, the air guiding assembly 2 includes an air guiding housing 21 and a connecting piece 22, a first air-passing duct 201 and a second air-outlet 203 are disposed in the air guiding housing 21, the first air-passing duct 201 is communicated with the second air-outlet 203, a first air-outlet 202 is disposed on the connecting piece 22, one end of the connecting piece 22 away from the first air-outlet 202 is disposed on the air guiding housing 21, an inner cavity of the connecting piece 22 is communicated with the second air-outlet 203, and the connecting piece 22 is movably connected with the air-outlet support arm 3. By providing the connecting piece 22 on the wind guiding housing 21, on one hand, the wind guiding housing 21 can be used as a wind guiding pipe and extend to the outside of the wind cavity 101 to be connected with the wind outlet support arm 3, and on the other hand, the wind outlet support arm 3 can be used as a fixed hinge, so that the wind outlet support arm 3 can rotate relative to the wind guiding housing 21.

As shown in fig. 2 to 4, in the present embodiment, the heating element 4 is further included, the heating element 4 is disposed on the air guiding housing 21, the air guiding housing 21 is further provided with a mounting groove 204, the mounting groove 204 is communicated with the first overcurrent duct 201, and the heating element 4 is located at the mounting groove 204. By providing the installation groove 204 on the air guiding shell 21, the heating body 4 is arranged at the installation groove 204, so that the air flow generated by the rotation of the fan assembly 12 passes through the heating body 4 and then is concentrated into the first overcurrent air duct 201 of the air guiding shell 21, thereby generating hot air flow and improving the air outlet efficiency.

As shown in fig. 2 to 4, in the present embodiment, the fan assembly 12 is provided with a third over-current air duct 1201, and the third over-current air duct 1201 is respectively communicated with the cavity 101 and the mounting groove 204. By arranging the third flow-through air duct 1201 on the fan assembly 1201, the accelerated airflow generated by the rotation of the fan assembly 12 is concentrated in the third flow-through air duct 1201 and then directly flows into the first flow-through air duct 201, so that the generated airflow accelerated by the air is prevented from flowing back into the air cavity 101 to generate turbulence, and the air outlet efficiency can be improved.

As shown in fig. 2 to 4, in the present embodiment, the fan assembly 12 includes a fan body 121 and a fan housing 122, a third over-current air duct 1201 is provided on the fan housing 122, the fan body 121 is provided on the fan housing 122, the fan housing 122 is provided on the fan housing 21 near the mounting groove 204, and the third over-current air duct 1201 is communicated with the mounting groove 204. By providing the air guide cover 122 on the fan body 121, and the third excessive air duct 1201 of the air guide cover 122 communicates with the mounting groove 204, the air flow generated by the fan body 121 can flow into the air guide housing 21 with high efficiency.

As shown in fig. 2 to 4, in the present embodiment, the air inlet 102, the cavity 101, the third through-flow air duct 1201, the first through-flow air duct 201, and the second through-flow air duct 301 are sequentially connected to form a main fluid flow path. After the fan assembly 12 is started, air flow of the external environment enters the cavity 101 through the air inlet 102, then enters the first overcurrent air duct 201 through the third overcurrent air duct 1201, and the air flow in the first overcurrent air duct 201 can enter the second overcurrent air duct 301 towards the first air outlets 202 in four different directions respectively, and finally is discharged into shoes to be dried.

As shown in fig. 2 to 4, in the present embodiment, a plurality of third air outlets 302 are provided at an end of the air outlet arm 3 away from the air inlet 102, and the plurality of third air outlets 302 are communicated with the second air-passing duct 301. The end of the air outlet support arm 3 far away from the air inlet 102 is used for hanging the shoes to be dried, and the drying efficiency can be improved by arranging a plurality of third air outlets 302 at the position.

As shown in fig. 1, in this embodiment, the machine body 1 further includes a chassis 13, where the chassis 13 is disposed on the machine body 1, and the chassis 13 is located on an end of the machine body 1 near the air inlet 102. Through set up chassis 13 on the bottom that organism 1 is close to air intake 102, can make the placing of drying by fire shoes ware more stable like this, be difficult for taking place to empty because of placing heavier shoes, promote the use experience.

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

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

Claims (8)

1. A shoe dryer, comprising:

the device comprises a machine body (1), wherein a cavity (101) is formed in the machine body (1), an air inlet (102) is formed in one end of the machine body (1), and the cavity (101) is communicated with the air inlet (102);

the air guide assembly (2) is arranged on the machine body (1), the air guide assembly (2) is at least partially positioned in the cavity (101), a first overflow air channel (201) and at least two first air outlets (202) are arranged in the air guide assembly (2), the at least two first air outlets (202) are communicated with the first overflow air channel (201), one end of the air guide assembly (2) provided with the first air outlet (202) extends out of the cavity (101), and the first overflow air channel (201) is communicated with the cavity (101);

the air-out support arm (3), the quantity of air-out support arm (3) is two at least, the one end of air-out support arm (3) with wind-guiding subassembly (2) are close to the one end of first air outlet (202) is connected, the other end of air-out support arm (3) is to keeping away from the direction of air intake (102) extends, air-out support arm (3) are located outside cavity (101), be equipped with second excessive current wind channel (301) in air-out support arm (3), second excessive current wind channel (301) respectively with first air outlet (202) and external intercommunication.

2. The shoe dryer according to claim 1, characterized in that the machine body (1) comprises a machine body shell (11) and a fan assembly (12), the machine body shell (11) is internally provided with the cavity (101) and the air inlet (102), the fan assembly (12) is arranged on the air guide assembly (2), air flow formed by the fan assembly (12) is led to the air guide assembly (2), the fan assembly (12) is arranged in the cavity (101), and the air guide assembly (2) is arranged on the machine body shell (11).

3. The shoe dryer according to claim 2, wherein the air guiding assembly (2) comprises an air guiding shell (21) and a connecting piece (22), the air guiding shell (21) is internally provided with the first air flowing channel (201) and the second air outlet (203), the first air flowing channel (201) is communicated with the second air outlet (203), the connecting piece (22) is provided with the first air outlet (202), one end, away from the first air outlet (202), of the connecting piece (22) is arranged on the air guiding shell (21), an inner cavity of the connecting piece (22) is communicated with the second air outlet (203), and the connecting piece (22) is movably connected with the air outlet support arm (3).

4. A shoe dryer according to claim 3, further comprising a heating element (4), wherein the heating element (4) is disposed on the air guiding housing (21), a mounting groove (204) is further formed in the air guiding housing (21), the mounting groove (204) is communicated with the first overcurrent duct (201), and the heating element (4) is located at the mounting groove (204).

5. The shoe dryer according to claim 4, wherein a third over-current air duct (1201) is formed on the fan assembly (12), and the third over-current air duct (1201) is respectively communicated with the cavity (101) and the mounting groove (204).

6. The shoe dryer according to claim 4, wherein the fan assembly (12) comprises a fan body (121) and a fan guide cover (122), a third overcurrent air duct (1201) is formed in the fan guide cover (122), the fan body (121) is arranged on the fan guide cover (122), the fan guide cover (122) is arranged on the fan guide housing (21) close to the mounting groove (204), and the third overcurrent air duct (1201) is communicated with the mounting groove (204).

7. The shoe dryer according to claim 1, wherein a plurality of third air outlets (302) are formed at one end of the air outlet support arm (3) away from the air inlet (102), and the plurality of third air outlets (302) are communicated with the second overcurrent air duct (301).

8. The shoe dryer according to claim 1, characterized in that the machine body (1) further comprises a chassis (13), the chassis (13) being arranged on the machine body (1), the chassis (13) being located on an end of the machine body (1) close to the air inlet (102).