CN213345554U

CN213345554U - Telescopic shoe dryer

Info

Publication number: CN213345554U
Application number: CN202021936661.2U
Authority: CN
Inventors: 赖均勇
Original assignee: Foshan City Shunde District Xinshuangling Electromechanical Technology Co ltd
Current assignee: Foshan City Shunde District Xinshuangling Electromechanical Technology Co ltd
Priority date: 2020-09-07
Filing date: 2020-09-07
Publication date: 2021-06-04
Anticipated expiration: 2030-09-07

Abstract

The utility model discloses a telescopic shoe dryer, which comprises a main shell and a telescopic shell, wherein an installation cavity is formed in the main shell, and the telescopic shell is arranged in the installation cavity and can move close to or far away from the installation cavity; the telescopic shell is used for extending out of the mounting cavity after moving away from the mounting cavity; the telescopic shell is used for being accommodated in the mounting cavity after moving close to the mounting cavity; the telescopic shell is made of a heat-conducting material; a heating body and a heat conducting assembly are arranged in the mounting cavity; the heat-generating body is used for generating heat, heat conduction subassembly is used for guiding the heat conduction in the installation cavity. The utility model discloses a retractable dries by fire shoes ware, its flexible casing that dries by fire shoes ware can stretch out by the main casing body, is suitable for not unidimensional shoes to dry.

Description

Telescopic shoe dryer

Technical Field

The utility model relates to a dry by fire shoes ware technical field, especially relate to retractable dries by fire shoes ware.

Background

At present, shoe dryers, also known as shoe dryers and shoe warmers, are small household appliances specially designed for drying shoes. The shoe dryer has the functions of drying, sterilizing, deodorizing and the like, so that people can solve certain people with related troubles and troubles of feet, such as cold feet, beriberi and chilblain, and the requirement of people on solving the daily troubles of the feet can be greatly met.

However, the existing shoe dryer has fixed size, cannot be suitable for different shoes, and is easy to be used under the condition of uneven shoe drying when different shoes are dried by the same shoe dryer.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a retractable shoe dryer, a retractable shell of which can be extended out from a main shell body and is suitable for drying shoes with different sizes.

The purpose of the utility model is realized by adopting the following technical scheme:

the telescopic shoe dryer comprises a main shell and a telescopic shell, wherein an installation cavity is formed in the main shell, and the telescopic shell is installed in the installation cavity and can move close to or far away from the installation cavity; the telescopic shell is used for extending out of the mounting cavity after moving away from the mounting cavity; the telescopic shell is used for being accommodated in the mounting cavity after moving close to the mounting cavity; the telescopic shell is made of a heat-conducting material; a heating body and a heat conducting assembly are arranged in the mounting cavity; the heat-generating body is used for generating heat, heat conduction subassembly is used for guiding the heat conduction in the installation cavity.

Furthermore, a positioning column is arranged on the bottom wall of the installation cavity, a sliding groove is arranged on the telescopic shell, and the sliding groove extends along the length direction of the installation cavity; the positioning column is slidably mounted in the sliding groove.

Further, the main housing comprises a top shell and a bottom shell, the top shell and the bottom shell are detachably fixed, and the mounting cavity is formed between the top shell and the bottom shell; the telescopic shell is slidably arranged on the bottom shell; the positioning column is arranged on the bottom shell; the telescopic shell is used for being packaged at the bottom end of the top shell together with the bottom shell after moving close to the mounting cavity.

Furthermore, a plurality of first heat dissipation holes are formed in the top end face and the bottom end face of the main shell; and the top end surface and the bottom end surface of the telescopic shell are provided with a plurality of second heat dissipation holes.

Further, the heat conducting assembly comprises at least two heat conducting fins, and the at least two heat conducting fins are distributed along the length direction of the mounting cavity; the end parts of two adjacent heat conducting fins are stacked; the heating body is arranged on one of the heat conducting sheets.

Furthermore, the number of the heat conducting fins is two, one of the heat conducting fins extends into the telescopic shell, and the other heat conducting fin extends to the rear end wall of the installation cavity.

Compared with the prior art, the beneficial effects of the utility model reside in that: when the shoe dryer is in normal use, the telescopic shell is accommodated in the mounting cavity in the main shell, the heating body generates heat, and the generated heat is conducted in the mounting cavity by the heat conducting component to perform drying operation. And when shoes size is great relatively, flexible casing can move relatively the installation cavity to stretch out by the installation cavity, flexible casing can compensate the length of whole main casing body, and the stoving area of formation is great relatively.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of another use state of the present invention;

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

fig. 4 is a schematic view of a partial structure of the present invention.

In the figure: 10. a main housing; 11. a top shell; 12. a bottom case; 121. a positioning column; 13. a first heat dissipation hole; 20. a telescopic housing; 21. a second heat dissipation hole; 22. a chute; 30. a heating element; 40. a heat conductive sheet.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

the retractable shoe dryer shown in fig. 1-4 comprises a main housing 10 and a retractable housing 20, wherein a mounting cavity is formed in the main housing 10, the retractable housing 20 is mounted in the mounting cavity, the retractable housing 20 can move close to or away from the mounting cavity, the retractable housing 20 can extend out of the mounting cavity after moving away from the mounting cavity, and the retractable housing 20 is stored in the mounting cavity after moving close to the mounting cavity.

The telescopic shell 20 is made of heat conducting materials, and a heating body 30 and a heat conducting component are arranged in the installation cavity; the heating body 30 is used for generating heat, and the heat conducting component is used for guiding heat to conduct in the installation cavity.

On the basis of the structure, use the utility model discloses a when retractable dried shoes ware, during normal use, flexible casing 20 can be accomodate in the installation cavity, and main casing body 10 can be placed in shoes, and the power cord of heat-generating body 30 can stretch out with outside commercial power circular telegram by main casing body 10, and heat-generating body 30 generates heat, and the heat of production can lead to the different positions of installation cavity through heat-conducting component, and main casing body 10 alright generate heat and dry to shoes.

And when shoes size is great relatively, the installation cavity is stretched out to flexible casing 20 of accessible, and flexible casing 20 can stretch out main casing body 10 relatively, and flexible casing 20 can compensate whole main casing body 10's length, and when drying this moment, flexible casing 20 also can guide the installation cavity heat to dry, so, the stoving area of formation is great relatively, and it is comparatively even to dry.

The heating element in this embodiment may be a heating sheet or a heating resistor as in the prior art.

Furthermore, a positioning post 121 may be further disposed on the bottom wall of the mounting cavity, a sliding groove 22 is correspondingly disposed on the telescopic housing 20, the sliding groove 22 extends along the length direction of the mounting cavity, and the positioning post 121 is slidably mounted in the sliding groove 22. That is, when the telescopic housing 20 is extended or retracted, the telescopic housing 20 can be pulled by a person, and the positioning column 121 can slide in the sliding slot 22, so that the telescopic housing 20 is relatively extended or retracted, and the movement of the telescopic housing 20 is relatively stable.

Specifically, the main housing 10 includes a top housing 11 and a bottom housing 12, the top housing 11 and the bottom housing 12 are detachably fixed, and after the top housing 11 and the bottom housing 12 are installed, the installation cavity may be formed between the top housing 11 and the bottom housing 12. The telescopic housing 20 is slidably mounted on the bottom case 12, and the positioning post 121 is disposed on the bottom case 12; the telescopic housing 20 can be assembled with the bottom housing 12 at the bottom end of the top housing 11 after moving close to the installation cavity.

On the basis of this structure, the telescopic housing 20 can be assembled on the bottom shell 12, that is, the telescopic housing 20 can move relative to the bottom shell 12, and when the telescopic housing 20 extends into the mounting cavity relative to the bottom shell 12, the telescopic housing 20 and the bottom shell 12 can be packaged together at the bottom end of the top shell 11. When shoes with larger size are dried, the telescopic shell 20 can slide out relative to the bottom shell 12, and the size of the formed dryer is larger.

Furthermore, a plurality of first heat dissipation holes 13 may be disposed on both the top end surface and the bottom end surface of the main housing 10, that is, during drying, heat generated by the heating element 30 may be dissipated through the plurality of first heat dissipation holes 13 on the top end surface and the bottom end surface, so that heat transfer is faster and drying efficiency is higher.

Similarly, the top end surface and the bottom end surface of the telescopic shell 20 are both provided with a plurality of second heat dissipation holes 21, when the telescopic shell 20 is used for drying, the heat generated by the heating body 30 can be dissipated through the second heat dissipation holes 21, the heat transfer is faster, and the efficiency is higher.

Of course, in the case where the first heat radiating hole 13 and the second heat radiating hole 21 are not provided, the main housing 10 and the telescopic housing 20 are made of a heat conductive material, and heat can be directly guided through the main housing 10 and the telescopic housing 20.

Further, the heat conducting assembly comprises at least two heat conducting fins 40, and the at least two heat conducting fins 40 are distributed along the length direction of the mounting cavity; the end parts of two adjacent heat-conducting fins 40 are stacked; the heating element 30 is mounted on one of the heat conductive sheets 40. Thus, since the heating element 30 is mounted on one of the heat conductive sheets 40, heat generated by heating can be guided by the heat conductive sheets 40 sequentially stacked in the length direction and dissipated, so that the heat can be gradually transferred and transferred in the length direction of the shoe dryer, and the heat is uniformly distributed. And because the conducting strip 40 piles up the arrangement, the part that stacks on the one hand can directly receive the heat, prevents the heat loss, and on the other hand conducting strip 40 can cooperate telescopic shell 20 to set up.

Further, there are two heat conduction sheets 40, one of the heat conduction sheets 40 extends into the telescopic housing 20, and the other heat conduction sheet 40 extends to the rear end wall of the installation cavity, so that the heat conduction sheets 40 can guide heat into the telescopic housing 20, and the drying performance of the telescopic housing 20 is better.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims

1. The telescopic shoe dryer is characterized by comprising a main shell and a telescopic shell, wherein an installation cavity is formed in the main shell, and the telescopic shell is installed in the installation cavity and can move close to or far away from the installation cavity; the telescopic shell is used for extending out of the mounting cavity after moving away from the mounting cavity; the telescopic shell is used for being accommodated in the mounting cavity after moving close to the mounting cavity; the telescopic shell is made of a heat-conducting material; a heating body and a heat conducting assembly are arranged in the mounting cavity; the heat-generating body is used for generating heat, heat conduction subassembly is used for guiding the heat conduction in the installation cavity.

2. The retractable shoe dryer of claim 1, wherein the bottom wall of the installation cavity is provided with a positioning column, the retractable housing is provided with a sliding groove, and the sliding groove extends along the length direction of the installation cavity; the positioning column is slidably mounted in the sliding groove.

3. The retractable shoe dryer of claim 2, wherein said main housing comprises a top shell and a bottom shell, said top shell and said bottom shell being removably secured, said top shell and said bottom shell defining said mounting cavity therebetween; the telescopic shell is slidably arranged on the bottom shell; the positioning column is arranged on the bottom shell; the telescopic shell is used for being packaged at the bottom end of the top shell together with the bottom shell after moving close to the mounting cavity.

4. The retractable shoe dryer as claimed in any one of claims 1-3, wherein the top end surface and the bottom end surface of the main housing are provided with a plurality of first heat dissipating holes; and the top end surface and the bottom end surface of the telescopic shell are provided with a plurality of second heat dissipation holes.

5. The retractable shoe dryer of any one of claims 1-3, wherein the heat conducting assembly comprises at least two heat conducting fins, at least two heat conducting fins being distributed along a length direction of the installation cavity; the end parts of two adjacent heat conducting fins are stacked; the heating body is arranged on one of the heat conducting sheets.

6. The retractable shoe dryer of claim 5, wherein there are two of said heat-conducting strips, one of said heat-conducting strips extending into the retractable housing, the other of said heat-conducting strips extending to the rear end wall of the mounting cavity.