A portable multi-functional dryer
By combining a four-branch pipe structure with an ozone generator, the problem of existing shoe dryers being able to dry only one pair of shoes at a time has been solved, achieving efficient drying and sterilization of multiple pairs of shoes or socks at the same time.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 黄晓耿
- Filing Date
- 2025-06-12
- Publication Date
- 2026-06-09
AI Technical Summary
Existing shoe dryers can only dry one pair of shoes at a time, which is inconvenient to use and has low drying efficiency, and cannot dry multiple pairs of shoes or socks at the same time.
A portable multi-functional dryer was designed, which adopts a four-branch pipe structure. Each branch pipe has an air duct, and the top of the air duct is equipped with an air guide and a side air vent. The main sleeve is equipped with a flow divider. Combined with an ozone generator, it can dry multiple shoes or socks at the same time and has an ozone sterilization function.
It allows multiple pairs of shoes or socks to be dried simultaneously, is convenient to use and has high drying efficiency, and also has an ozone sterilization effect.
Smart Images

Figure CN224330907U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of daily necessities, and in particular to a portable multi-functional dryer that can dry shoes. Background Technology
[0002] Currently, most shoe dryers on the market consist of two small boxes connected to the same power cord that blow out hot air. To use them, the two boxes are simply inserted into the shoes, and the power is turned on to dry the shoes. However, since each shoe dryer can only dry one pair of shoes at a time, drying two pairs of shoes or multiple pairs of socks simultaneously requires waiting for each pair to dry. Therefore, existing shoe dryers are not only inconvenient to use but also have low drying efficiency. Utility Model Content
[0003] In view of the above problems, the purpose of this utility model is to provide a portable multi-functional dryer that is easy to use and has high drying efficiency.
[0004] To achieve the above objectives, this utility model provides a portable multi-functional dryer, comprising a drying main unit, a main sleeve fitted onto an air outlet at the end of the drying main unit, four branch pipes sequentially arranged on the main sleeve and each communicating with the main sleeve, branch air outlets at the ends of the four branch pipes, and air ducts communicating with the branch pipes at the branch air outlets. An air guide is provided at the top of the air duct, and a side air outlet is provided on the side of the air duct.
[0005] In some implementations, the opening of the branch air outlet is perpendicular to the branch duct; the duct is perpendicular to the branch duct.
[0006] In some implementations, the branch air outlets on the four branch pipes face the same direction.
[0007] In some implementations, the main casing is equipped with three diversion baffles that guide airflow into the four branch pipes respectively.
[0008] In some embodiments, the drying host includes a semi-enclosed cylindrical outer shell sleeved with a main sleeve, a motor located at the middle of the cylindrical outer shell, a fan located on the motor, a first honeycomb partition located on one side of the fan, a bracket located on one side of the motor for fixing the motor and extending to the opening of the cylindrical outer shell, a second honeycomb partition located on the opening of the cylindrical outer shell located on one side of the bracket, a heating wire wound on the bracket, a circuit board located inside the cylindrical outer shell located on one side of the first honeycomb partition and connected to the motor and the heating wire respectively, a first protective cover located between the motor and the cylindrical outer shell, and a second protective cover and a third protective cover located sequentially between the heating wire and the cylindrical outer shell located on one side of the first protective cover.
[0009] In some embodiments, the first protective cover is provided with a first heat dissipation hole to cooperate with the fan for heat dissipation.
[0010] In some embodiments, a second heat dissipation hole is provided on the cylindrical outer casing located at the circuit board position, which communicates with the outside and cooperates with the circuit board for heat dissipation.
[0011] In some implementations, an ozone generator connected to a circuit board is mounted on a bracket on one side of the fan.
[0012] In some embodiments, a sleeve integrally connected to a tee pipe is provided on the opening of the cylindrical outer shell. The main sleeve is fitted inside the sleeve.
[0013] In some embodiments, a limiting structure is provided between the main sleeve and the cylindrical outer shell. The limiting structure includes a protrusion provided on the main sleeve and a limiting groove provided on the inner wall of the cylindrical outer shell at the corresponding position of the protrusion, which cooperates with and limits the protrusion.
[0014] The advantages of this invention are its ease of use and high drying efficiency. The improved structure employs four branch pipes with four ducts perpendicularly connected to them, ensuring that two pairs of shoes can be inserted into the ducts, or shoes and socks can be inserted into the four ducts respectively for simultaneous drying. Furthermore, the ozone generator works in conjunction with the drying process to sterilize the shoes or socks with ozone, thus achieving both ease of use and high drying efficiency. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the structure of this utility model;
[0016] Figure 2 This is a structural schematic diagram from another perspective of the present invention;
[0017] Figure 3 This is a schematic diagram of the internal structure of the main sleeve in this utility model;
[0018] Figure 4 This is a schematic diagram of the internal structure of the drying host in this utility model;
[0019] Figure 5 This is an exploded structural diagram of the drying host in this utility model;
[0020] Figure 6 This is a schematic diagram of the circuit components of the drying main unit;
[0021] Figure 7 A schematic diagram of the connection between the main sleeve and the cylindrical outer shell;
[0022] Figure 8 This is a schematic diagram of the cylindrical outer shell.
[0023] Figure 9 A schematic diagram of the main bushing structure. Detailed Implementation
[0024] The utility model will now be described in further detail with reference to the accompanying drawings.
[0025] like Figure 1-9 As shown, a portable multi-functional dryer includes a drying main unit 01, a main sleeve 02 fitted onto an air outlet at the end of the drying main unit 01, four branch pipes 03 sequentially arranged on the main sleeve 02, each communicating with the main sleeve 02, and branch air outlets 04 at the ends of the four branch pipes 03, and air ducts 05 connected to the branch pipes 03 on the branch air outlets 04. An air guide 51 is provided at the top of the air duct 05, and a side air outlet 52 is provided on the side of the air duct 05. The opening of the branch air outlet 04 is perpendicular to the branch pipe 03, and the air duct 05 is perpendicular to the branch pipe 03. This design allows the air duct 05 to be inserted into the sole of a shoe or sock and directly fitted onto the air duct 05 for drying.
[0026] The branch air outlets 04 on the four branch pipes 03 are oriented in the same direction. The orientation of the branch air outlets 04 can be either perpendicular to the branch pipe 03 in the forward direction or perpendicular to the branch pipe 03 in the reverse direction, depending on the actual product requirements.
[0027] The main sleeve 02 is equipped with three guide air baffles 21 that flow into the four branch pipes 03 respectively. This design can ensure that the air coming out of the main sleeve 02 can be evenly distributed into the four branch pipes 03.
[0028] The drying unit 01 includes a semi-enclosed cylindrical shell 11, a motor 12 located in the middle of the cylindrical shell 11, a fan 13 mounted on the motor 12, a first honeycomb partition 14 on one side of the fan 13, a bracket 15 on one side of the motor 12 for fixing the motor 12 and extending to the opening of the cylindrical shell 11, a second honeycomb partition 16 on the opening of the cylindrical shell 11 on one side of the bracket 15, a heating wire 17 wound on the bracket 15, a circuit board 18 inside the cylindrical shell 11 on one side of the first honeycomb partition 14 that is connected to the motor 12 and the heating wire 17 respectively, a first protective cover 19 between the motor 12 and the cylindrical shell 11, and a second protective cover 110 and a third protective cover 111 sequentially mounted between the heating wire 17 on one side of the first protective cover 19 and the cylindrical shell 11.
[0029] The first protective cover 19 is provided with a first heat dissipation hole 112 to cooperate with the fan 13 for heat dissipation.
[0030] A second heat dissipation hole 113 is provided on the cylindrical outer shell 11 located at the circuit board 18, which communicates with the outside and cooperates with the circuit board 18 for heat dissipation. An ozone generator 06 connected to the circuit board 18 is provided on the bracket 15 on one side of the fan 13. The purpose of this design is to work together with the drying and blowing to provide ozone sterilization for shoes or socks.
[0031] A sleeve 09, which is integrally connected to a tee pipe, is provided on the opening of the cylindrical outer shell 11, and the main sleeve 02 is fitted inside the sleeve 09.
[0032] A limiting structure is provided between the main sleeve 02 and the cylindrical outer shell 11. The limiting structure includes a protrusion 07 provided on the main sleeve 02, and a limiting groove 08 provided on the inner wall of the cylindrical outer shell 11 at the position corresponding to the protrusion 07, which cooperates with the protrusion 07 for limiting.
[0033] When using, hold the flashlight-shaped drying unit 01 and place the air duct 05 vertically, with the opening of the branch air outlet 04 facing upwards. Insert two pairs of shoes into the air duct 05, or insert the shoes and socks into the four air ducts 05 respectively, and dry them simultaneously to improve drying efficiency.
[0034] The above descriptions are merely some embodiments of this utility model. For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and all such modifications and improvements fall within the protection scope of this utility model.
Claims
1. A portable multifunctional drying machine characterized by comprising: It includes a drying host, a main sleeve fitted onto the air outlet at the end of the drying host, four branch pipes connected to the main sleeve in sequence, and branch air outlets at the ends of the four branch pipes, and air ducts connected to the branch pipes at the branch air outlets. The top of the air duct is provided with an air guide port; the side of the air duct is provided with a side air vent.
2. The portable multifunctional drying machine according to claim 1, characterized in that, The opening of the branch air outlet is perpendicular to the branch pipe; the air duct is perpendicular to the branch pipe.
3. The portable multifunctional drying machine according to claim 1, wherein The branch air outlets on the four branch pipes all face the same direction.
4. The portable multifunctional drying machine according to claim 1, wherein The main casing is equipped with three diversion baffles that guide airflow into the four branch pipes respectively.
5. The portable multifunctional drying machine according to claim 1, wherein The drying host includes a semi-enclosed cylindrical shell sleeved with the main sleeve, a motor located in the middle of the cylindrical shell, a fan located on the motor, a first honeycomb partition located on one side of the fan, a bracket located on one side of the motor that fixes the motor and extends to the opening of the cylindrical shell, a second honeycomb partition located on the opening of the cylindrical shell located on one side of the bracket, a heating wire wound on the bracket, a circuit board located inside the cylindrical shell located on one side of the first honeycomb partition that is connected to the motor and the heating wire respectively, a first protective cover located between the motor and the cylindrical shell, and a second protective cover and a third protective cover located sequentially between the heating wire and the cylindrical shell located on one side of the first protective cover.
6. A portable multi-functional dryer according to claim 5, wherein The first protective cover is provided with a first heat dissipation hole to cooperate with the fan for heat dissipation.
7. The portable multi-functional dryer according to claim 5, wherein A second heat dissipation hole is provided on the cylindrical outer shell located at the circuit board position, which communicates with the outside and cooperates with the circuit board for heat dissipation.
8. The portable multi-functional dryer according to claim 5, wherein An ozone generator connected to a circuit board is mounted on a bracket on one side of the fan.
9. The portable multifunctional drying machine according to claim 5, wherein The opening of the cylindrical outer shell is provided with a sleeve that is integrally connected to the tee pipe; The main sleeve is fitted inside the sleeve connector.
10. The portable multifunctional drying machine according to claim 5, wherein A limiting structure is provided between the main sleeve and the cylindrical outer shell; The limiting structure includes a protrusion on the main sleeve and a limiting groove on the inner wall of the cylindrical outer shell at the corresponding position of the protrusion, which cooperates with the protrusion for limiting.