Patent Application
20250082138
The present application claims the priority of Chinese patent application No. 202322460941.0, filed on Sep. 11, 2023, and contents of which are incorporated herein by reference.
The utility model relates to the field of towel or fabric heating or drying technologies, and in particular, to a fabric heating and drying bucket with a foldable structure.
Towels are cotton knits for wiping the face and body. After the towels are woven, yarn is bent and exposed outside, and the towels have soft texture but are unsmooth. The towels are classified into bath towels, face towels, square towels, floor towels, beach towels, and the like. The square towel is a cleansing product, that is, a square cotton textile characterized by fluffy thread loops and a soft texture. The square towel is used to wet and wipe the skin to remove stains from and cleanse and cool the skin. Other towels are basically used to absorb water from the body surface. For example, the bath towels are used after bathing and the face towels are generally used to dry hands after washing of the hands. In addition, the floor towel is used for spreading on the floor for people to stand on after bathing, and can absorb the water from the feet and avoid direct contact between the feet and the cold floor. The towel absorbs a lot of water on its surface after being cleansed, and in this case, a towel drying device is needed to dry the wet towel.
A fabric heating and drying bucket is provided with a base as a whole, a fan heater assembly is arranged inside the base, a protective cover is arranged above the base, and an end cover is arranged at the top of the protective cover. The towel is placed inside the protective cover, and then the towel inside the protective cover is dried or heated by running the fan heater assembly inside the base, so that the towel is dried out. However, the existing towel heating buckets are in an unfoldable form, and are integrated structures as a whole and unchangeable in the height, making the towel heating buckets difficult to pack during transportation and resulting in problems such as an increase in transportation costs and a storage difficulty due to occupancy of relatively large space by the towel heating buckets in the households. In view of this, we propose a fabric heating and drying bucket with a foldable structure.
To resolve the existing problems, embodiments of this application provide a fabric heating and drying bucket with a foldable structure, where a fan heater assembly is provided inside the base, a protective cover above the base is made of an extendable material, and foldable telescopic rods are arranged inside the protective cover at four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
Technical solutions adopted to resolve the technical problems in the embodiments of this application are as follows:
A fabric heating and drying bucket with a foldable structure is provided and configured to heat and dry fabric, and includes a base with a heating structure and an accommodating structure arranged above the base and configured to accommodate the fabric, where the accommodating structure has a first form and a second form under action of external restraining force; and
Preferably, the accommodating structure includes a protective cover for protection and a supporting frame arranged above the protective cover, the supporting frame and the base are provided with a telescopic rod on their inner sides, and the protective cover is folded when the telescopic rod is in the first form of the accommodating structure. A fan heater assembly is provided inside the base, a protective cover above the base is made of an extendable material, and foldable telescopic rods are arranged inside the protective cover at four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
Preferably, the accommodating structure includes a protective cover for protection and a supporting frame arranged above the protective cover, the protective cover is a multisection telescoping structure, the multisection telescoping structure of the protective cover is a structure that can be vertically telescoped, and sizes of the structures decrease sequentially from top to bottom, so that when the protective cover is folded, upper structures with larger sizes descend sequentially, to accommodate lower structures with smaller sizes. The supporting frame and the base are provided with a telescopic rod on their inner sides, the multisection telescoping protective cover is folded when the telescopic rod is in the first form of the accommodating structure, and a fan heater assembly is arranged inside the base. In addition, the protective cover above the base is a multisection structure, and can be telescoped when being packed. The foldable telescopic rods are arranged inside the protective cover at the four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external protective cover via multisection telescoping and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
Preferably, the accommodating structure includes a protective cover for protection and a supporting frame arranged above the protective cover, the protective cover is provided with a heating composite membrane on its inner wall, the supporting frame and the base are provided with a telescopic rod on their inner sides, and the protective cover is folded when the telescopic rod is in the first form of the accommodating structure. A controller is provided inside the base, a protective cover above the base is made of an extendable material and has an inner wall to which a heating composite membrane is attached, the heating composite membrane is controlled by the controller to dry and heat the towel, and foldable telescopic rods are arranged inside the protective cover at four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
Preferably, a controller is arranged inside the base, and the controller is electrically connected to the heating composite membrane and is configured to control the heating composite membrane to generate heat.
Preferably, a fan heater assembly is provided inside the base, a partition plate is provided above the fan heater assembly, a ventilation hole is opened in the partition plate, and in this way, hot air generated by the fan heater assembly enters the protective cover through the ventilation hole to heat or dry the placed fabric. The fan heater assembly is configured to heat or dry the fabric placed in the protective cover.
Preferably, the supporting frame is provided with an end cover on its top end, a reversible cover plate is arranged inside the end cover, a moisture discharge hole is opened in the cover plate, so that moisture generated during heating inside the protective cover can be discharged through the moisture discharge hole to avoid a decrease in heating or drying efficiency caused due to moisture discharge difficulty; and a rotating shaft is arranged on one side of the cover plate and the end cover. The rotating shaft is rotatably connected to the end cover, a handle is provided on another end of the cover plate, and in this way, the handle is turned over, and the cover plate and the end cover are separated from each other under the effect of the rotating shaft, so that the cover plate is opened.
Preferably, the base is provided with a timer on its surface wall, the timer is electrically connected to a power supply, and the timer includes operation buttons and a display screen. The operation buttons include a start button and an adjustment button, and the display screen includes a time display. When the timer performs timing, the time is set through the operation button first, then the internal heating structure heats up, and the set time starts from a moment when the inner wall of the protective cover reaches preset temperature, to avoid impact of different ambient temperature on final sensible temperature of the fabric. In addition, padding feet are arranged at a bottom end of the base, so that the base is supported by the padding feet.
Advantages of this embodiment of this application are as follows:
1. The fan heater assembly is provided inside the base, the protective cover above the base is made of the extendable material, and the foldable telescopic rods are arranged inside the protective cover at the four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce the occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
2. The fan heater assembly is provided inside the base, the protective cover above the base is a multisection structure, and can be telescoped when being packed, and the foldable telescopic rods are arranged inside the protective cover at the four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external protective cover via multisection telescoping and folding the fabric heating and drying bucket as a whole can reduce the occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
3. The controller is provided inside the base, the protective cover above the base is made of the extendable material and has an inner wall to which a heating composite membrane is attached, the heating composite membrane is controlled by the controller to dry and heat the towel, and the foldable telescopic rods are arranged inside the protective cover at the four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce the occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
The utility model is further described below with reference to the accompanying drawings and embodiments.
1. base; 2. padding foot; 3. timer; 4. protective cover; 5. end cover; 6. cover plate; 7. telescopic rod; 8. wale; 9. supporting frame; 10. partition plate; 11. handle; 12. rotating shaft; 13. moisture discharge hole; 14. heating composite membrane; 15. fan heater assembly; and 16. controller.
Embodiments of this application provide a fabric heating and drying bucket with a foldable structure, to resolve existing technical problems. A fan heater assembly is provided inside the base, a protective cover above the base is made of an extendable material, and foldable telescopic rods are arranged inside the protective cover at four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households. A fan heater assembly is arranged inside the base. In addition, the protective cover above the base is a multisection structure, and can be telescoped when being packed. The foldable telescopic rods are arranged inside the protective cover at the four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external protective cover via multisection telescoping and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households. A controller is provided inside the base, a protective cover above the base is made of an extendable material and has an inner wall to which a heating composite membrane is attached, the heating composite membrane is controlled by the controller to dry and heat the towel, and foldable telescopic rods are arranged inside the protective cover at four corners above the base. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods. In addition, packing the external extendable protective cover and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
The technical solutions in the embodiments of this application are intended to resolve the above problems, and a general idea is as follows:
This embodiment provides a specific structure of a fabric heating and drying bucket with a foldable structure. As shown in
The first form of the accommodating structure is a folded form of compressing and folding the accommodating structure above the base 1, the second form of the accommodating structure is a three-dimensional form of extending the accommodating structure into accommodating space above the base 1, the first form and the second form can be converted into each other under the action of the external restraining force, and a wale 8 for hanging the fabric is installed above the accommodating structure.
The accommodating structure includes a protective cover 4 for protection and a supporting frame 9 arranged above the protective cover 4, the supporting frame 9 and the base 1 are provided with a telescopic rod 7 on their inner sides, and the protective cover 4 is folded when the telescopic rod 7 is in the first form of the accommodating structure. A fan heater assembly 15 is provided inside the base 1, a protective cover 4 above the base 1 is made of an extendable material, and foldable telescopic rods 7 are arranged inside the protective cover 4 at four corners above the base 1. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods 7. In addition, packing the external extendable protective cover 4 and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
A fan heater assembly 15 is provided inside the base 1, the fan heater assembly 15 includes a honeycomb PTC heater and a fan, a partition plate 10 is provided above the fan heater assembly 15, a ventilation hole is opened in the partition plate 10, and in this way, hot air generated by the fan heater assembly 15 enters the protective cover 4 through the ventilation hole to heat or dry the placed fabric. The fan heater assembly is configured to heat or dry the fabric placed in the protective cover 4. In an optional solution, the honeycomb PTC heater can alternatively be replaced with another heater.
The supporting frame 9 is provided with an end cover 5 on its top end, a reversible cover plate 6 is arranged inside the end cover 5, a moisture discharge hole 13 is opened in the cover plate 6, so that moisture generated during heating inside the protective cover 4 can be discharged through the moisture discharge hole 13 to avoid a decrease in heating or drying efficiency caused due to moisture discharge difficulty; and a rotating shaft 12 is arranged on one side of the cover plate 6 and the end cover 5. The rotating shaft 12 is rotatably connected to the end cover 5, a handle 11 is provided on another end of the cover plate 6, and in this way, the handle 11 is turned over, and the cover plate 6 and the end cover 5 are separated from each other under the effect of the rotating shaft 12, so that the cover plate 6 is opened.
In addition, padding feet 2 are arranged on the bottom end of the base 1, the base 1 is supported by the padding feet 2, the base 1 is provided with a timer 3 on its surface wall, the timer 3 is electrically connected to a power supply, and the timer 3 includes operation buttons and a display screen. The operation buttons include a start button and an adjustment button, and the display screen includes a time display. When the timer 3 performs timing, the time is set through the operation button first, then the internal heating structure heats up, and the set time starts from a moment when the inner wall of the protective cover reaches preset temperature, to avoid impact of different ambient temperature on final sensible temperature of the fabric. Benefits of the above technical solutions:
The protective cover 4 is folded when the telescopic rod 7 is in the first form of the accommodating structure, a fan heater assembly 15 is provided inside the base 1, a protective cover 4 above the base 1 is made of an extendable material, and foldable telescopic rods 7 are arranged inside the protective cover 4 at four corners above the base 1. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods 7. In addition, packing the external extendable protective cover 4 and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
This embodiment provides a specific structure of a fabric heating and drying bucket with a foldable structure. As shown in
The first form of the accommodating structure is a folded form of compressing and folding the accommodating structure above the base 1, the second form of the accommodating structure is a three-dimensional form of extending the accommodating structure into accommodating space above the base 1, the first form and the second form can be converted into each other under the action of the external restraining force, and a wale 8 for hanging the fabric is installed above the accommodating structure.
The accommodating structure includes a protective cover 4 for protection and a supporting frame 9 arranged above the protective cover 4, the protective cover 4 is a multisection telescoping structure, the multisection telescoping structure of the protective cover 4 is a structure that can be vertically telescoped, sizes of the structures decrease sequentially from top to bottom, the protective cover 4 has an inner wall to which a heating membrane is attached, and the heating membrane can generate heat to dry the fabric or the towel therein, so that when the protective cover 4 is folded, upper structures with larger sizes descend sequentially, to accommodate lower structures with smaller sizes. The supporting frame 9 and the base 1 are provided with a telescopic rod 7 on their inner sides, the multisection telescoping protective cover 4 is folded when the telescopic rod 7 is in the first form of the accommodating structure, and a fan heater assembly 15 is arranged inside the base 1. In addition, the protective cover 4 above the base 1 is a multisection structure, and can be telescoped when being packed. The foldable telescopic rods 7 are arranged inside the protective cover 4 at the four corners above the base 1. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods 7. In addition, packing the external protective cover 4 via multisection telescoping and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
The supporting frame 9 is provided with an end cover 5 on its top end, a reversible cover plate 6 is arranged inside the end cover 5, a moisture discharge hole 13 is opened in the cover plate 6, so that moisture generated during heating inside the protective cover 4 can be discharged through the moisture discharge hole 13 to avoid a decrease in heating or drying efficiency caused due to moisture discharge difficulty; and a rotating shaft 12 is arranged on one side of the cover plate 6 and the end cover 5. The rotating shaft 12 is rotatably connected to the end cover 5, a handle 11 is provided on another end of the cover plate 6, and in this way, the handle 11 is turned over, and the cover plate 6 and the end cover 5 are separated from each other under the effect of the rotating shaft 12, so that the cover plate 6 is opened.
In addition, padding feet 2 are arranged on the bottom end of the base 1, the base 1 is supported by the padding feet 2, the base 1 is provided with a timer 3 on its surface wall, the timer 3 is electrically connected to a power supply, and the timer 3 includes operation buttons and a display screen. The operation buttons include a start button and an adjustment button, and the display screen includes a time display. When the timer 3 performs timing, the time is set through the operation button first, then the internal heating structure heats up, and the set time starts from a moment when the inner wall of the protective cover reaches preset temperature, to avoid impact of different ambient temperature on final sensible temperature of the fabric. Benefits of the above technical solutions:
The multisection telescoping structure of the protective cover 4 is a structure that can be vertically telescoped, and sizes of the structures decrease sequentially from top to bottom, so that when the protective cover 4 is folded, upper structures with larger sizes descend sequentially, to accommodate lower structures with smaller sizes. The supporting frame 9 and the base 1 are provided with a telescopic rod 7 on their inner sides, the multisection telescoping protective cover 4 is folded when the telescopic rod 7 is in the first form of the accommodating structure, the protective cover 4 has an inner wall to which a heating membrane is attached, and the heating membrane can generate heat to dry the fabric or the towel therein. Folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
This embodiment provides a specific structure of a fabric heating and drying bucket with a foldable structure. As shown in
The first form of the accommodating structure is a folded form of compressing and folding the accommodating structure above the base 1, the second form of the accommodating structure is a three-dimensional form of extending the accommodating structure into accommodating space above the base 1, the first form and the second form can be converted into each other under the action of the external restraining force, and a wale 8 for hanging the fabric is installed above the accommodating structure.
The accommodating structure includes a protective cover 4 for protection and a supporting frame 9 arranged above the protective cover 4, the protective cover 4 is provided with a heating composite membrane 14 on its inner wall, the supporting frame 9 and the base 1 are provided with a telescopic rod 7 on their inner sides, and the protective cover 4 is folded when the telescopic rod 7 is in the first form of the accommodating structure. A controller 16 is provided inside the base 1, the protective cover 4 above the base 1 is made of an extendable material and has an inner wall to which a heating composite membrane 14 is attached, the heating composite membrane 14 is controlled by the controller 16 to dry and heat the towel, and foldable telescopic rods 7 are arranged inside the protective cover 4 at four corners above the base 1. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods 7. In addition, packing the external extendable protective cover 4 and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
A controller 16 is arranged inside the base 1, and the controller 16 is electrically connected to the heating composite membrane 14 and is configured to control the heating composite membrane 14 to generate heat.
The supporting frame 9 is provided with an end cover 5 on its top end, a reversible cover plate 6 is arranged inside the end cover 5, a moisture discharge hole 13 is opened in the cover plate 6, so that moisture generated during heating inside the protective cover 4 can be discharged through the moisture discharge hole 13 to avoid a decrease in heating or drying efficiency caused due to moisture discharge difficulty; and a rotating shaft 12 is arranged on one side of the cover plate 6 and the end cover 5. The rotating shaft 12 is rotatably connected to the end cover 5, a handle 11 is provided on another end of the cover plate 6, and in this way, the handle 11 is turned over, and the cover plate 6 and the end cover 5 are separated from each other under the effect of the rotating shaft 12, so that the cover plate 6 is opened.
In addition, padding feet 2 are arranged on the bottom end of the base 1, the base 1 is supported by the padding feet 2, the base 1 is provided with a timer 3 on its surface wall, the timer 3 is electrically connected to a power supply, and the timer 3 includes operation buttons and a display screen. The operation buttons include a start button and an adjustment button, and the display screen includes a time display. When the timer 3 performs timing, the time is set through the operation button first, then the internal heating structure heats up, and the set time starts from a moment when the inner wall of the protective cover reaches preset temperature, to avoid impact of different ambient temperature on final sensible temperature of the fabric. Benefits of the above technical solutions:
The protective cover 4 is folded when the telescopic rod 7 is in the first form of the accommodating structure. A controller 16 is provided inside the base 1, the protective cover 4 above the base 1 is made of an extendable material and has an inner wall to which a heating composite membrane 14 is attached, the heating composite membrane 14 is controlled by the controller 16 to dry and heat the towel, and foldable telescopic rods 7 are arranged inside the protective cover 4 at four corners above the base 1. When not used during transportation or in households, such fabric heating and drying bucket is folded and packed through the telescopic rods 7. In addition, packing the external extendable protective cover 4 and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
A working principle is as follows: When the towel is to be heated or dried, the cover plate 6 is opened, then the towel is placed below the wale 8, and the cover plate 6 is closed. Time is set through the timer 3, and after the time is set, the fan heater assembly 15 inside the base 1 starts running, and the fan heater assembly 15 blows hot air into the protective cover 4 through the partition plate 10, to heat and dry the towel inside the protective cover 4. The timer 3 includes operation buttons and a display screen. The operation buttons include a start button and an adjustment button, and the display screen includes a time display. When the timer 3 performs timing, the time is set through the operation button first, then the internal heating structure heats up, and the set time starts from a moment when the inner wall of the protective cover reaches preset temperature, to avoid impact of different ambient temperature on final sensible temperature of the fabric. After heating is completed, the cover plate 6 is opened and the towel is taken out.
When the fabric heating and drying bucket is not used or the fabric heating and drying bucket is not used during transportation or in households, the fabric heating and drying bucket is folded and packed through the telescopic rods 7. In addition, packing the external extendable protective cover 4 and folding the fabric heating and drying bucket as a whole can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
Finally, it should be noted that, obviously, the above embodiments are only examples for clearly describing the utility model, and are not limitations on the embodiments. For persons of ordinary skills in the art, other changes or modifications in different forms may also be made on the basis of the above descriptions. It is unnecessary and impossible to exhaust all embodiments. Obvious changes or modifications derived therefrom shall still fall within the protection scope of the utility model.
This application relates to the field of towel or fabric heating or drying technologies, where when not used during transportation or in households, such fabric heating and drying bucket is folded and packed through a telescopic rod. Packing the external protective cover can reduce an occupancy area of the fabric heating and drying bucket, cut down transportation costs during transportation, and save storage space when the fabric heating and drying bucket is not used in the households.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202322460941.0 | Sep 2023 | CN | national |
