阅读说明：本技术 一种非接触驱动洗脚靴 (Non-contact drive footbath boot ) 是由 梁法库 梁帅 赵德春 于 2019-10-12 设计创作，主要内容包括：一种非接触驱动洗脚靴,主要由靴子形装水器、电动机、电动机转盘、外塑料壳、承重底板、承重上板、支柱、椭球形磁体、温控加热板构成,其特征是：靴子形装水器是由树脂材料成型,或者由橡胶材料成型,在电动机转轴上固定电动机转盘,所述电动机转盘是中心带孔圆盘型强磁体；外塑料壳为硬塑料成型,电动机b、电动机c和支柱固定在承重底板上,承重上板是非铁磁材料；温控加热板固定在承重上板上,温控加热板是加热丝围成的梳齿状平板,温控加热板端头有温控器件；解决一种非接触驱动的节水洗脚装置,着重解决在外磁场中驱动磁体运动以及利用靴子形状来实现非接触驱动节水装置。(A non-contact drive foot washing boot is mainly composed of a boot-shaped water container, a motor turntable, an outer plastic shell, a bearing bottom plate, a bearing upper plate, a strut, an ellipsoidal magnet and a temperature control heating plate, and is characterized in that: the boot-shaped water container is formed by resin materials or rubber materials, a motor turntable is fixed on a rotating shaft of a motor, and the motor turntable is a disk-shaped strong magnet with a hole in the center; the outer plastic shell is formed by hard plastic, the motor b, the motor c and the support are fixed on the bearing bottom plate, and the bearing upper plate is made of non-ferromagnetic material; the temperature control heating plate is fixed on the upper bearing plate, the temperature control heating plate is a comb-shaped flat plate surrounded by heating wires, and a temperature control device is arranged at the end of the temperature control heating plate; the non-contact driven water-saving footbath device is characterized in that a magnet is driven to move in an external magnetic field, and the shape of a boot is utilized to realize the non-contact driven water-saving device.)

1. The utility model provides a non-contact drive footbath boots, mainly by boot shape dress hydrophone (1), motor (2), motor carousel (3), outer plastic casing (4), bearing bottom plate (5), bearing upper plate (6), pillar (7), ellipsoid shape magnet (8), power connecting wire (9), motor plug (10), control by temperature change hot plate (11) constitute characterized by: the boot-shaped water container (1) is molded by a resin material or a rubber material, two feet can be placed in the boot-shaped water container at the same time, a motor turntable (3) is fixed on a rotating shaft of the motor (2), the motor turntable (3) is a disk-shaped strong magnet with a hole at the central shaft, and the hole diameter at the central shaft of the disk-shaped strong magnet is matched with the outer diameter of the rotating shaft of the motor (2); the outer plastic shell (4) is formed by hard plastic, a bearing bottom plate (5) is fixed on the bottom surface of the outer plastic shell (4), a motor b (2), a motor c (2) and a strut (7) are fixed on the bearing bottom plate (5), the rotating shafts of the motor b (2) and the motor c (2) are vertical to the bearing bottom plate (5), the bearing upper plate (6) is made of non-ferromagnetic materials, and the bearing upper plate (6) is fixed on the strut (7); the temperature control heating plate (11) is fixed on the bearing upper plate (6), the temperature control heating plate (11) is a comb-shaped flat plate surrounded by heating wires, a temperature control device is arranged at the end of the temperature control heating plate (11) and connected with an insulating wrapping wire, and the other end of the insulating wrapping wire penetrates through the outer plastic shell (4) and is connected with a heating plate plug (13); the motor a (2) and the motor d (2) are respectively fixed on the inner side surface of the outer plastic shell (4); the motor b (2), the motor c (2), the motor a (2) and the motor d (2) are connected in parallel on a power supply connecting wire (9) through an insulating sheath wire, a motor plug (10) is inserted into a jack of the output end of a power supply adapter connected with a power supply, and a variable speed switch (12) is turned on to rotate the motor; the boot-shaped water loader (1) is placed in an outer plastic shell (4) to be sealed and fixed; the ellipsoidal magnet (8) is a smooth ellipsoidal appearance formed by wrapping plastic on the periphery of a permanent magnet material, or a hairline is fixed on the plastic outside of the ellipsoidal magnet (8) to form an ellipsoidal magnet hairball.

Technical Field

The patent relates to a non-contact drive footbath boot, which belongs to the technical field of daily life.

Background

In daily life, the feet washing devices with various functions are not needed, most of the feet washing devices are provided with motors for directly driving objects to wash feet and massage, and the containers are column tubes or square containers, so that a plurality of defects exist, and the defects are that: the skin is easily damaged due to overlarge direct driving force of the motor, the technical problem of leakage and the leakage risk are also involved when some motor bearings penetrate through the basin bottom, and the motor is burnt out due to the fact that the rotating shaft of the motor stops rotating due to overlarge gravity of feet; how to overcome the defects that the cylindrical container or the square container needs a larger amount of water to immerse the legs and the feet, which wastes water resources? This patent addresses this problem. The method is completed under the support of national natural fund projects (project numbers are 11805107 and 11405092), basic business cost scientific research projects (project number is 135200251) of high schools belonging to provinces of Heilongjiang province and high schools and application projects (project number is SJGY 20170385).

Disclosure of Invention

The patent aims to provide a non-contact driven water-saving footbath device and a method thereof, and particularly aims to drive an object to move in an external magnetic field and realize the non-contact driven water-saving device and the method thereof by utilizing the shape of a boot.

This patent technical scheme: a non-contact drive foot washing boot is mainly composed of a boot-shaped water container, a motor turntable, an outer plastic shell, a bearing bottom plate, a bearing upper plate, a strut, an ellipsoidal magnet, a power supply connecting lead, a motor plug (inserted into a power supply adapter) and a temperature control heating plate, and is characterized in that: the boot-shaped water container (insulation) is formed by resin materials or rubber materials, two feet can be put into the boot-shaped water container (insulation) at the same time, a motor turntable is fixed on a motor rotating shaft, the motor turntable is made of a disk-shaped strong magnet with a hole in the center (at the shaft) (the magnetic induction intensity at the position of 1mm on the surface of the magnet is more than or equal to 0.1 Tesla), and the hole diameter at the position of the central shaft of the disk-shaped strong magnet is matched with the outer diameter of the motor rotating shaft; the outer plastic shell is formed by hard plastic, a bearing bottom plate is fixed on the bottom surface of the outer plastic shell, the motor b, the motor c and the strut are fixed on the bearing bottom plate, the rotating shafts of the motor b and the motor c are vertical to the bearing bottom plate, the bearing upper plate is made of non-ferromagnetic materials (such as copper plates, aluminum plates and the like, so that the driving force of the motor turntable on the ellipsoidal magnet is avoided being influenced), and the bearing upper plate is fixed on the strut (not in contact with the motor turntable, namely, the motor turntable does not rub against the bearing upper plate when the motor rotates); the temperature control heating plate is fixed on the upper bearing plate, the temperature control heating plate is a comb-tooth-shaped flat plate (not influencing the passing of a magnetic field and playing a role of heating) surrounded by heating wires, a temperature control device (the temperature is controlled at 40 ℃) is arranged at the end of the temperature control heating plate and is connected with an insulating wrapping wire, and the other end of the insulating wrapping wire penetrates through an outer plastic shell and is connected with a heating plate plug (inserted on a power adapter); the motor a and the motor d are respectively fixed on the inner side surface of the outer plastic shell; the motor b, the motor c, the motor a and the motor d are connected in parallel (penetrate through an outer plastic shell) by insulating sheath wires to be connected with a power supply connecting wire, a motor plug is inserted into a jack connected with a power supply adapter, and a variable speed switch motor is turned on to rotate (the motor is an adjustable speed motor and can be controlled by the variable speed switch to rotate); the boot-shaped water container is placed in an outer plastic shell and sealed and fixed (a motor turntable on a motor a and a motor d cannot be in contact with the boot-shaped water container); the ellipsoidal magnet is formed by wrapping plastic (hard wear-resistant and corrosion-resistant with the thickness of 2-3 mm) on the periphery of a permanent magnet material (neodymium iron boron) to form a smooth ellipsoidal appearance (the ellipsoidal magnet is formed by magnetizing the plastic on a magnetizing device), or hairlines are fixed on the outside of the plastic of the ellipsoidal magnet to form an ellipsoidal magnet hairball, and the foot is cleaned and massaged; before the first foot washing, a plurality of ellipsoidal magnets are put into the boot-shaped water container, the number of the ellipsoidal magnets is not less than 12, then the feet are put into the boot-shaped water container, warm water is poured into the boot-shaped water container, the water filling amount is recorded for reference in the next foot washing, according to the water filling amount, a heating plate plug is inserted into a power adapter for heating after water is filled into the boot-shaped water container every time, and the output voltage of the power adapter is less than 36 volts.

The advantage of this patent lies in: 1. the object is driven to move in a non-contact manner, electric leakage is avoided, meanwhile, the damage to feet caused by direct driving of the motor is avoided by adopting the interaction force between the magnets, and the motor burnout caused by overlarge load is also avoided; 2. the shape of the boot is adopted to conform to the shape of the foot, and compared with other devices (a water barrel shape and a basin shape), the water-filling quantity can be greatly reduced when the boot rises to the same height position of the foot leg on water (note that the foot leg fills the space of the boot-shaped water filling device, so that the periphery of the foot leg can be filled with a small amount of water), and the waste of water resources is reduced; 3. the ellipsoidal magnet moves under the driving of the motor, so that water flows, the ellipsoidal magnet moves to clean feet, and the foot massage effect can be realized.

Drawings

Figure 1 is a schematic structural diagram of the patent,

wherein: 1. the electric heating water heater comprises a boot-shaped water container, 2. an electric motor, 3. an electric motor rotary table, 4. an outer plastic shell, 5. a bearing bottom plate, 6. a bearing upper plate, 7. a support, 8. an ellipsoidal magnet, 9. a power supply connecting lead, 10. an electric motor plug (inserted on the output end of a power supply adapter of the electric motor), 11. a temperature control heating plate, 12. a speed change switch, 13. a heating plate plug (inserted on the output end of the power supply adapter of the temperature control heating plate).

Detailed Description

As shown in the attached figure 1: a non-contact drive foot washing boot is mainly composed of a boot-shaped water container 1, a motor 2, a motor turntable 3, an outer plastic shell 4, a bearing bottom plate 5, a bearing upper plate 6, a support 7, an ellipsoidal magnet 8, a power supply connecting lead 9, a motor plug 10 (inserted on a power supply adapter) and a temperature control heating plate 11, and is characterized in that: the boot-shaped water container 1 (insulation) is formed by resin materials or rubber materials, two feet can be put into the boot-shaped water container 1 at the same time, a motor turntable 3 is fixed on a rotating shaft of the motor 2, the motor turntable 3 is a disk-shaped strong magnet with a hole at the central shaft (the magnetic induction intensity at the position of 1mm on the surface of the magnet is more than or equal to 0.1 Tesla), and the hole diameter at the central shaft of the disk-shaped strong magnet is matched with the outer diameter of the rotating shaft of the motor 2; the outer plastic shell 4 is formed by hard plastic, a bearing bottom plate 5 is fixed on the bottom surface of the outer plastic shell 4, a motor b (2), a motor c (2) and a strut 7 are fixed on the bearing bottom plate 5, the rotating shafts of the motor b (2) and the motor c (2) are vertical to the bearing bottom plate 5, a bearing upper plate 6 is made of non-ferromagnetic materials (such as copper plates, aluminum plates and the like, the driving force of the motor turntable 3 on an ellipsoidal magnet 8 is prevented from being influenced), and the bearing upper plate 6 is fixed on the strut 7 (not in contact with the motor turntable 3, namely, when the motor rotates, the motor turntable 3 does not rub with the bearing upper plate 6); the temperature control heating plate 11 is fixed on the bearing upper plate 6, the temperature control heating plate 11 is a comb-shaped flat plate (not influencing the passing of a magnetic field and playing a role of heating) surrounded by heating wires, a temperature control device (the temperature is controlled at 40 ℃) is arranged at the end of the temperature control heating plate 11 and is connected with an insulating wrapping wire, and the other end of the insulating wrapping wire penetrates through the outer plastic shell 4 and is connected with a heating plate plug 13 (inserted into a power adapter output end jack of the temperature control heating plate); the motor a (2) and the motor d (2) are respectively fixed on the inner side surface of the outer plastic shell 4; the motor b (2), the motor c (2), the motor a (2) and the motor d (2) are connected in parallel on a power supply connecting wire 9 through an insulating sheath wire, a motor plug 10 is inserted into an output end jack of a power supply adapter connected with a power supply, a speed change switch 12 is turned on, and the motor rotates (the motor 2 is a speed-adjustable motor, and the rotating speed can be controlled by the speed change switch 12); the boot-shaped water loader 1 is placed in an outer plastic shell 4 and sealed and fixed (a motor a (2) and a motor turntable 3 on a motor d (2) cannot be in contact with the boot-shaped water loader 1); the ellipsoidal magnet 8 is formed by wrapping plastic (hard wear-resistant and corrosion-resistant with the thickness of 2-3 mm) on the periphery of a permanent magnet material (neodymium iron boron) to form a smooth ellipsoidal appearance (the ellipsoidal magnet 8 is formed by magnetizing the plastic on a magnetizing device), or hairlines are fixed on the plastic outside of the ellipsoidal magnet 8 (the hairlines are fixed on one side of the ellipsoidal magnet 8 close to the foot part) to form an ellipsoidal magnet hairball, and the foot part is cleaned and massaged; before the first foot washing, a plurality of ellipsoidal magnets 8 are placed in the boot-shaped water container 1, the number of the ellipsoidal magnets is not less than 12, then the feet are placed in the boot-shaped water container 1, warm water is poured in, the water filling amount is recorded for reference of the next foot washing, according to the water filling amount, after water is filled in every time, the heating plate plug 13 is inserted into the output end of the power adapter of the temperature control heating plate, and the output voltages of the power adapter of the motor and the power adapter of the temperature control heating plate are both smaller than 36 volts (within a safe voltage range).

Spaces for mounting the motor 2 and the motor rotating disc 3 are arranged between the boot-shaped water loader 1 and the outer plastic shell 4 at the front, the back and the lower parts of the boot-shaped water loader 1 and the outer plastic shell 4 (the side surface of the boot-shaped water loader 1 can be in direct contact, a space for mounting the motor 2 can be reserved between the side surface of the boot-shaped water loader 1 and the outer plastic shell 4 according to requirements, and the number and the positions for mounting the motor 2 and the motor rotating disc 3 can be arranged according to requirements).

The attached figure 1 is only a schematic diagram of the patent, if two feet are placed at the same time, only a boot-shaped water container 1 and an outer plastic shell 4 need to be widened on the basis of the attached figure 1, the number of the motors 2, the motor rotating discs 3 and the ellipsoidal magnets 8 is increased at the positions corresponding to the placed feet (the specific schematic diagram is omitted, and the persons skilled in the art can finish the process on the basis of the patent), and the ellipsoidal magnets (8) have different sizes and are made according to the needs.

It is to be understood that this description is only illustrative and explanatory of the spirit and nature of this patent, and that any modifications and alterations from this patent are intended to fall within the scope of this patent.