CN105796036B - Shoe washing machine - Google Patents

Shoe washing machine Download PDF

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Publication number
CN105796036B
CN105796036B CN201410843555.2A CN201410843555A CN105796036B CN 105796036 B CN105796036 B CN 105796036B CN 201410843555 A CN201410843555 A CN 201410843555A CN 105796036 B CN105796036 B CN 105796036B
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China
Prior art keywords
impeller
central
shoe
output shaft
washing machine
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CN105796036A (en
Inventor
陈维会
刘杰
王佑喜
傅燕敏
徐鹏飞
张萌
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Qingdao Haier Washing Machine Co Ltd
Haier Smart Home Co Ltd
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Qingdao Haier Washing Machine Co Ltd
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Publication of CN105796036A publication Critical patent/CN105796036A/en
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Abstract

The invention provides a shoe washing machine, which comprises a water containing barrel, an inner impeller and an outer impeller, wherein the inner impeller and the outer impeller are respectively arranged in the water containing barrel; the inner impeller is provided with a central hairbrush, and the inner wall of the water containing barrel is provided with a barrel wall hairbrush. The shoe washing machine has water tub, inner wavy wheel fixed in the center of the bottom of the water tub, outer wavy wheel rotating around the inner wavy wheel, central brush on the inner wavy wheel, and tub wall brush on the inner wall of the water tub. When the washing state, outer impeller rotates, and then drives shoes motion, and shoes realize the washing with fixed central brush contact friction in the in-process of motion, and simultaneously, the bucket wall brush can further improve the washing effect to the another side friction of shoes.

Description

Shoe washing machine
Technical Field
The invention relates to the technical field of shoe washing equipment, in particular to a shoe washing machine.
Background
As a common household appliance, the washing machine effectively meets the requirement of people on clothes washing in daily life, but no effective solution exists for washing shoes. If the existing shoe washing machine is used for directly washing shoes, the following disadvantages can be caused:
firstly, the shoes are washed by the traditional washing machine, because the washing machine mainly adopts a water flow stirring mode to wash clothes, and because of the structural characteristics of the shoes, the cleanliness of the shoes can not be ensured.
Secondly, because the washing machine consumes a large amount of water, under the condition that the quantity of the washed shoes is small, a large amount of water resources are wasted by adopting the washing machine for washing.
Finally, as the shoes contain more bacteria, some shoes even contain peculiar smell, cross contamination can be caused by washing clothes after the shoes are washed by the washing machine, the user experience is greatly reduced, and even the health of people can be influenced.
The invention relates to a device for washing shoes, in particular to a device for washing shoes, which is a device capable of simultaneously washing the inside and the outside of the shoes, such as the device with application number 201310667501.0 and is named as a method and a device for washing shoes. The shoe washing method comprises the following steps: water flow cleaning: horizontally and fixedly placing the shoes in the shoe cage, and fully cleaning all surfaces of the shoes by water flow; friction cleaning: the friction ball is added into the water, the water flow drives the friction ball to move, the friction ball collides with the shoe, and all surfaces of the shoe are washed. The invention provides a method and a device for washing shoes, wherein the shoes are fixed in a shoe cage, the shoe cage is horizontally fixed on a shoe rack, the shoe rack is fixed on the inner wall of a barrel body, water generates positive and negative rotating water flows under the action of a wave wheel, and the water flows drive friction balls and detergent to wash the surfaces of the shoe body. Because the surface of the friction ball is provided with a plurality of thorn-shaped bulges, when the friction ball collides with the surface of the shoe, the friction force is larger, so that the cleaning power is stronger, and the water flow can drive the friction ball to each part of the shoe, so that the whole shoe is cleaned under the repeated washing.
The invention discloses a method and a device for cleaning shoes by adding friction balls into water flow and driving the friction balls to clean the shoes through the water flow.
Disclosure of Invention
In order to solve the technical problem, the invention provides a shoe washing machine, and aims to provide a shoe washing machine which is simple in structure and can carry out all-dimensional washing on the surfaces of shoes by adopting a brush. Specifically, the following technical scheme is adopted:
the shoe washing machine comprises a water containing barrel, an inner impeller and an outer impeller, wherein the inner impeller and the outer impeller are respectively arranged in the water containing barrel; the inner impeller is provided with a central hairbrush, and the inner wall of the water containing barrel is provided with a barrel wall hairbrush.
Furthermore, the outer impeller comprises an impeller body, the center of the impeller body is provided with a mounting opening, and the inner impeller is fixedly mounted in the mounting opening of the outer impeller.
Furthermore, the impeller body is discoid, and the upper surface of impeller body sets up a plurality of stirring muscle and wash port.
Further, outer impeller on the detachable installation be used for placing the shoe rack of shoes, the shoe rack rotates with outer impeller is integrative, shoe rack and central authorities brush between the distance adjustable:
in a washing state, the shoe rack is arranged close to the central hairbrush to enable the shoes to be in contact with the central hairbrush, and the shoe rack drives the shoes to rotate to realize contact friction with the central hairbrush on the inner impeller;
in the dehydration state, the shoe rack is far away from the central hairbrush, so that the shoes are separated from the central hairbrush, and the shoe rack drives the shoes to rotate at high speed to realize centrifugal dehydration.
Furthermore, the outer impeller is provided with a plurality of mounting holes for mounting the shoe rack, and the mounting holes are respectively distributed along the radial direction of the outer impeller so that the distance between the shoe rack and the central hairbrush can be adjusted.
Further, the central hairbrush is detachably arranged on the inner impeller: in a washing state, the central hairbrush is arranged on the inner impeller; in the dewatering state, the central hairbrush is detached from the inner impeller.
Furthermore, the central brush comprises a cylinder and central bristles, one end of the cylinder is mounted on the inner impeller through a sliding mechanism, and the sliding mechanism is sleeved on the cylinder and can be connected with or detached from the inner impeller in a sliding mode.
Further, the inner impeller is connected with a fixed output shaft, the outer impeller is connected with a rotatable output shaft sleeve, the output shaft sleeve is sleeved on the output shaft, and the output shaft sleeve penetrate through the bottom wall of the water containing barrel and are sealed with the water containing barrel.
Further, the direct-drive motor is further included, the direct-drive motor comprises a rotor and a stator, the output shaft is connected with the stator, and the output shaft sleeve is connected with the rotor.
Furthermore, the stator is provided with an inner cavity, the rotor is arranged in the inner cavity of the stator, the output shaft penetrates through a central through hole of the rotor to be connected with the stator, and the output shaft sleeve is fixedly connected with the rotor.
The shoe washing machine has water tub, inner wavy wheel fixed in the center of the bottom of the water tub, outer wavy wheel rotating around the inner wavy wheel, central brush on the inner wavy wheel, and tub wall brush on the inner wall of the water tub. When the washing state, outer impeller rotates, and then drives shoes motion, and shoes realize the washing with fixed central brush contact friction in the in-process of motion, and simultaneously, the bucket wall brush can further improve the washing effect to the another side friction of shoes.
Specifically, the shoe washing machine of the present invention has the following advantages:
1. the shoe washing machine comprises an inner impeller and two rotatable impellers, wherein the inner impeller and the rotatable impellers are fixedly arranged, and in a washing state, the outer impeller rotates to drive shoes to move and contact and rub with a central brush on the inner impeller to realize washing. The shoe washing machine has a simpler structure, and shoes are rubbed by the central brush and the barrel wall brush in a washing state, so that the shoe washing machine has a better washing effect.
2. According to the shoe washing machine, when the shoes are dewatered, the shoes are firmly placed on the shoe rack, and the outer impeller drives the shoe rack to rotate at a high speed to realize centrifugal dewatering.
3. When the shoe washing machine disclosed by the invention is used for dewatering, shoes on the shoe rack need not to rub against the central brush, and the shoes are damaged when rotating at a high speed, and the shoe washing machine is realized by adopting the following two ways:
the distance between the shoe rack and the central brush is adjustable, the shoe rack is arranged close to the central brush to enable the shoes to be in contact with the central brush during washing, and the shoe rack is arranged far away from the central brush to enable the shoes not to be in contact with the central brush during dewatering.
And in a dewatering state, the central hairbrush is detached from the inner impeller, the outer impeller drives the shoe rack to rotate at a high speed, and then the shoes are driven to rotate at a high speed to realize centrifugal dewatering.
According to the shoe washing machine, the shoe rack is adopted to drive the shoes to rotate at a high speed to realize centrifugal dehydration according to the specific structural characteristics of the shoes, so that the shoe washing machine can realize dehydration without independently arranging a dehydration device or a dehydration barrel, and the dehydration mode is simpler and more convenient.
4. The shoe washing machine can wash and dewater shoes by only arranging one water containing barrel, and the existing washing device generally comprises an inner barrel and an outer barrel, wherein the inner barrel needs to rotate at high speed during dewatering, so that the shoe washing machine is simpler in structure.
In a word, the shoe washing machine has a simpler structure and a better washing effect, the shoe rack on the outer impeller drives the shoes to rotate at a high speed to realize centrifugal dehydration, and the dehydration process is simpler and more convenient, so the shoe washing machine has good market popularization value.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic block diagram of the structure of yet another embodiment of the present invention;
FIG. 3 is a schematic perspective view of the present invention;
FIG. 4 is a partial cross-sectional view of the present invention;
FIG. 5 is an exploded view of the assembly of the inner impeller, the outer impeller and the shoe rack of the present invention;
FIG. 6 is a perspective view of the center brush of the present invention;
FIG. 7 is a perspective view of another embodiment of a center brush according to the present invention;
FIG. 8 is a schematic view of the installation of the bucket wall brush of the present invention;
fig. 9 is an exploded view of the present invention.
Reference numbers in the drawings illustrate: 1-water containing barrel 2-central brush 3-shoe rack 4-barrel wall brush 5-inner impeller 6-outer impeller 7-water outlet 8-sliding mechanism 13-shell 14-input shaft sleeve 15-input shaft 17-water containing barrel mounting port 18-rotor 19-stator 201-column 202-central brush 203-convex step 401-buckle 402-barrel wall brush 501-inner impeller body 502-inner impeller mounting portion 601-outer impeller body 602-stirring rib 603-mounting port 604-mounting hole 605-water discharging hole 801-steel ball 802-spring 803-retaining ring 804-sliding shield.
Detailed Description
The shoe washing machine of the present invention will be described in detail with reference to the accompanying drawings:
as shown in fig. 1, 2, 3 and 4, the shoe washing machine of the present invention comprises a water tub 1, and an inner pulsator 5 and an outer pulsator 6 respectively disposed inside the water tub 1, wherein the inner pulsator 5 is fixedly disposed at a central position of a bottom of the water tub 1, and the outer pulsator 6 is rotatably disposed at an outer periphery of the inner pulsator 5; the inner impeller 5 is provided with a central brush 2, and the inner wall of the water containing barrel 1 is provided with a barrel wall brush 4.
The shoe washing machine comprises a water containing barrel 1, an inner impeller 5 and an outer impeller 6, wherein the inner impeller 5 is fixedly arranged at the central position of the bottom of the water containing barrel 1, the outer impeller 6 is rotatably arranged on the periphery of the inner impeller 5, a central brush 2 is arranged on the inner impeller 5, and a barrel wall brush 4 is arranged on the inner wall of the water containing barrel 1. When the washing state, outer impeller 6 rotates, and then drives the shoes motion, and shoes realize the washing with fixed central brush 2 contact friction in the in-process of motion, and simultaneously, bucket wall brush 4 can rub the another side of shoes and further improve the washing effect.
As shown in fig. 5, the outer impeller 6 includes an impeller body 601, a through mounting hole 603 is formed in the center of the impeller body 601, the inner impeller 5 is mounted in the mounting hole 603 of the outer impeller 6 and can rotate independently, and the edge of the inner impeller 5 is tightly fitted with the mounting hole 603 of the outer impeller 6.
The inner impeller 5 of the invention is arranged at the central position of the outer impeller 6, so that the central brush 2 arranged on the inner impeller 5 can be contacted with the shoes on the peripheral outer impeller 6, and the central brush 2 can simultaneously wash a plurality of pairs of shoes in a washing state.
The edge of the inner impeller 5 is tightly matched with the mounting opening 603 of the outer impeller 6, so that a small gap is formed between the inner impeller 5 and the outer impeller 6, and the phenomenon that shoes are clamped and damaged in the washing process can be avoided, and the shoe washing machine is damaged more seriously.
Specifically, the pulsator body 601 of the present invention is disposed in a disc shape, the edge of the pulsator body 601 is closely fitted with the inner wall of the water tub 1, and the upper surface of the pulsator body 601 is provided with a plurality of agitating ribs 602 and water discharge holes 605.
The edge of the impeller body 601 of the invention is tightly matched with the inner wall of the water containing barrel 1, thus avoiding the phenomenon of shoe clamping damage in the washing process, and more serious damage to the shoe washing machine. The plurality of stirring ribs 602 are arranged on the upper surface of the impeller body 601, so that shoes in the water containing barrel 1 are stirred by the stirring ribs 602 on the outer impeller 6 in the washing process to roll, so that different parts of the shoes have friction with the central brush 2 and the barrel wall brush 4, the shoes are washed in all directions, and a better washing effect is achieved.
Example one
As shown in fig. 1, 2, 4 and 5, the shoe washing machine of the present embodiment comprises a tub 1, and an inner pulsator 5 and an outer pulsator 6 respectively disposed inside the tub 1, wherein the inner pulsator 5 is fixedly disposed at a central position of a bottom of the tub 1, and the outer pulsator 6 is rotatably disposed at an outer periphery of the inner pulsator 5; the inner impeller 5 is provided with a central brush 2, and the inner wall of the water containing barrel 1 is provided with a barrel wall brush 4.
In order to further improve the washing effect of the shoe washing machine on shoes, the shoe rack 3 for placing the shoes is detachably arranged on the outer impeller 6, the shoe rack 3 and the outer impeller 6 rotate integrally, the shoe rack 3 is mainly used for supporting the shoes to be placed, so that the shoes are better rubbed by the central hairbrush 2 and the barrel wall hairbrush 4 in a washing state, and the washing effect is improved.
The shoe rack 3 of the present invention is also used to implement a shoe dehydration process, specifically, the following two ways can be adopted:
in the first mode, the distance between the shoe rack and the central brush 2 is adjustable, the shoe rack 3 is arranged close to the central brush 2 to enable the shoes to be in contact with the central brush 2 during washing, and the shoe rack is arranged far from the central brush 2 to enable the shoes not to be in contact with the central brush 2 during dewatering.
How to realize that the distance between the shoe rack and the central brush 2 is adjustable is a key point of a first realization mode, and the following modes can be specifically adopted:
as shown in fig. 5, the outer pulsator 6 is provided with a plurality of mounting holes 604 for mounting the shoe rack 3, and the mounting holes 604 are respectively distributed along the radial direction of the outer pulsator 6 so that the distance between the shoe rack 3 and the central brush 2 is adjustable.
In addition, the mounting holes 604 are distributed along the circumferential direction of the outer impeller 6, so that the shoe racks 3 are arranged around the central brush 2, a plurality of shoes can be washed at one time, and the washing efficiency is improved.
In the second mode, the central brush 2 is detachably mounted on the inner impeller 5, as shown in fig. 9, in the washing state, the central brush 2 is mounted on the inner impeller 5 and keeps contact with the surface of the shoes on the shoe rack 3, the outer impeller 6 drives the shoes to rotate to realize contact friction with the central brush 2, in the dehydration state, the central brush 2 is detached from the inner impeller 5, and the outer impeller 6 drives the shoe rack 3 to rotate at a high speed, so as to drive the shoes to rotate at a high speed to realize centrifugal dehydration.
The above-mentioned dehydration mode of the shoe washing machine of this embodiment, according to the concrete structural feature of shoes, adopts 3 drive shoes high-speed rotations of shoe rack to realize centrifugal dehydration, consequently, the shoe washing machine of this embodiment need not set up dewatering device or dehydration bucket alone again and can realize the dehydration, therefore more simple and convenient of dehydration mode.
Example two
The shoe washing machine of the embodiment comprises a water barrel 1, an inner impeller 5 and an outer impeller 6 which are respectively arranged inside the water barrel 1, wherein the inner impeller 5 is fixedly arranged at the central position of the bottom of the water barrel 1, and the outer impeller 6 is rotatably arranged on the periphery of the inner impeller 5; the inner impeller 5 is provided with a central brush 2, and the inner wall of the water containing barrel 1 is provided with a barrel wall brush 4.
As shown in fig. 8, the central brush 2 of the present embodiment is detachably mounted on the inner pulsator 5, and the detachable mounting method mainly has the following advantages:
(1) in a washing state, the central hairbrush 2 is arranged on the inner impeller 5; in the dewatering state, the central brush 2 is detached from the inner impeller 5.
Therefore, the central hairbrush is detached during dehydration, and the central hairbrush 5 is prevented from damaging shoes in the dehydration process.
(2) When washing article except shoes, for example shoe-pad, socks or rag etc. can dismantle central brush 2, realize the washing through the stirring of outer impeller 6, prevent that central brush 2 from causing wearing and tearing to shoe-pad, socks or rag etc..
Further, the bucket wall brush 4 is detachably mounted on the inner wall of the water containing bucket 1, specifically, the bucket wall brush 4 is connected in a buckling connection mode, the bucket wall brush 4 comprises a buckle 401 and bucket wall bristles 402, and the inner wall of the water containing bucket 1 is provided with a water containing bucket mounting port 17 for mounting the bucket wall brush 4.
The bucket wall brush 4 adopts the same installation mode as the thread scrap filter on the washing machine, when insoles, socks or rags and the like need to be washed, the bucket wall brush 4 is also detached, and if the conditions exist, the thread scrap filter can be installed.
Therefore, the central brush 3 and the barrel wall brush 4 of the shoe washing machine are detachably mounted, so that the washing function of the shoe washing machine is expanded, more articles except shoes can be washed, and the shoe washing machine is better in practicability.
Specifically, as shown in fig. 8, the central brush 2 of the present embodiment includes a column 201 and a central brush 202, one end of the column 201 is mounted on the inner pulsator 5 through a sliding mechanism 8, and the sliding mechanism 8 is sleeved on the column 201 and can be slidably connected to/detached from the inner pulsator 5.
The sliding mechanism 8 described in this embodiment includes a steel ball 801, a spring 802, a retainer 803, and a sliding shroud 804, the steel ball 801 is disposed on the column 201 of the central brush 2, the retainer 803 is disposed on the column 201 and can block the steel ball 801, the spring 802 is sleeved on the column 201, and the sliding shroud 804 is sleeved on the spring 802 and can slide relative to the column 201; the cylinder 201 is provided with a convex step 203 used for abutting against one end of a spring 802, and the other end of the spring 802 abuts against a sliding shield 804; the inner wave wheel 5 is provided with a clamping groove 503 matched with the sliding shield 804.
The sliding mechanism 8 of the embodiment has simple structure and convenient installation, and is greatly convenient for a user to install/dismantle the central brush 2.
EXAMPLE III
The shoe washing machine of the embodiment comprises a water barrel 1, an inner impeller 5 and an outer impeller 6 which are respectively arranged inside the water barrel 1, wherein the inner impeller 5 is fixedly arranged at the central position of the bottom of the water barrel 1, and the outer impeller 6 is rotatably arranged on the periphery of the inner impeller 5; the inner impeller 5 is provided with a central brush 2, and the inner wall of the water containing barrel 1 is provided with a barrel wall brush 4.
The central brush 2 of this embodiment includes a post 201 and a central brush 202, as shown in fig. 6, the central brush 202 is spirally disposed on the post 201, so that the central brush 202 is disposed to better contact with the upper of the shoe on the shoe rack 3, and the washing effect of the central brush 202 is improved. As shown in FIG. 7, the central bristles 202 are arranged in a large-size manner, so that the central bristles 202 are better contacted with the upper of the shoe, and the washing effect of the central bristles 202 is improved.
Example four
As shown in fig. 1, the shoe washing machine of the present embodiment comprises a water tub 1, and an inner pulsator 5 and an outer pulsator 6 respectively disposed inside the water tub 1, wherein the inner pulsator 5 is fixedly disposed at the central position of the bottom of the water tub 1, and the outer pulsator 6 is rotatably disposed at the periphery of the inner pulsator 5; the inner impeller 5 is provided with a central brush 2, and the inner wall of the water containing barrel 1 is provided with a barrel wall brush 4.
In order to fix the inner impeller 5 and rotate the outer impeller 6, the inner impeller 5 of the shoe washing machine of the embodiment is connected with a fixed output shaft 15, the outer impeller 6 is connected with a rotatable output shaft sleeve 14, the output shaft sleeve 14 is sleeved on the output shaft 15, and the output shaft 15 and the output shaft sleeve 14 penetrate through the bottom wall of the water tub 1 and are sealed with the bottom wall.
Because the inner impeller 5 of the present invention is disposed at the center of the outer impeller 6, in order to fix the inner impeller without affecting the rotation of the outer impeller 6, the present embodiment employs an output shaft 15 and an output shaft sleeve 14 connected to the inner impeller 5 and the outer impeller, respectively, to fix the inner impeller 5 by fixing the output shaft 15, and the output shaft sleeve 14 rotates normally to drive the outer impeller 6 to rotate.
How to realize that output shaft 15 is fixed, output shaft sleeve 14 rotates is the key of this embodiment, and the concrete technical scheme that adopts is as follows:
the shoe washing machine further comprises a direct drive motor, the direct drive motor comprises a rotor 18 and a stator 19, the output shaft 15 is connected with the stator 19, and the output shaft sleeve 14 is connected with the rotor 18.
In the embodiment, the structural characteristics that the rotor 18 rotates and the stator 19 is fixed when the direct drive motor works are combined, the output shaft sleeve 14 is fixedly connected with the rotor 18, the output shaft sleeve 14 and the rotor 18 of the direct drive motor rotate integrally, the output shaft 15 is fixedly connected with the stator 19, and the output shaft 15 is fixed.
In combination with the installation manner of the output shaft 14 and the output shaft sleeve 15 of the embodiment and the structural characteristics of the rotor 18 and the stator 19 of the direct drive motor, in order to facilitate installation, the direct drive motor in the form of an inner rotor and an outer rotor is adopted in the embodiment, specifically, the stator 19 has an inner cavity, the rotor 18 is arranged in the inner cavity of the stator 19, the output shaft 15 penetrates through a central through hole of the rotor 18 to be connected with the stator 19, and the output shaft sleeve 14 is fixedly connected with the rotor 18.
EXAMPLE five
As shown in fig. 2, the present embodiment is different from the fourth embodiment in that: the direct drive motor adopted in the embodiment is a direct drive motor in the form of an inner stator and an outer rotor, specifically, the rotor 18 is provided with an inner cavity, the stator 19 is arranged in the inner cavity of the rotor 18, a stator connecting part is arranged in the center of the stator 19, and the output shaft 15 is directly and fixedly connected with the stator connecting part of the stator 19, so that the fixation of the output shaft 15 is realized; the stator connecting portion on set up annular through-hole, output axle sleeve 14 passes annular through-hole on the stator connecting portion and rotor 18 fixed connection, realizes output axle sleeve 14 and directly drives the rotor 18 integrative rotation of motor.
EXAMPLE six
The present embodiment is different from the fourth embodiment and the fifth embodiment in that: in order to realize the control of the rotating speed and the steering of the external impeller 6 and better realize the washing and dewatering effects of the shoe washing machine, the embodiment adopts the following technical scheme:
in the first scheme, the output shaft 15 and the output shaft sleeve 14 are connected with the direct drive motor through a speed reduction clutch, and the speed reduction clutch performs speed reduction on input power of the direct drive motor so as to enable the output shaft sleeve 14 to achieve proper rotating speed and steering.
And in the second scheme, a direct-drive variable frequency motor is adopted, so that the rotating speed and the steering direction of the rotor 18 can be directly adjusted to meet the washing and dewatering requirements of the output shaft sleeve 14.
The embodiment can control the rotating speed and the steering of the output shaft sleeve 14 to meet the washing and dewatering requirements of the shoe washing machine, and the practicability is stronger.
EXAMPLE seven
The shoe washing machine comprises a water barrel, an inner impeller and an outer impeller, wherein the inner impeller and the outer impeller are respectively arranged in the water barrel; the inner impeller is provided with a central hairbrush, and the inner wall of the water containing barrel is provided with a barrel wall hairbrush.
In order to realize the fixation of the inner impeller and the rotation of the outer impeller, the inner impeller of the shoe washing machine of the embodiment is connected with a fixed output shaft, the outer impeller is connected with a rotatable output shaft sleeve, the output shaft sleeve is sleeved on the output shaft, and the output shaft sleeve penetrate through the bottom wall of the water containing barrel and are sealed with the water containing barrel.
Because the inner impeller of the invention is arranged in the center of the outer impeller, the fixing of the inner impeller is realized without influencing the rotation of the outer impeller, so the embodiment adopts the output shaft and the output shaft sleeve which are respectively connected with the inner impeller and the outer impeller, the fixing of the inner impeller is realized by fixing the output shaft, and the output shaft sleeve normally rotates to drive the outer impeller to rotate.
The shoe washing machine of the embodiment further comprises a belt pulley motor, and the belt pulley motor transmits power to the output shaft sleeve to enable the output shaft sleeve to rotate. Specifically, the following technical scheme can be adopted:
the shoe washing machine of the embodiment further comprises an input shaft and a speed reduction clutch, the output shaft sleeve and the output shaft are connected with the output end of the speed reduction clutch, the input shaft is connected with the input end of the speed reduction clutch, and the other end of the input shaft is connected with a belt pulley motor.
The power of the belt pulley motor of the shoe washing machine of the embodiment is transmitted to the speed reduction clutch and transmitted to the output shaft sleeve through the speed reduction clutch, and meanwhile, the output shaft is kept fixed.
In the embodiment, the belt pulley motor is used as the driving motor, and the power of the belt pulley motor is respectively output to the output shaft and the output shaft sleeve through the conventional speed reduction clutch, so that the power output requirement of the shoe washing machine is met, therefore, the shoe washing machine greatly reduces the manufacturing cost and has wide market popularization value.
Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The shoe washing machine is characterized by comprising a water containing barrel (1), an inner impeller (5) and an outer impeller (6) which are respectively arranged in the water containing barrel (1), wherein the inner impeller (5) is fixedly arranged at the central position of the bottom of the water containing barrel (1), and the outer impeller (6) is rotatably arranged on the periphery of the inner impeller (5); the inner impeller (5) is provided with a central brush (2), and the inner wall of the water containing barrel (1) is provided with a barrel wall brush (4);
outer impeller (6) on detachable installation be used for placing shoe rack (3) of shoes, shoe rack (3) and outer impeller (6) an organic whole rotate, shoe rack (3) and central authorities brush (2) between the distance adjustable:
in a washing state, the shoe rack (3) is arranged close to the central hairbrush (2) to enable shoes to be in contact with the central hairbrush (2), and the shoe rack (3) drives the shoes to rotate to realize contact friction with the central hairbrush (2) on the inner impeller (5);
in a dehydration state, the shoe rack (3) is far away from the central hairbrush (2) to separate the shoes from the central hairbrush (2), and the shoe rack (3) drives the shoes to rotate at high speed to realize centrifugal dehydration;
the outer impeller (6) is provided with a plurality of mounting holes (604) for mounting the shoe rack (3), and the mounting holes (604) are respectively distributed along the radial direction of the outer impeller (6) to enable the distance between the shoe rack (3) and the central brush (2) to be adjustable.
2. The shoe washing machine according to claim 1, characterized in that the outer impeller (6) comprises an impeller body (601), a mounting opening (603) is formed in the center of the impeller body (601), and the inner impeller (5) is fixedly mounted in the mounting opening (603) of the outer impeller (6).
3. The shoe washing machine according to claim 2, wherein the pulsator body (601) is disposed in a disk shape, and a plurality of agitating ribs (602) and water discharge holes (605) are provided on an upper surface of the pulsator body (601).
4. The shoe washing machine according to claim 1, characterized in that the central brush (2) is removably mounted on the inner pulsator (5): in a washing state, the central hairbrush (2) is arranged on the inner impeller (5); in the dewatering state, the central hairbrush (2) is detached from the inner impeller (5).
5. The shoe washing machine according to claim 1 or 4, characterized in that the central brush (2) comprises a cylinder (201) and central bristles (202), one end of the cylinder (201) is mounted on the inner pulsator (5) through a sliding mechanism (8), and the sliding mechanism (8) is sleeved on the cylinder (201) and can be connected/detached with the inner pulsator (5) in a sliding manner.
6. The shoe washing machine according to claim 1, wherein the inner impeller (5) is connected to a fixed output shaft (15), the outer impeller (6) is connected to a rotatable output shaft sleeve (14), the output shaft sleeve (14) is sleeved on the output shaft (15), and the output shaft (15) and the output shaft sleeve (14) penetrate through the bottom wall of the water tub (1) and are sealed with the water tub.
7. The shoe washing machine according to claim 6, characterized by further comprising a direct drive motor, wherein the direct drive motor comprises a rotor (18) and a stator (19), the output shaft (15) is connected with the stator (19), and the output shaft sleeve (14) is connected with the rotor (18).
8. The shoe washing machine according to claim 7, characterized in that the stator (19) has an inner cavity, the rotor (18) is disposed in the inner cavity of the stator (19), the output shaft (15) is connected to the stator (19) through a central through hole of the rotor (18), and the output shaft sleeve (14) is fixedly connected to the rotor (18).
CN201410843555.2A 2014-12-30 2014-12-30 Shoe washing machine Active CN105796036B (en)

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CN108618737A (en) * 2017-03-18 2018-10-09 陈劲 A kind of all automatic shoes washer
JP2019024751A (en) * 2017-07-27 2019-02-21 青島海爾洗衣机有限公司QingDao Haier Washing Machine Co.,Ltd. Shoe cleaning device
CN107625159A (en) * 2017-09-12 2018-01-26 梁俊 A kind of stirring-type vegetable cleaning device
CN109645934A (en) * 2019-02-01 2019-04-19 陈政 Wash the dual-purpose machine of shoes
WO2021232851A1 (en) * 2020-09-25 2021-11-25 青岛海尔洗衣机有限公司 Shoe washing machine

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Effective date of registration: 20201110

Address after: 266101 Haier Industrial Park, Haier Road, Laoshan District, Shandong, Qingdao, China

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