阅读说明：本技术 一种鞋子管理器 (Shoes manager ) 是由 张学飞 于 2019-01-16 设计创作，主要内容包括：本发明公开了一种鞋子管理器,包括柜组、水循环系统、气流组、刷子活动板、鞋芯和油桶,水循环系统由螺钉固定在柜体的右侧被右罩罩着,水循环系统的进出水口分别与柜组内气水通道集内的出进水管相连接；气流组固定在柜体的左侧被左罩罩着；气流组的进出气口分别与柜组内的出进气管相连接；刷子活动板固定在柜体内的背板上且在层板的上方,与层板所成的角度为30度至70度；鞋芯可插入到鞋子内且随鞋子一起固定到柜组内的鞋托上,鞋芯上设置有进气口且与柜组的输气口相连接；油桶固定在柜体的左侧被左罩罩着。本发明可实现对鞋子的卫生进行管理,包括对鞋子内部进行除潮、除味、杀菌、添香；对鞋子面部进行除尘、上油、擦油打亮。(The invention discloses a shoe manager, which comprises a cabinet group, a water circulation system, an air flow group, a brush movable plate, a shoe core and an oil drum, wherein the water circulation system is fixed on the right side of a cabinet body by screws and covered by a right cover; the airflow group is fixed on the left side of the cabinet body and covered by the left cover; the air inlet and outlet of the air flow group are respectively connected with the air outlet and inlet pipe in the cabinet group; the brush movable plate is fixed on the back plate in the cabinet body and is arranged above the layer plate, and the angle formed by the brush movable plate and the layer plate is 30-70 degrees; the shoe core can be inserted into the shoe and fixed on the shoe support in the cabinet group together with the shoe, and is provided with an air inlet which is connected with the air delivery port of the cabinet group; the left side that the oil drum was fixed at the cabinet body is covered by left cover. The shoe management system can realize the management of the sanitation of the shoes, and comprises the steps of removing moisture, removing odor, sterilizing and adding fragrance to the interior of the shoes; the face of the shoe is dedusted, oiled and polished.)

1. A shoe manager, comprising: the shoe brush comprises a cabinet group (1), a water circulation system (2), an airflow group (3), a brush movable plate (4), a shoe core (5) and an oil drum (6), wherein the water circulation system (2) is fixed on the right side of a cabinet body (7) of the cabinet group (1) through screws and is covered by a right cover (8), and a water inlet and a water outlet of the water circulation system (2) are respectively connected with a water inlet and a water outlet in a gas-water channel set of the cabinet group (1); the airflow group is fixed on the left side of the cabinet group (1) and is covered by a left cover (9); the air inlet and outlet of the air flow group (3) are respectively connected with the air inlet and outlet pipe in the cabinet group (1); the brush movable plate (4) is fixed on a back plate in the cabinet set (1) and is positioned above the laminated plate (12), and the angle formed by the brush movable plate and the laminated plate (12) is 30-70 degrees; the shoe core (5) can be inserted into the shoe and clamped on the shoe support (15) in the cabinet group (1) along with the shoe, an air inlet (122) is arranged on the shoe core and connected with an air delivery hole (35) of the cabinet group (1), and meanwhile, a circuit chip is arranged in the shoe core; an oil drum (6) is fixed on the left side of the cabinet body (7) and is covered by a left cover (9), and an oil outlet (112) of the oil drum is connected with a tank oil port (85) of an oil feeder parking tank (78) of each brush movable plate (4).

Technical Field

The invention relates to a shoe cabinet, in particular to a multifunctional shoe cabinet.

Background

Most of the existing shoe cabinets are used for storing shoes, and some shoe cabinets can deodorize the shoes, but the shoe cabinets can not perfectly manage the sanitation of the shoes.

Disclosure of Invention

The invention aims to provide a shoe manager to solve the problems in the background art and manage the sanitation of shoes, including removing moisture, removing odor, sterilizing and adding fragrance to the inside of the shoes; the face of the shoe is dedusted, oiled and polished.

In order to achieve the purpose, the invention provides the following technical scheme: a shoe manager comprises a cabinet set, a water circulation system, an air flow set, a brush movable plate, a shoe core and an oil drum, wherein the water circulation system is fixed on the right side of a cabinet body by screws and covered by a right cover; the airflow group is fixed on the left side of the cabinet body and covered by the left cover; the air inlet and outlet of the air flow group are respectively connected with the air outlet and inlet pipe in the cabinet group; the brush movable plate is fixed on the back plate in the cabinet body and is arranged above the layer plate, and the angle formed by the brush movable plate and the layer plate is 30-70 degrees; the shoe core can be inserted into the shoe and clamped on the shoe support in the cabinet group together with the shoe, an air inlet is arranged on the shoe core and connected with an air delivery port of the cabinet group, and meanwhile, a circuit chip is arranged in the shoe core; the left side at the cabinet body is being covered by the left side cover to the oil drum, and the oil drum oil-out is connected with the groove hydraulic fluid port in the last oil ware parking groove of every brush fly leaf.

Compared with the prior art, the invention has the beneficial effects that:

by adopting the structure, the rear cabinet group bears all the weight, can store nine pairs of shoes and is a space for managing the health of the nine pairs of shoes; when the bottom of the shoe is washed, the water circulation system supplies clean water to a unit water tank where the shoes on the laminate inside the cabinet group are located, after the bottom of the shoe is washed, the water circulation system stops supplying water and purifies the sewage discharged from the cabinet group, and then the purified water is stored for the next use; when the shoe is subjected to sanitary treatment, the air flow group conveys high-temperature gas at 70 ℃ into the cabinet group, and the high-temperature gas is guided to uniformly flow in different parts in the shoe through the shoe core, so that the interior of the shoe can be subjected to moisture removal, odor removal and sterilization; after the interior of the shoe is subjected to high-temperature treatment, the interior of the shoe is added with fragrance, a heater of an airflow set stops working, a fragrance adding device on an air pipe of the airflow set is opened, airflow enters the fragrance adding device to drive fragrance to enter the interior of the shoe, and the shoe is dyed with fragrance; when the vamp is dedusted, the dust brush comes out from the dust brush parking groove of the brush movable plate, then moves to the vamp of the shoe according to a certain track on the brush movable plate, and then dedustes the shoe under the action of the shoe core, and after the completion, the dust brush returns to the dust brush parking groove on the brush movable plate according to the original track; when the shoe upper is oiled, the oiling device comes out from the oiling device parking groove of the brush movable plate, the shoe upper is moved to the shoe upper on the brush movable plate according to a certain track, the oiling device is used for oiling the surface of the shoe under the action of the shoe core, and after the oiling device returns to the brush parking groove according to the original track; the oiling of the oiling device is completed in an oiling device parking groove on the brush movable plate, the oil drum starts to work when oiling, shoe polish in the drum is pressurized, and the shoe polish is forced to enter the oiling device parking groove through the oil pipe and then enter the oiling device; when polishing, the oil brush comes out from the oil brush parking groove of the brush movable plate, moves to the surface of the shoe according to a certain track on the brush movable plate, uniformly polishes the surface of the shoe with the shoe polish under the action of the shoe core, polishes the vamp smoothly, and returns to the oil brush parking groove of the brush movable plate according to the original way after finishing polishing; after the interior of the shoe is dehumidified, deodorized and sterilized at high temperature, the interior of the shoe is flavored, and then the surface of the shoe is dedusted, oiled and polished, so that the sanitary management of the shoe is finished after the work is finished.

Drawings

Figure 1 is a block diagram of a shoe manager,

figure 2 is an isometric view of the cabinet group,

figure 3 is a side view of the upper and lower equiangular shafts of the cabinet,

FIG. 4 is a plan view and cross-sectional and close-up view of a laminate,

figure 5 is a cross-sectional view of a core coil,

figure 6 is an isometric partial view of a water and gas channel assembly,

figure 7 is a cross-sectional view of the sole brush,

figure 8 is a cross-sectional view of the water head,

figure 9 is a cross-sectional view of the faucet,

figure 10 is a cross-sectional view of the water circulation system,

figure 11 is a cross-sectional view of the gas flow array,

figure 12 is a cross-sectional view of the fragrance applicator,

figure 13 is an isometric view of a brush-moving plate,

figure 14 is a three-dimensional view of the circuit board,

figure 15 is a cross-sectional view of the parking stand,

figure 16 is a diagram of the structure of the applicator parking slot,

figure 17 is a schematic view of a dust brush parking slot,

figure 18 is a cross-sectional view of the applicator,

figure 19 is a cross-sectional view of the dust brush,

figure 20 is a cross-sectional view of the oil drum,

figure 21 is an isometric view of the shank,

figure 22 is a cross-sectional view of the left shank,

figure 23 is a cross-sectional view of the core cap,

FIG. 24 is a schematic view illustrating the operation of the shoe organizer;

wherein: a cabinet group 1, a water circulation system 2, an air flow group 3, a brush movable plate 4, a shoe core 5 and an oil drum 6; the cabinet body 7, the right cover 8, the left cover 9 and the cabinet door 10; the shoe comprises a top plate 11, a laminate 12, a side plate 13, a back plate 14, a shoe support 15, a sole brush 16, a water inlet head 17 and a water outlet head 18; the device comprises a main board 19, an iron core coil 20, a unit water tank 21, a shoe support fixing rod 22, a water tank water inlet 23 and a water tank water outlet 24; copper coil 25, iron core 26; the water outlet pipe 27, the water inlet pipe 28, the air outlet pipe 29, the air inlet pipe 30, the circuit wire slot 31, the water tank water outlet pipe 32, the water tank water inlet pipe 33, the air pumping hole 34 and the air delivery hole 35; a bottom brush holder 36, a bottom magnetic ring 37 and bottom bristles 38; a water inlet head seat 39 and a copper coil 40; the water outlet head seat 41, the copper coil 42, the floating pipe 43, the floater 44, the water outlet head magnetic ring 45, the retainer ring 46, the floater water inlet channel 47 and the floater bottom cavity 48; an air inlet and outlet box 51, an air delivery pump 52, a heater 53, an aroma adding device 54, an air suction pump 55, an air delivery port 56 of an air flow group, an air suction port 57 of the air flow group and a filter element 58; a spice cover 59, a spice shell 60, spices 61, ball holes 62, a ball shaft 63, a spice adding device electromagnetic valve 64, a ventilation main pipe 65, a spice air inlet pipe 66 and a spice air outlet pipe 67; a circuit board 68, a parking stand 69; a road board frame 70, a main line 71, an oil applicator return groove line 72, a dust brush return groove line 73, an oil brush return groove line 74 and a unit shoe feeding line 75; a main frame 76, an oil pipe 77, an oiling device parking groove 78, a dust brush parking groove 79 and an oil brush parking groove 80; an upper oiling groove coil inner sleeve 81, an upper oiling groove copper coil 82, a groove oil port coil inner sleeve 83, a groove oil port copper coil 84 and a groove oil port 85; a dust brush slot coil inner sleeve 86 and a dust brush slot copper coil 87; the device comprises a back cover 88, a back magnetic ring 89, a back frame 90, a piston coil rack 91, a piston copper coil 92, a piston 93, an oil cylinder 94, a front magnetic ring 95, a front cover copper coil 96, a front cover 97, an oil cylinder oil inlet and outlet nozzle 98, a cylinder inner cavity 99, an oil cylinder circuit line pipe 100 and a small vent hole 101; a dust brush magnetic ring 102, a dust brush frame 103, sponge 104 and dust brush bristles 105; an oil drum magnetic block 106, an oil drum frame 107, an oil drum copper coil 108, an oil bag 109, an oil bag plug 110, an oil bag cavity 111 and an oil drum oil outlet 112; a left shank 113, a right shank 114, a grip 115, a shank cover 116; a core frame 117, a shoe core vent pipe 118 and a controller 119; a right core air duct 120, a unit suction opening 121, a shoe core air inlet 122 and a left core air duct 123.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-24, the present invention provides a technical solution: a shoe manager comprises a cabinet group 1, a water circulation system 2, an air flow group 3, a brush movable plate 4, a shoe core 5 and an oil drum 6, wherein the water circulation system 2 is fixed on the right side of a cabinet body 7 of the cabinet group 1 through screws and is covered by a right cover 8, and a water inlet and a water outlet of the water circulation system 2 are respectively connected with a water inlet and a water outlet in a gas-water channel set of the cabinet group 1; the airflow group is fixed on the left side of the cabinet group 1 and is covered by a left cover 9; the air inlet and outlet of the airflow group 3 are respectively connected with the air inlet and outlet pipe in the cabinet group 1; the brush movable plate 4 is fixed on the back plate in the cabinet set 1 and is positioned above the layer plate 12, and the angle formed by the brush movable plate and the layer plate 12 is 30-70 degrees; the shoe core 5 can be inserted into the shoe and clamped on the shoe support 15 in the cabinet set 1 together with the shoe, the shoe core is provided with an air inlet 122 and connected with the air delivery hole 35 of the cabinet set 1, and meanwhile, the shoe core is internally provided with a circuit chip; the oil drum 6 is fixed on the left side of the cabinet body 7 and covered by the left cover 9, and the oil drum oil outlet 112 is connected with the tank oil port 85 of the upper oil applicator parking tank 78 of each brush movable plate 4.

Cabinet group 1 is by the cabinet body 7, right side cover 8, left side cover 9, cabinet door 10 is constituteed, right side cover 8 is fixed on the right side of the cabinet body 7, there is little door right side cover 8, it is the mud of making things convenient for people to clear up water circulating system 2 exhaust, left side cover 9 is fixed in the left side of the cabinet body 7, there is little door left side cover 9 side, make things convenient for people to add spices and shoe polish, right side cover 8 and left side cover 9 play the decorative effect, cabinet door 10 has two, respectively by the hinge connection on the preceding right of the cabinet body 7 and the left side.

The cabinet body 7 is composed of a top plate 11, laminated plates 12, side plates 13, a back plate 14, shoe supports 15, a sole brush 16, a water inlet head 17, a water outlet head 18 and a gas-water channel set, wherein two ends of the top plate 11 are respectively fixed on the tops of the two side plates 13 through screws, two ends of the three laminated plates 12 are respectively fixed on the two side plates 13 through screws, the top plate 11, the three layer plates 12 and the two side plates 13 are fixed on the back plate by screws, thus, a stable frame capable of containing shoes is formed, the shoe support 15 is divided into a front shoe support and a rear shoe support which are respectively fixed on a shoe support fixing rod 22 on the laminated plate 12 by screws, a water inlet head 17 is fixed at a water tank water inlet 23 on the laminated plate 12 by screws, the top of the water inlet head 17 is flush with the bottom of the unit water tank 21, the bottom of the water inlet head is connected with a water tank water inlet pipe 33 of an air-water channel set, and a sole brush 16 is adsorbed on the top surface of each water inlet head 17 and used as a movable plug to control the water inlet of the switch unit water tank 21; the water outlet head 18 is fixed at the position of the water outlet 24 of the water outlet tank by screws, the top surface of the water outlet head 18 is flush with the bottom surface of the unit water tank 21, the bottom of the water outlet head is connected with a water tank water outlet pipe 32 of the air-water channel set, a sole brush 16 is adsorbed on the top surface of each water outlet head 18 to serve as a movable plug to prevent moisture in the water tank from entering the cabinet body, the top surface of the air-water channel set is tightly attached to the bottom surface of the laminate 12, and the back surface of the air-water channel set is tightly.

The laminate 12 is composed of a main board 19 and core coils 20, the main board 19 is provided with three unit water tanks 21, each unit water tank 21 can accommodate a pair of shoes, each unit water tank 21 is internally provided with four shoe support fixing rods 22, each unit water tank 21 is provided with a water tank water inlet 23 and a water tank water outlet 24 which are respectively arranged at two corners of the back side of the unit water tank 21, the core coils 20 are displayed at the bottom of the main board 19, and the center distance of each core coil 20 is 30 mm.

The iron core coil 20 is composed of a copper coil 25 and an iron core 26, and the copper coil 25 is wound on the iron core 26.

The air-water channel set is composed of a water outlet pipe 27, a water inlet pipe 28, an air outlet pipe 29, an air inlet pipe 30 and a circuit wire slot 31, the air-water channel set is divided into three units, each unit is provided with a water tank water outlet pipe 32, a water tank water inlet pipe 33, an air suction hole 34 and an air delivery hole 35, the water outlet pipe 27 is connected with a water circulation water inlet 49 of the water circulation system 2, the water inlet pipe 28 is connected with a water circulation water outlet 50 of the water circulation system 2, the air outlet pipe 29 is connected with an air flow group air suction opening 57 of the air flow group 3, and the air inlet pipe 30 is connected.

The sole brush 16 is composed of a bottom brush holder 36, a bottom magnetic ring 37 and bottom bristles 38, wherein the bottom magnetic ring 37 is embedded in the bottom brush holder 36 close to the bottom, and the bottoms of the bottom bristles 38 are uniformly embedded in the bottom brush holder 36.

The water inlet head 17 is composed of a water inlet head seat 39 and a water inlet head copper coil 40, the water inlet head seat 39 is made of iron materials, the upper portion of the water inlet head seat is oblate, the lower portion of the water inlet head seat is tubular, the inside of the water inlet head seat is hollow, the water inlet head copper coil 40 is wound outside the water inlet head seat, after the water inlet head copper coil 40 is electrified, an electromagnetic field can be generated by the water inlet head seat 39, the electromagnetic field can act on the sole brush 16 to achieve a water supply switch in the unit water tank 21, and the bottom of the water inlet head seat 39 is connected.

The water outlet head 18 is composed of a water outlet head base 41, a water outlet head copper coil 42, a floating pipe 43, a floater 44, a water outlet head magnetic ring 45 and a retainer ring 46, wherein the water outlet head base 41 made of ferrous materials is shaped like a person standing and lifting hands, the top of the water outlet head base is provided with a small groove, the retainer ring 46 is arranged in the small groove to limit the floating pipe 43 to be separated from the water outlet head base 41, the middle part of the water outlet head base 41 is inserted into the floating pipe 43, the floating pipe 43 can float up and down in a certain range in the middle of the water outlet head base 41, the water outlet head magnetic ring 45 is adhered to the lower end of the floating pipe 43, the floater 44 is sleeved outside the floating pipe 43, the lower end of the floater is close to the upper surface of the water outlet head magnetic ring 45, the floating pipe 43 is moved upwards by the buoyancy of water by the floater 44, the floater 44 is provided with three floater water inlet channels 47, the water above the floater 44 enters a, the upper part of the water outlet head base 41 is wound with a water outlet head copper coil 42, the water outlet head base 41 generates an electromagnetic field after the copper coil is electrified, the electric field acts on the sole brush 16 to force the sole brush 16 to move away or cover the upper part of the water outlet head base 41, the electric field can act on a water outlet head magnetic ring 45 at the same time, the water outlet head magnetic ring 45 drives the floating pipe 43 to move downwards to realize the drainage in the unit water tank 21, and the lower end of the water outlet head base 41 is opposite to the water outlet pipe 32 of the water tank.

The water circulation system 2 supplies clean water into the unit water tank 21, purifies the muddy water discharged from the unit water tank 21, stores the clean water, and discharges the filtered mud, the water circulation system 2 is provided with a water circulation water inlet 49 and a water circulation water outlet 50, the water circulation water inlet 49 is connected with the water outlet pipe 27 of the gas-water channel set, and the water circulation water outlet 50 is connected with the water inlet pipe 28 of the gas-water channel set.

The air flow group 3 is composed of an air inlet and outlet box 51, an air transmission pump 52, a heater 53, an aroma adding device 54 and an air extraction pump 55, five air inlets and five air outlets are arranged in the air inlet and outlet box 51, each air inlet in the air inlet and outlet box is provided with a filter element 58 for filtering air, the lower end of the air transmission pump 52 is communicated with an air inlet area of the air inlet and outlet box 51, the upper end of the air transmission pump is connected with the lower end of the heater 53, the upper end of the heater 53 is connected with the lower end of the aroma adding device 54, the lower end of the air extraction pump 55 is communicated with an air outlet area of the air inlet and outlet box 51, an air flow group extraction opening 57 at the upper end of the air transmission pump is connected with an air outlet pipe.

The fragrance adding device 54 is composed of a fragrance cover 59, a fragrance shell 60, a fragrance 61, a ball shaft 63, a fragrance adding device electromagnetic valve 64, a ventilation main pipe 65, a fragrance air inlet pipe 66 and a fragrance air outlet pipe 67, wherein the fragrance cover 59 is covered on the upper end of the fragrance shell 60 to prevent the fragrance 61 in the upper part of the fragrance shell 60 from being emitted outside, the fragrance air inlet pipe 66 and the fragrance air outlet pipe 67 are inserted in the lower part of the fragrance shell 60 and communicated with the space for containing the fragrance 61, the lower end of the fragrance shell 60 is welded on the ventilation main pipe 65, the fragrance air inlet pipe 66 and the fragrance air outlet pipe 67 are communicated with the ventilation main pipe 65, the ball shaft 63 capable of controlling air flow in and out is arranged in the middle of the fragrance shell 60, the ball shaft 63 is connected with the fragrance adding device electromagnetic valve 64, two ball holes 62 are formed in the upper surface.

The brush moving plate 4 is composed of a circuit board 68, a parking frame 69, two oil applicators, two dust brushes and two oil brushes, the parking frame 69 is fixed on the circuit board 68 by screws, each brush moving plate 68 is provided with two oil applicators, two dust brushes and two oil brushes, the two oil applicators are adsorbed in two oil applicator parking grooves 78 of the parking frame 69, the two dust brushes are adsorbed in two dust brush parking grooves 79 of the parking frame 69, and the two oil brushes are adsorbed in two oil brush parking grooves 80 of the parking frame 69.

The circuit board 68 is composed of a circuit board frame 70 and iron core coils 20, the front side of the circuit board frame 70 is thicker and becomes circular, the back side is thinner, the moving routes of the brush and the oil applicator on the circuit board frame 70 include a main route 71, an oil applicator return-slot route 72, a dust brush return-slot route 73, an oil brush return-slot route 74 and a unit upper shoe route 75, the main route 71 runs from one end to the other end of the circuit board frame 70, 26 iron core coils 20 are installed on the main route 71, the oil applicator return-slot route 72 includes two routes for returning the oil applicator to the route in the oil applicator parking slot 72, 3 iron core coils 20 are installed on the oil applicator return-slot route 72, the dust brush return-slot route 73 includes two routes for connecting the main route 71 to return or leave the dust brush parking slot 79, 3 iron core coils 20 are installed on the dust brush return-slot route 73, the oil brush return-slot route 74 includes two routes for connecting the main route 71 to return or leave the oil brush return-slot 80, the oil brush return line 74 is provided with 3 iron core coils 20, the unit upper shoe line 75 is provided with 6 lines, each unit is provided with two lines, the unit upper shoe line 75 is connected with the main line 71 and is a line for guiding an oil applicator, a dust brush or an oil brush to or from the surface of the shoe, and the unit upper shoe line 75 is provided with 10 iron core coils 20.

The parking frame 69 is composed of a main frame 76 and an oil pipe 77, two oiling device parking grooves 78, two dust brush parking grooves 79 and two oil brush parking grooves 80 are formed in the main frame 76, and a groove oil port 85 is formed in the upper surface of each oiling device parking groove 78 and communicated with the oil pipe 77.

The last oil tank coil endotheca 81 that is equipped with iron in the last oil ware parking groove 78, the winding of last oil tank coil endotheca 81 has last oil tank copper coil 82, last oil tank coil endotheca 81 will produce the electromagnetic field and exert on the last oil ware after last oil tank copper coil 82 circular telegram, there is a groove hydraulic fluid port 85 above the last oil ware parking groove 78, groove hydraulic fluid port 85 department installs the groove hydraulic fluid port coil endotheca 83 around the iron of groove hydraulic fluid port copper coil 84, groove hydraulic fluid port copper coil 84 lets in the electric current of size variation, groove hydraulic fluid port coil endotheca 83 will produce a variable electric field, this variable electric field lets the protecgulum copper coil 96 of the last oil ware of parking in the last oil ware parking groove 78 produce the electric current.

An iron dust brush groove coil inner sleeve 86 wound with a dust brush groove copper coil 87 is arranged in the dust brush parking groove 79, after the dust brush groove copper coil 87 is electrified, the dust brush groove coil inner sleeve 86 can generate an electromagnetic field to act on a dust brush, and the structure of the dust brush parking groove 79 is the same as that of the oil brush parking groove 80.

The oil feeder consists of a back cover 88, a back magnetic ring 89, a back frame 90, a piston coil rack 91, a piston coil 92, a piston 93, an oil cylinder 94, a front magnetic ring 95, a front cover coil 96 and a front cover 97, wherein the back cover 88 is adhered on the back magnetic ring 89, then the back magnetic ring 89 is adhered on the upper part of the back frame, so that the back cover 88 is close to the lower end of the back frame 90, the back magnetic ring 89 is sealed at the lower part of the back frame 90, a small vent hole 101 is arranged in the middle of the back cover 88 and is a channel for air circulation generated when the piston 93 moves up and down, the upper part of the back frame 90 is buckled into the lower part of the oil cylinder 94 to limit the range of the up-and-down movement of the piston 93 in the oil cylinder, the iron piston coil rack 91 wound with the piston copper coil 92 is arranged in the piston 93, the piston coil rack 91 can generate an electromagnetic field after the piston copper coil 92 is electrified, the electromagnetic field can simultaneously acts on the, the piston 93 is provided with a small hole into which a cylinder circuit line pipe 100 is inserted, the middle inside the cylinder 94 is provided with the cylinder circuit line pipe 100, the cylinder circuit line pipe 100 is a circuit line channel for connecting the piston copper coil 92 and the front cover copper coil 96, the front cover copper coil 96 becomes a power supply of the piston copper coil 92 in a variable electromagnetic field, the upper end of the cylinder 94 is provided with a cylinder inlet and outlet nozzle 98 which is a channel for the shoe polish to enter and exit the cylinder cavity 99, the cylinder inlet and outlet nozzle 98 is inserted into the middle hole of the front cover 97 made of a non-metal material to form a whole, the lower part of the front cover 97 wound around the front cover copper coil 96 is inserted into the central hole of the front magnetic ring 95, and thus the front magnetic ring 95 is connected with the front cover 97.

The dust brush is composed of a dust brush magnetic ring 102, a dust brush frame 103, sponge 104 and dust brush bristles 105, the dust brush magnetic ring 102 is embedded in the dust brush frame 103, the sponge 104 is adhered on the dust brush frame 103, the dust brush bristles 105 are adhered on the sponge 104, the dust brush bristles 105 are fine fiber bristles, and the dust brush and the oil brush have the same structure.

The oil drum 6 is composed of an oil drum magnet 106, an oil drum frame 107, an oil drum coil 108, an oil bag shell 109 and an oil bag plug 110, the oil bag 109 is arranged in the iron oil drum frame 107 with the oil drum copper coil 108 wound outside, the oil bag plug 110 for sealing shoe polish in an oil bag cavity 111 is arranged above the oil bag, the oil drum magnet 106 is arranged above the oil bag plug 110, when the oil feeder is used for feeding oil, the oil drum copper coil 108 is electrified, the oil drum frame 107 generates an electromagnetic field which acts on the oil drum magnet 106, and the oil drum magnet 106 enables the shoe polish in the oil bag cavity 111 to flow to the cylinder cavity 99 of the oil feeder from an oil drum oil outlet 112.

The shoe core 5 is composed of a left shoe core 113, a right shoe core 114, a grab handle 115 and a core cover 116, the left shoe core 113 and the right shoe core 114 are symmetrical in structure, the grab handle 115 is welded on the core cover 116, so that people can conveniently take the shoe core 5, the upper end of the left shoe core 113 is welded on a left core air duct 123 of the core cover 116, and the right shoe core 114 is welded on a right core air duct 120 of the core cover 116, so that the shoe core 5 is a whole.

The left shoe core 113 is composed of a core frame 117, iron core coils 20, a shoe core vent pipe 118 and a controller 119, wherein the core frame 117 is provided with a plurality of holes, one iron core coil 20 is arranged in each hole, the holes are arranged on the core frame 117 to form mutually communicated circuits, after a dust brush walks all the circuits on the surface of a shoe, each part on the upper surface of the shoe can be brushed, the distance between the upper center points of the holes is within 30mm, the controller 119 is fixed on the shoe core vent pipe 118, the upper end of the shoe core vent pipe 118 is connected with the left core vent passage 123, the lower end of the shoe core vent pipe is fixed with the core frame 117, and the controller 119 is connected with the copper coils 25 of each iron core coil 20 on the core frame 117 to control the operation of each iron core coil 20.

The core cover 116 is provided with a right core air duct 120, a unit air suction opening 121, a shoe core air inlet 122 and a left core air duct 123, the right core air duct 120 is connected with the upper end of the shoe core air duct 118 of the right shoe core 114, the unit air suction opening 121 is connected with the air suction hole 34 of the air-water channel set, the waste gas in the cabinet is sucked from the opening, the shoe core air inlet 122 is connected with the air delivery hole 35 of the air-water channel set, and the left core air duct 123 is connected with the upper end of the shoe core air duct 118 of the left shoe core 113.

The working principle is as follows:

the dust brush and oil applicator moving principle is described by taking dust brush moving as an example, 26 iron core coils 20 are installed on a main line 71 on a circuit board frame 70, the iron core coils 20 are respectively named as No. one, No. two and No. three … … twenty-six from left to right, a dust brush is arranged on the No. one coil, the No. two coil is electrified to work, the No. one coil is powered off to stop working, an electromagnetic field generated by the No. two coil generates tension on a dust brush magnetic ring 102 on the dust brush, then the dust brush magnetic ring 102 carries the dust brush to move to the upper side of the No. two coil, the No. three coil is electrified to start working, the No. two coil is powered off to stop working, the same dust brush for the reason can be loaded on the upper side of the No. three coil by the electromagnetic field generated by the No. three coil, by analogy, the dust brush moves on the circuit board frame 70 under the successive action of the core coil 20, which is the principle of dust brush or applicator movement.

When the sole is washed by water, the water circulation system 2 starts to collect water to the air-water channel, the water pressure is very low, when the sole brush 16 is adsorbed on the surface of the water inlet 23 of the water tank, water can not enter the unit water tank 21, the water inlet head copper coil 40 is electrified, the water inlet head seat 39 generates an electromagnetic field to jack the sole brush 16, meanwhile, the iron core coil 20 near the water inlet 23 of the water tank starts to work, the sole brush 16 is moved out of the water inlet 23 of the water tank, water smoothly enters the unit water tank 21, the sole brush 16 on the water outlet 24 of the water tank is also moved to the side of the water outlet 24 of the water tank, water enters the floater bottom cavity 48 from the floater water inlet channel 47, the floater 44 drives the floating pipe 43 to rise upwards by virtue of the buoyancy of the water, when the floating pipe 43 rises to be blocked by the retaining ring 46, the water level of the unit water tank 21 is deepest, the water circulation system 2 continues to supply water, then the water returns to the water circulation system 2 for purification, no matter how water is added, the water cannot overflow the upper end of the unit water tank 21 and flow out of the cabinet, the sole brushes 16 guide the sole brushes 16 to move on the bottom surface of the shoe under the action of the iron core coil 20 under the unit water tank 21, when the sole brushes 16 run off according to a set circuit, the bottom surface of the shoe is cleaned, after the bottom surface of the shoe is cleaned, one sole brush 16 in the unit water tank 21 moves to the upper surface of the water inlet 23 of the water tank under the connecting action of the iron core coil 20, so that the water inlet of the unit water tank 21 is cut off, the water outlet copper coil 42 is electrified, the water outlet seat 41 generates an electromagnetic field to act on the water outlet magnetic ring 45, the water outlet magnetic ring 45 is forced to drive the floating pipe 43 to move downwards to the bottom, the water in the unit water tank 21 flows back to the water circulation system 2 through the water outlet 18, and after, the other sole brush 16 in the unit water tank 21 moves to the upper part of the water tank water outlet 24 through the connection of the iron core coil 20, and the sole washing is completed.

When the shoe upper is cleaned, the dust brush groove copper coil 78 is electrified to generate an electromagnetic field by the dust brush groove coil inner sleeve 86 to push the dust brush out of the dust brush parking groove 79, the back of the dust brush falls on the dust brush return groove line 73 of the road board frame 70, under the connecting action of the iron core coils 20 on the road board 68, the dust brush moves from the dust brush return groove line 73 to the main line 71 and then moves to the unit upper shoe line 75, then the brush surface falls on the shoe upper, under the connecting action of the iron core coils 20 on the shoe core 5, the dust brush moves according to the central line set on the shoe core 5, after all lines are completed, the dust removing work of the shoe upper is completed, after the work is completed, the dust brush returns to the dust brush parking groove 79, the dust brush comes under the brush movable plate 4 under the connecting action of the iron core coils 20 on the shoe core 5, all the iron core coils 20 on the shoe core 5 are powered off to stop working, and the iron core coils 20 on the unit upper shoe line 75 on the, the dust brush is pulled up to the brush moving plate 4 to leave the shoe upper, and then returns to the dust brush parking groove 79.

When shoe upper is oiled, shoe polish is added into an oil feeder firstly, an oil drum copper coil 108 of an oil drum 6 is electrified, an oil drum frame 107 generates an electromagnetic field to generate acting force on an oil drum magnetic block 106, the trend that the oil drum magnetic block 106 moves downwards is forced, the pressure in an oil bag cavity 111 is increased, the trend that the shoe polish flows to an oil feeder parking groove 78 is realized, meanwhile, a current with a variable size is introduced into an oil tank port copper coil 84, a variable electromagnetic field is generated in an oil tank coil inner sleeve 83, a current is generated in a front cover copper coil 96 of the oil feeder parked in the oil feeder parking groove 78, the current is connected into a piston copper coil 92, an electromagnetic field is generated in a piston coil frame 91, the electromagnetic field simultaneously acts on a back magnetic ring 89 and a front magnetic ring 95, a downward pulling force is applied to a piston 93, the shoe polish moving downwards flows to an oil feeder inlet 98 from an oil tank port 85 and then enters a cylinder inner cavity 99, and the oil feeder is completed when the, the oil drum copper coil 108 and the tank oil port copper coil 84 are powered off to stop working, the oil applicator tank copper coil 82 is powered on to start working, the back cover 88 falls on the brush movable plate 4 from the oil applicator parking groove 78, the oil applicator moves on the surface of the shoe under the continuous action of the iron core coil 20 on the brush movable plate 4 and moves to the upper, the front cover 97 is attached to the upper, the oil applicator moves on the surface of the shoe under the continuous action of the iron core coil 20 of the shoe core 5 and applies the shoe polish to the surface of the shoe, when the shoe polish is applied to the surface of the shoe, the iron core coil 20 under the oil applicator generates a magnetic field with a change in size, the direction of the magnetic field is opposite to the direction of a change magnetic field generated by the oil port coil inner sleeve 83 when the oil applicator is filled, the front cover copper coil 96 generates a current in the magnetic field with the change, the direction of the current is opposite to the direction of the current generated when the oil applicator is filled, and the current, the piston coil former 91 generates an electromagnetic field which simultaneously acts on the back magnetic ring 89 and the front magnetic ring 95, the piston 93 moves in the direction of the front cover 97, shoe polish is extruded to be coated on the surface of the shoe, the shoe polish is coated on the shoe where the applicator moves, the oiling line is completed, the oiling work on the surface of the shoe is completed, and then the applicator returns to the applicator parking groove 78 according to the original line on the brush moving plate 4.

When polishing the shoe upper, the oil brush falls down from the oil brush parking groove 80 and falls on the brush movable plate 4, the oil brush moves to the surface of the shoe under the connecting action of the iron core coils 20 on the brush movable plate 4, the oil on the shoe upper is wiped under the set oil wiping route under the connecting action of the iron core coils 20 of the shoe core 5, so that the shoe oil is uniformly coated on the surface of the shoe, the shoe upper is polished, after polishing, the oil brush leaves the surface of the shoe and returns to the brush movable plate 4, and the oil brush returns to the oil brush parking groove 80 according to the original route.

Remove the tide in the shoes, remove the flavor, air transmission pump 21 of air current group 3 when disinfecting, heater 53 and aspiration pump 55 begin to work, air transmission pump 52 is to conveying gas in the shoe core 5, heater 53 heats 70 degrees to gas, when high-temperature gas flows through the inside of shoes, the inside moisture of shoes and peculiar smell will be evaporated out, most bacterium can be killed in the shoes, the waste gas that evaporates out is taken out to the air inlet box through aspirating hole 34 in the shoes outside the cabinet of discharging after filtering, remove the tide in the shoes like this, remove the flavor, disinfect and just accomplished.

When adding fragrance in shoes, the air pump 52 and the air pump 55 of the air flow group 3 start to work, the heater 53 does not work, air flows into the shoe core 5, the waste air in the shoes is extruded out, the waste air is pressed into the air inlet and outlet box 51 by the air pump 55 and is exhausted out of the cabinet after being filtered, the ball shaft 63 is rotated by the fragrance adding device electromagnetic valve 64, the fragrance air inlet pipe 66 introduces the air flow into the fragrance adding device 54 to rub with the fragrance 61, the fragrance 61 is diffused into the air, then the fragrance mixed air flows into the ventilation main pipe 65, then the air enters the inside of the shoes to add fragrance to the shoes, and the fragrance adding work of the shoes is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.