CN218474589U - Push-pull type shoe washing machine - Google Patents

Abstract

The utility model relates to a shoe washing machine, in particular to a push-pull type shoe washing machine, which comprises a shoe washing machine body formed by assembling a box body and an inner container, a rotary spray pipe, a shoe washing machine door cover and a shoe supporting frame; the shoe washing machine door cover is slidably arranged on the shoe washing machine body through parallel sliding rails, the rotary spray pipe is rotatably arranged in the inner container, and the shoe supporting frame is arranged on the inner side of the shoe washing machine door cover; the rotary spray pipe is respectively connected with a water source and a motor through a rotary joint; the spraying range of the rotary spraying pipe covers the shoe support frame; the bottom of the shoe washing machine body is provided with a water outlet. Compared with the prior art, the utility model provides an among the prior art water route, gas circuit set up on drawer type shoe washing machine's drawer outer wall, and the water route gas circuit pipeline of production is complicated, and the cost is noble, easily impairedly, the complicated and inconvenient problem of push-and-pull of maintenance, this shoe washing machine simple structure, fault rate are low, facilitate the use and the cleaning performance is excellent.

Description

Push-pull type shoe washing machine

Technical Field

The utility model relates to a shoe washing machine, in particular to a push-pull type shoe washing machine.

Background

At present, most of mainstream shoe washing machines are brush friction cleaning and drawer type hairless water flow spraying cleaning.

The brush type shoe washing machine can be divided into a fixed type and a non-fixed type according to the state of the shoes. Due to the fact that the brush type water-spraying cleaning machine has large abrasion degree on shoes, the water-spraying cleaning machine is gradually developing to a cabinet type hairless water flow spraying cleaning direction.

The drawer type shoe washing machine mainly comprises a box body and a drawer arranged in the box body in a push-pull mode, a water path and a gas path pipeline are arranged on the outer wall of the drawer, the water path and the gas path can be driven together when the drawer is pulled out, and the design is complex in water path and gas path pipeline, high in manufacturing cost, easy to damage, complex in maintenance and inconvenient in push-pull.

Chinese patent CN217244276U discloses a shoe washing machine, which comprises a housing, a containing member disposed in the housing, and a shoe washing cage, a lateral spray arm and a transverse spray arm disposed in the containing member, wherein the shoe washing cage is rotatably disposed, the lateral spray arm is disposed on at least one side wall of the containing member, the lateral spray arm is disposed toward a side portion of the shoe washing cage, the transverse spray arm is disposed at an inner bottom and/or an inner top of the containing member, the transverse spray arm is disposed toward a bottom and/or a top of the shoe washing cage, water flow injection ports are disposed at end portions of the lateral spray arm and the transverse spray arm, and when the water flow injection ports are in a water spraying state, the lateral spray arm and the transverse spray arm can rotate under the spraying action of the water flow injection ports. The water route sets up in holding the component in the shoe washing machine that this patent provided, therefore when needs get put shoes and pull out when holding the component, can pull out the water route in the lump, leads to the water route that originally designed to receive folding influence business turn over water and further probably leads to the destruction and the damage of pipeline at the push-and-pull in-process repeatedly, and then probably causes the damage of shoe washing machine.

Therefore, a novel cabinet type push-pull shoe washing machine is needed in the field, and the problems that in the prior art, a water path and a gas path are arranged on the outer wall of a drawer of the drawer type shoe washing machine, and the generated water path and gas path pipeline is complex, high in manufacturing cost, easy to damage, complex to maintain and inconvenient to push and pull are solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving at least one of the problems and providing a push-pull type shoe washing machine, which is used for solving the problems that the water path and the gas path are arranged on the outer wall of the drawer type shoe washing machine in the prior art, the pipeline of the produced water path and the gas path is complex, the cost is high, the damage is easy, the maintenance is complex and the push-pull is inconvenient, the structure of the shoe washing machine is simple, the failure rate is low, the use is convenient and the cleaning effect is excellent.

The purpose of the utility model is realized through the following technical scheme:

a push-pull type shoe washing machine comprises a shoe washing machine body formed by assembling a box body and an inner container, a rotary spraying pipe, a shoe washing machine door cover and a shoe supporting frame;

the shoe washing machine door cover is slidably arranged on the shoe washing machine body through parallel sliding rails, the rotary spraying pipe is rotatably arranged in the inner container, and the shoe supporting frame is arranged on the inner side of the shoe washing machine door cover;

the rotary spray pipe is respectively connected with a water source and a motor through a rotary joint;

the spraying range of the rotary spraying pipe covers the shoe support frame;

the bottom of the shoe washing machine body is provided with a water outlet.

Rotary joint is a current pipe connection device, and the relative rotation can take place for two sections pipelines that it connects to can be used to in the pipeline to convey multiple fluid medium such as gas, liquid, oil, the utility model discloses in adopt rotary joint's effect promptly with liquid smoothly steady insert to rotatory spray pipe in by outside pipeline inside, guarantee rotary spray pipe can not influence the inflow of being connected and liquid with outside pipeline at rotatory in-process. The rotary joint used in the utility model can directly adopt the products sold in the market.

Preferably, the water outlet is provided with a water drainage filter. The drainage filter avoids the problem that drainage cannot be carried out due to the fact that a drainage outlet is blocked by massive dirt and dirt.

Preferably, the rotary spraying pipe is provided with a spraying arm and a pair of spraying pipes, and a cavity for water flow to pass through is formed in the rotary spraying pipe; the spraying pipes are connected to two ends of the spraying arm; the spraying pipes are provided with spraying openings at intervals, and the spraying openings on the two spraying pipes are arranged oppositely. The rotary spraying pipe forms a symmetrical U-shaped structure and rotates around a self symmetrical axis, so that the spraying ports arranged in opposite directions can rotate to fully clean the dirt at all angles and all positions of the shoes.

Preferably, the rotary spraying pipes are provided with a pair and symmetrically arranged inside the inner container; the shoe support frame comprises a connecting bridge and a pair of shoe support parts, and the two shoe support parts are fixedly connected through the connecting bridge, so that a space capable of passing through the rotary spraying pipe is formed between the two shoe support parts. The shoe support frame is divided into two shoe supporting parts, so that two shoes can be placed on the shoe supporting parts independently when the shoes are placed, and the two shoes can be sufficiently cleaned through the rotation of the two rotary spraying pipes around the two shoe supporting parts respectively during cleaning, and the insufficient cleaning caused by mutual shielding is avoided.

Preferably, the shoe support part comprises a shoe body support part and a shoe opening support part; the shoe washing machine is characterized in that the side wall of the shoe washing machine body is respectively provided with an air inlet and an air outlet, and the air inlet is arranged right opposite to the shoe opening supporting part. Set up the air inlet and can blow in the hot gas flow to inner bag inside for this shoe washing machine can compromise dry function, and the hot gas flow is dry can fully dry the inside and outside surface of shoes, and drying process is mild, does not harm the vamp. The shoe body support part and the shoe throat support part can regulate the approximate position of the shoe throat when the shoe is placed, thereby ensuring that the hot air flow blown in from the air inlet can enter the shoe to fully dry the inside of the shoe. The gas vent that sets up mainly used discharges the air current of blowing in the drying process, owing to can in time discharge the air current that carries moisture through the gas vent, therefore drying process can shorten to drying effect also can ensure.

Preferably, the bottom surface of the inner container comprises a flow guide surface and a drainage groove; the flow guide surface is obliquely arranged and forms an included angle of 0.1-2 degrees with the horizontal plane; the drainage groove is connected to the lower end of the flow guide surface; the water outlet is arranged in the water drainage groove, and the water drainage groove inclines towards the water outlet to enable the water outlet to be at a low position. The slope of water conservancy diversion face sets up the sewage after conveniently wasing and converges to the water drainage tank in, the slope of further water drainage tank sets up the sewage that makes to get into the water drainage tank can be discharged by the outlet of low level, avoids the accumulation of sewage in the inner bag.

Preferably, one end of the drainage channel, which is far away from the diversion surface, is provided with a water baffle, and the water baffle forms an included angle of 45-85 degrees with the horizontal plane. The arrangement of the water baffle ensures that the sewage entering the drainage groove can not flow into the inner container or other parts of the shoe washing machine again; the water storage capacity of water drainage tank has been improved in the setting of angle compared in with horizontal plane vertically, therefore has higher water drainage tank water storage capacity under the condition of manger plate such as height, perhaps when possessing equal water drainage tank water storage capacity, can adopt shorter/shorter manger plate, and then can reduce occuping of inner bag volume.

Preferably, the shoe washing machine further comprises a rotary spraying arm, and the rotary spraying arm is rotatably installed on the top surface of the inner container through an installation column; the inner part of the rotary spraying arm is a cavity for water flow to pass through, and the rotary spraying arm is connected with a water source; the rotary spraying arm is provided with water outlets at intervals, the water outlets are obliquely arranged, and a rotary torque is formed when water flow is sprayed out to drive the rotary spraying arm to rotate. The rotary spraying arm is mainly used for cleaning the inner container of the shoe washing machine. Due to the inclined arrangement of the water outlet, when the rotary spraying arm sprays water, the reaction force can form rotary torque to further push the rotary spraying arm to rotate, so that the inner part of the liner can be fully cleaned, a motor for driving the rotary spraying arm to rotate is omitted, the arrangement and energy consumption of electric wires are reduced, and the size of the shoe washing machine can be reduced.

Preferably, the top surface of the inner container is provided with a rotary spraying arm installation part, the rotary spraying arm installation part comprises a rotary spraying arm installation through hole, and the installation column penetrates through the rotary spraying arm installation through hole. The mounting column penetrates through the mounting through hole of the rotary spraying arm, so that the height of the rotary spraying arm can be further raised, the occupied volume of the inner container is reduced, and the side face assists in reducing the volume of equipment; and meanwhile, the rotary spray arm is lifted, so that the inner container can be cleaned to a higher wall surface when the rotary spray arm is used for cleaning the inner container.

Preferably, the parallel sliding rails are multi-section telescopic sliding rails. The multi-section telescopic sliding rail can enable the door cover of the shoe washing machine and the shoe supporting frame to be fully pulled out, so that shoes can be more conveniently put in and taken out, and the shoe washing machine can be suitable for shoes with different lengths and different shoe sizes.

Preferably, the shoe washing machine door cover is provided with an observation window, and the inner side of the shoe washing machine door cover is provided with an illuminating lamp. By turning on the illuminating lamp, the internal situation of the liner can be visually observed through the observation window.

The utility model discloses a theory of operation does:

before formal use, the door cover of the shoe washing machine is pulled open, the door cover of the shoe washing machine can take the shoe support frame to be drawn out from the inner container together, shoes to be washed are placed on the two shoe support parts of the shoe support frame respectively, then the door cover of the shoe washing machine is pushed in and closed tightly, and then the shoe washing machine can be started to wash the shoes.

In the cleaning process, the rotary spraying pipes can respectively rotate around the shoes under the drive of the motor, and meanwhile, clear water flowing through the rotary spraying pipes is sprayed out towards the shoes from the spraying openings of the spraying pipes to clean the vamps; the cleaned sewage falls to the bottom surface and enters the drainage groove along the flow guide surface and then is discharged out of the shoe washing machine through the drainage outlet. And (5) after the cleaning is finished, entering a drying stage.

In the drying process, hot air flow is blown into the inner container from the air inlet, and part of the hot air flow directly enters the shoe to be dried because the air inlet is over against the shoe opening; meanwhile, the air flow with water is discharged out of the shoe washing machine through the air outlet; under the action of the continuous hot air flow, the moisture is quickly carried away by the flowing air flow and the higher temperature for evaporation, and then the drying is finished.

After the drying is finished, the door cover of the shoe washing machine is pulled open, the cleaned and dried shoes are taken out, and then the door cover of the shoe washing machine is pushed in and closed, so that the cleaning of the shoes is finished.

When the inner container needs to be cleaned, the rotary spraying arm can be started to clean the inner container. After the water is supplied to the rotary spraying arm, the reaction force is provided for the rotary spraying arm by the obliquely arranged water outlet, and the rotary spraying arm generates rotary moment, so that the rotary spraying arm can rotate without being driven by a motor, and further, each inner wall surface of the inner container is fully cleaned.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. this shoe washing machine's water route, circuit and gas circuit all set up in the shoe washing machine is originally internal, and the shoe washing machine door closure of pull part and the shoe support frame that is taken out together with shoe washing machine door closure do not relate to any water route and gas circuit, therefore in the use, can not influence the normal connection of water route and gas circuit, can avoid complicated pipeline wiring, therefore, the cost is reduced, the safety in utilization is improved, and because the push-and-pull does not receive the influence of pipeline, therefore can take the design of "opening greatly and closing greatly" (multistage formula slide rail that stretches out and draws back) in the design of push-and-pull, with the size that is applicable to different shoes, specification and size, promote different crowds' adaptability.

2. The shoe washing machine further integrates a drying function besides the shoe washing function, and forms a washing and drying integration. The drying of this shoe washing machine is realized through blowing into the hot gas flow to the inner bag, and the air current of taking water flows out by the gas vent, can take away moisture fast through the combined action that heating and air current flow, shortens the required time of drying.

3. The bottom surface of the inner container is composed of a flow guide surface inclined towards the drainage groove and a drainage groove inclined towards the drainage port, so that the cleaned sewage can be quickly drained out of the shoe washing machine through the drainage port under the action of gravity, and the drainage port can be provided with a drainage filter according to needs, so that the continuous drainage is guaranteed and is not blocked. The arrangement of the water baffle prevents sewage from overflowing to influence or pollute other parts and components.

4. The water outlet of the rotary spraying arm is obliquely arranged, so that when the liner is automatically cleaned, the rotary spraying arm can obtain a rotary torque under the reaction force of water spraying, and can automatically rotate to perform all-dimensional cleaning on the liner; and because the rotary spraying arm can automatically rotate, the arrangement of a motor and a circuit is reduced, the structure is further simplified, and the cost is reduced. Because the top surface at the inner bag is provided with rotatory spray arm installation department for the erection column of rotatory spray arm can pass rotatory spray arm installation through-hole setting, and then has practiced thrift the inside volume of inner bag.

Drawings

FIG. 1 is a schematic structural view of a body of a shoe washing machine in one embodiment;

FIG. 2 is a schematic view of the inner container in one embodiment;

FIG. 3 is a schematic view of the assembled inner container and door cover of the shoe washing machine in one embodiment;

FIG. 4 is a schematic view showing the structure of the shoe washing machine in one embodiment after the door is pulled out;

FIG. 5 is another schematic view showing the structure of the shoe washing machine in one embodiment after the door is pulled out;

FIG. 6 is a schematic side view of the liner in one embodiment;

FIG. 7 is another schematic view of the inner container in one embodiment;

FIG. 8 is a schematic structural view of the inner container with a rotary shower pipe and a rotary shower arm mounted therein according to an embodiment;

FIG. 9 is a schematic diagram of a shoe support frame in one embodiment;

FIG. 10 is a schematic view of an embodiment of a rotary shower mounted on a liner;

FIG. 11 is another schematic view of the rotary shower tube mounted to the inner container in one embodiment;

FIG. 12 is a schematic view of a rotary shower in one embodiment;

FIG. 13 is a schematic view showing the structure of a parallel slide rail assembled to a door cover of a shoe washing machine in one embodiment;

FIG. 14 is a schematic diagram of an embodiment of a parallel slide;

FIG. 15 is a schematic view showing the structure of a door cover of the shoe washing machine in one embodiment;

FIG. 16 is a schematic diagram of an embodiment of a rotary spray arm mounted to a liner;

FIG. 17 is a schematic view of the outer side of the top of the liner in one embodiment;

in the figure: 1000-shoe washing machine body; 100-a box body; 1-inner container; 11-rear wall surface; 111-rotating shower installation; 1111-water seal ring mounting groove; 11111-water seal ring; 1112-rotating shower pipe bearing mounting grooves; 11121-rotating shower bearings; 1113-installing through holes of the rotary spray pipe; 112-an exhaust port; 1121-exhaust hood; 1122-an exhaust duct; 12-left wall surface; 121-an air inlet; 122-inlet duct mounting port; 123-parallel sliding rail mounting parts; 1231-parallel slide rail mounting holes; 13-right wall; 14-a top surface; 141-rotating spray arm mounting; 1411-grooves; 1412-rotating the spray arm mounting through hole; 1413-groove wall surfaces; 1414-the outer wall surface of the groove; 15-bottom surface; 151-a flow guide surface; 152-a drainage channel; 1521-a water outlet; 153-water baffles; 2-rotating the spray pipe; 21-rotating shower mount; 211-rotating shower pipe water seal mounting table; 212-rotating shower pipe bearing mounting table; 213-a drive section; 22-a spray arm; 23-a spray pipe; 231-a spray port; 3-a door cover of the shoe washing machine; 31-a mounting portion; 311-a parallel slide mount; 312-a shoe support frame mounting portion; 32-lighting lamp; 33-observation window; 4-a shoe support frame; 41-a shoe support; 411-a body support; 412-a collar support; 42-a connecting bridge; 43-shoe support arm; 5-parallel sliding rails; 51-parallel sliding rail fixing holes; 52-mounting holes for door covers of shoe washing machines; 6-rotating the spray arm; 7-mounting a column; 8-mounting the column fixing cover.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

First of all, it should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications. For example, as shown in fig. 1, the push-pull type shoe washing machine is a single-layer cabinet type push-pull type shoe washing machine, and in other embodiments, the push-pull type shoe washing machine can be integrated into a whole in a multi-layer overlapping installation manner according to requirements.

Next, it should be noted that, in the description of the present invention, the terms of direction or positional relationship indicated by the terms "middle", "upper", "lower", "left", "right", "vertical", "horizontal", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, unless otherwise explicitly stated or limited in the description of the present invention, the terms "mounted," "connected" and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1

A push-pull type shoe washing machine, as shown in figures 1-17, comprising a shoe washing machine body 1000 formed by assembling a box body 100 and an inner container 1, a rotary spray pipe 2, a shoe washing machine door cover 3 and a shoe supporting frame 4;

the shoe washing machine door cover 3 is slidably mounted on the shoe washing machine body 1000 through a parallel sliding rail 5, the rotary spray pipe 2 is rotatably mounted inside the inner container 1, and the shoe support frame 4 is mounted on the inner side of the shoe washing machine door cover 3;

the rotary spraying pipe 2 is respectively connected with a water source and a motor through a rotary joint;

the spraying range of the rotary spraying pipe 2 covers the shoe support frame 4;

the bottom of the shoe washing machine body 1000 is provided with a drainage outlet 1521.

More specifically, in the present embodiment:

as shown in fig. 1, 3 and 4, the embodiment provides a novel push-pull type shoe washing machine, which mainly comprises a box body 100, an inner container 1, a rotary spraying pipe 2, a shoe washing machine door cover 3, a shoe support frame 4, a parallel slide rail 5 and a rotary spraying arm 6; wherein the box body 100 and the inner container 1 are fixed in an inserting way to form a shoe washing machine body 1000; the door cover 3 of the shoe washing machine is opened and closed in a sliding way through a parallel slide rail 5 fixed on the inner wall of the inner container 1; the shoe support frame 4 is detachably fixed on the inner side of the door cover 3 of the shoe washing machine through the shoe support frame mounting part 312; the rotary spray pipe 2 and the rotary spray arm 6 are respectively and rotatably arranged on the rear wall surface 11 and the top surface 14 in the inner container 1.

As shown in figure 2, the inner container 1 is fixedly formed by 5 wall surfaces of a left wall surface 12, a rear wall surface 11, a right wall surface 13, a top surface 14 and a bottom surface 15, and the remaining front side surface is matched with the door cover 3 of the shoe washing machine to open or close the inner container 1. The reference surfaces of the three side wall surfaces of the left wall surface 12, the rear wall surface 11 and the right wall surface 13 are all vertical to the horizontal plane, and the reference surface of the top surface 14 is parallel to the horizontal plane; and the reference plane of the bottom surface 15 forms an angle with the horizontal plane. As shown in fig. 6, the bottom surface 15 is integrally composed of a guiding surface 151 and a drainage groove 152, wherein the guiding surface 151 is disposed in a manner of inclining towards the front side, the drainage groove 152 is disposed in front of the guiding surface 151, so that the bottom surface 15 forms a concave structure at the drainage groove 152, the drainage opening 1521 is disposed in the middle of the drainage groove 152, and the drainage groove 152 is slightly inclined from the side to the drainage opening 1521, so that the drainage opening 1521 is at the lowest point of the bottom surface 15. The angle between the flow guide surface 151 and the horizontal plane can be controlled to be 0.1-2 degrees according to the drainage speed requirement. A water guard 153 is provided at the front side of the drain groove 152, i.e., the opening of the inner container 1, and the water guard 153 keeps the sewage in the drain groove 152. The water baffle 153 and the horizontal plane form an included angle of 45-85 degrees, so that the drainage groove 152 forms a trapezoid with a narrow lower part and a wide upper part, the water storage capacity in the drainage groove 152 can be improved, and the phenomenon that the sewage overflows after passing over the water baffle 153 to affect the cleanness and the operation of other parts and components is further avoided.

As shown in fig. 8, the rotary shower 2 is rotatably mounted on the rear wall surface 11 and is symmetrically disposed left and right thereof. The interior of the rotary shower pipe 2 is of a cavity structure for passing water flow, and in combination with fig. 12, the rotary shower pipe 2 comprises a rotary shower pipe mounting part 21, a shower arm 22 and a shower pipe 23. The spray pipes 23 are symmetrically arranged at the end heads of the two ends of the spray arm 22 to form a U-shaped structure; the rotary shower pipe mounting member 21 is fixed to a center position of the shower arm 22 and is disposed to face away from an extending direction of the shower pipe 23. The side surfaces of the spraying pipes 23 are provided with spraying openings 231 at intervals, and the spraying openings 231 on the two spraying pipes 23 are arranged in a symmetrical mode in opposite directions. The rotary spray pipe mounting member 21 is used for being matched and fixed with a rotary spray pipe mounting part 111 arranged on the rear wall surface 11 of the inner container 1, as shown in fig. 10-12, the rotary spray pipe mounting part 111 is composed of a water seal ring mounting groove 1111, a rotary spray pipe bearing mounting groove 1112 and a rotary spray pipe mounting through hole 1113, wherein the water seal ring mounting groove 1111 is positioned at the inner side, the rotary spray pipe bearing mounting groove 1112 is positioned at the outer side, and the rotary spray pipe mounting through hole 1113 is positioned at the outermost side and is communicated with the inner container 1 and the outer side to pass through the rotary spray pipe mounting member 21. The diameter of water seal ring mounting groove 1111 is about to be greater than rotatory shower pipe bearing mounting groove 1112 slightly, therefore the less rotatory shower pipe bearing mounting groove 1112 of diameter forms the shaft shoulder of water seal ring mounting groove 1111 to rotatory shower pipe bearing mounting groove 1112 can carry on spacingly to being fixed in the water seal ring 11111 in water seal ring mounting groove 1111, and restriction water seal ring 11111 outwards removes. Similarly, the diameter of rotatory shower installation through-hole 1113 is also less than the diameter of rotatory shower bearing mounting groove 1112, makes rotatory shower installation through-hole 1113 become the spacing shaft shoulder of rotatory shower bearing mounting groove 1112, plays spacing effect to the rotatory shower bearing 11121 who is fixed in rotatory shower bearing mounting groove 1112, and restriction rotatory shower bearing 11121 outwards removes. The mounting member of the swivel shower 23 is shown in fig. 12, and comprises a swivel shower water seal mounting table 211, a swivel shower bearing mounting table 212 and a driving part 213, after the swivel shower 2 is mounted to the swivel shower mounting part 111, the driving part 213 passes through the swivel shower mounting through hole 1113 and forms a fit therewith, the swivel shower bearing mounting table 212 passes through the swivel shower bearing 11121 and forms a fit therewith, and the swivel shower water seal mounting table 211 passes through the water seal ring 11111 and forms a fit therewith. The driving part 213 is connected with an external water source and a motor through a rotary joint respectively, and can be directly connected with an output shaft of the motor or is in transmission connection with the motor through transmission components such as gears, a conveyor belt and the like; is connected with a water source and can be communicated with a booster pump through a water pipe. The rotary joint is arranged, so that the rotary spraying pipe 2 can still keep smooth flow of fluid in the rotating process.

In the middle of the rotary shower pipe 2 opposite to the shower opening 231, i.e. in the middle of the U-shaped structure (when the inner container 1 and the shoe washing machine door cover 3 are in a closed state), a shoe support frame 4 is provided, and the shoe support frame 4 is formed by connecting two axisymmetric shoe support portions 41 through a connecting bridge 42, as shown in fig. 5 and 9, one shoe can be placed on each shoe support portion 41. The shoe support 41 can be subdivided into a shoe opening support 412 and a shoe body support 411, the support of the shoe body support 411 is designed with a boss according to the shape of the upper, and the shoe opening support 412 is a common support, so that the orientation of the shoe can be fixed. The connecting bridge 42 is provided at the front end of the shoe support frame 4 so that a certain gap may exist between the two shoe support portions 41 for the rotary shower pipe 2 to pass through when rotating. Two rotatory shower 2 aim at the shoes on two shoes supporting parts 41 respectively, ensure that two shoes all can receive abundant all-round washing, avoid under the traditional design because shelter from each other and have the dead angle, the defect that is difficult to clean. The two sides of the front end of the shoe support frame 4 respectively extend out of the shoe support frame support arms 43, which can be inserted into the shoe support frame mounting part 312 on the shoe washing machine door cover 3 to fix the shoe support frame 4. Because the shoe support frame 4 is fixed in a plugging mode, the shoe support frame can be detached and replaced as required.

As shown in fig. 2, 6 and 9, the inner container 1 is symmetrically provided with a pair of air inlets 121 on the left wall 12 and the right wall 13 for blowing air to dry the shoes. The air inlet 121 is opposite to the position above the shoe welt supporting part 412, so that after the shoes are placed on the shoe supporting frame 4, the air flow blown in by the air inlet 121 can enter the interior of the shoes through the shoe welts; an air outlet 112 is arranged at the upper part of the rear wall surface 11; the inlet 121 and the outlet 112 form a flow passage for the air flow. An air inlet pipeline mounting opening 122 is formed in the outer side surface of the inner container 1 and corresponds to the air inlet 121, the air inlet pipeline mounting opening 122 is communicated with an air inlet pipeline, and air flow enters the inner container 1 through the air inlet pipeline and the air inlet 121 sequentially through the air inlet pipeline mounting opening 122. In order to improve the drying efficiency, the blown air flow can adopt dry hot air, and the air flow can be discharged quickly by the air outlet 112 after carrying moisture, so that the temperature inside the inner container 1 is improved, the humidity of the inner container 1 can be reduced quickly, and the drying effect is better. As shown in fig. 17, an exhaust hood 1121 is fixed to the outer side of the rear wall surface 11 of the inner container 1 at a position corresponding to the exhaust port 112, the exhaust hood 1121 is further connected to an exhaust duct 1122, and the exhaust duct 1122 is finally communicated with an exhaust device such as an exhaust pump or an exhaust fan, so that the moisture in the inner container 1 is rapidly extracted by the exhaust device to extract the water vapor, thereby reducing the humidity in the inner container 1.

As shown in fig. 7, 8, 16 and 17, a rotary shower arm 6 for cleaning the inner container 1 is fixed to the center of the top surface 14, and the rotary shower arm 6 is fixed to a rotary shower arm mounting portion 141 of the top surface 14 of the inner container 1 via a mounting post 7. The rotary spray arm 6 is provided with a snap ring, the lower end of the mounting column 7 is provided with a buckle, and the snap ring and the buckle are matched to ensure that the rotary spray arm 6 is in clamping fit (rotation fit) at the lower end of the mounting column 7. The rotary spray arm mounting part 141 comprises a groove 1411, a rotary spray arm mounting through hole 1412, a groove wall 1413 and a mounting column fixing cover 8 fixed outside the top surface 14 of the liner 1; the groove 1411 is formed in the center of the top surface 14, the rotary spray arm mounting through hole 1412 is formed in the center of the groove 1411, and the space occupation of the mounting column 7 in the inner container 1 is reduced by the arrangement of the groove 1411; the mounting post retaining cap 8 is secured to the notch outer wall 1414. The upper end of the mounting column 7 passes through the rotary spray arm mounting through hole 1412 and is fixed inside the mounting column fixing cover 8, and is sufficiently fixed by forming fit with the groove wall surface 1413; the mounting column fixing cover 8 is provided with a connector which is connected with or connected with a water pipe, so that water is supplied to the rotary spray arm 6. The rotary spraying arms 6 are centrosymmetric with the mounting column 7, a plurality of water outlets are symmetrically arranged on the arms at two sides of the rotary spraying arms at intervals, and the water outlets are obliquely arranged. Because the slant setting of delivery port, when rotatory spray arm 6 blowout rivers, reaction force can form a rotation moment for rotatory spray arm 6 can take place rotatoryly around erection column 7, and then rotatory spray arm 6 spun rivers can carry out abundant cleanness to each position of inner bag 1 inside. It should be noted that the inclination directions of the water outlets on the two sides are opposite, so that the rotation moments generated by the reaction forces are kept consistent when all the water outlets eject water.

As shown in fig. 2, 5, 6 and 14, parallel rail mounting portions 123 are provided on the left wall surface 12 and the right wall surface 13, specifically, parallel rail mounting holes 1231 are provided at intervals on the left wall surface 12 and the right wall surface 13, and the parallel rail mounting holes 1231 are fixedly connected with the parallel rail fixing holes 51 on the parallel rails 5 by fasteners (such as bolts, screws, etc.), so that the parallel rails 5 are fixed on the liner 1. According to the actual design condition and requirements, the parallel slide rails 5 can be fixed on the inner side of the liner 1 (the condition of the embodiment), the outer side of the liner 1 or the box body 100 so as to meet different structural requirements; in addition, the parallel slide rails 5 can be selected from multi-section telescopic slide rails according to the size of the liner 1 (which is equivalent to the size of a washable shoe), and usually, the two-section or three-section telescopic slide rails can meet most requirements. Referring to fig. 13, the front end of the parallel slide rail 5 is provided with a mounting hole 52 for a door cover of a shoe washing machine, which is matched with the mounting part 311 of the parallel slide rail on the door cover 3 of the shoe washing machine and fixedly connected with the mounting hole through a fastener (such as a bolt, a screw, etc.), so as to mount and fix the parallel slide rail 5.

As shown in fig. 2, 13, 14 and 15, the inner side of the door cover 3 of the shoe washing machine is provided with a mounting part 31 (including a parallel slide rail mounting part 311 and a shoe support frame mounting part 312), the parallel slide rail mounting part 311 is a pair of fixing pieces extending inwards, and the fixing pieces are provided with openings fixed with the parallel slide rails 5 through fasteners at intervals; the shoe support frame mounting portion 312 is a pair of hollow through protrusions, so that the shoe support frame support arms 43 of the shoe support frame 4 can be inserted into the through protrusions, and the shoe support frame 4 is put on the shoe support frame mounting portion 312, so that the shoe support frame 4 can move along the parallel slide rails 5 along with the shoe washing machine door cover 3. In addition, the inner side of the door cover 3 of the shoe washing machine is also provided with a lighting lamp 32, and the middle part of the door cover 3 of the shoe washing machine is made of transparent materials such as transparent glass or organic glass and the like and is provided with a transparent observation window 33; the illumination lamp 32 is located above the observation window 33. In use, the interior of the inner container 1 can be illuminated by turning on the illumination lamp 32, and then the cleaning condition of the interior can be observed through the observation window 33. As the door cover 3 of the shoe washing machine, the parallel slide rails 5 and the shoe support frame 4 which need to be pushed and pulled do not relate to a water path and a gas path pipeline, the design of a complex water path and a complex gas path is not needed, and the push-pull process is very easy compared with a transmission drawer type shoe washing machine. The bottom of the outer side of the door cover 3 of the shoe washing machine is fixedly provided with a handle, and a hidden handle or a bright handle can be adopted according to the requirements of customers.

The working principle is as follows:

before formal use, the door cover 3 of the shoe washing machine is pulled open, the door cover 3 of the shoe washing machine can take the shoe support frame 4 to be pulled out from the inner container 1 together, shoes to be washed are placed on the two shoe support parts 41 of the shoe support frame 4 respectively, then the door cover 3 of the shoe washing machine is pushed in and closed tightly, and then the shoe washing machine can be started to wash.

In the cleaning process, the rotary spraying pipes 2 can respectively rotate around the shoes under the drive of the motor, and meanwhile, clear water flowing through the rotary spraying pipes is sprayed out towards the shoes from the spraying ports 231 of the spraying pipes 23 to clean the vamps; the cleaned sewage falls to the bottom surface 15 and enters the drainage groove 152 along the flow guide surface 151, and then is discharged out of the shoe washing machine through the drainage opening 1521. And (5) after the cleaning is finished, entering a drying stage.

In the drying process, hot air flow is blown into the inner container 1 from the air inlet 121, and partial hot air flow directly enters the shoe to be dried because the air inlet 121 is over against the shoe opening; meanwhile, the air flow with water is discharged out of the shoe washing machine through the air outlet 112; under the action of the continuous hot air flow, the moisture is quickly carried away and evaporated by the flowing air flow and higher temperature, and then the drying is finished.

After the drying is finished, the shoe washing machine door cover 3 is pulled open, the washed and dried shoes are taken out, and then the shoe washing machine door cover 3 is pushed in and closed tightly, so that the washing of the shoes is finished.

When cleaning is required, the rotary spray arm 6 can be started to clean the inner container 1. After water is supplied to the rotary spray arm 6, the obliquely arranged water outlet can provide reaction force for the rotary spray arm 6 and generate rotary torque, so that the rotary spray arm 6 can rotate without being driven by a motor, and all inner wall surfaces of the inner container 1 are fully cleaned.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (10)

1. A push-pull type shoe washing machine is characterized by comprising a shoe washing machine body (1000) formed by assembling a box body (100) and an inner container (1), a rotary spray pipe (2), a shoe washing machine door cover (3) and a shoe supporting frame (4);

the shoe washing machine door cover (3) is slidably mounted on the shoe washing machine body (1000) through a parallel sliding rail (5), the rotary spray pipe (2) is rotatably mounted inside the inner container (1), and the shoe support frame (4) is mounted on the inner side of the shoe washing machine door cover (3);

the rotary spraying pipe (2) is respectively connected with a water source and a motor through a rotary joint;

the spraying range of the rotary spraying pipe (2) covers the shoe support frame (4);

the bottom of the shoe washing machine body (1000) is provided with a water outlet (1521).

2. A push-pull type shoe washing machine according to claim 1, characterized in that the rotary spray pipe (2) is provided with a spray arm (22) and a pair of spray pipes (23), the inside of the rotary spray pipe (2) is a cavity for water flow to pass through; the spraying pipe (23) is connected to two ends of the spraying arm (22); the spraying pipes (23) are provided with spraying openings (231) at intervals, and the spraying openings (231) on the two spraying pipes (23) are arranged oppositely.

3. A push-pull type shoe washing machine as claimed in claim 2, wherein the rotary spray pipes (2) are provided in a pair and symmetrically installed inside the inner container (1); the shoe support frame (4) comprises a connecting bridge (42) and a pair of shoe supporting parts (41), the two shoe supporting parts (41) are fixedly connected through the connecting bridge (42), and a space capable of passing through the rotary spraying pipe (2) is formed between the two shoe supporting parts (41).

4. A push-pull shoe washing machine according to claim 3, characterized in that the shoe support (41) comprises a body support (411) and a collar support (412); the shoe washing machine is characterized in that the side wall of the shoe washing machine body (1000) is respectively provided with an air inlet (121) and an air outlet (112), and the air inlet (121) is arranged right opposite to the shoe opening supporting part (412).

5. A push-pull shoe washing machine according to claim 1, characterized in that the bottom surface (15) of the inner container (1) comprises a flow guiding surface (151) and a drainage channel (152); the flow guide surface (151) is obliquely arranged and forms an included angle of 0.1-2 degrees with the horizontal plane; the drainage groove (152) is connected to the lower end of the flow guide surface (151); the water outlet (1521) is arranged in the water discharge groove (152), and the water discharge groove (152) inclines towards the water outlet (1521) to enable the water outlet (1521) to be at a low position.

6. A push-pull shoe washing machine according to claim 5, characterized in that a water baffle (153) is arranged at the end of the drainage channel (152) away from the flow guide surface (151), and the water baffle (153) forms an angle of 45-85 ° with the horizontal plane.

7. A push-pull shoe washing machine according to claim 1, characterized in that the shoe washing machine further comprises a rotary spray arm (6), the rotary spray arm (6) is rotatably mounted on the top surface (14) of the inner container (1) through a mounting post (7); the inner part of the rotary spraying arm (6) is a cavity for water flow to pass through, and the rotary spraying arm (6) is connected with a water source; the rotary spraying arm (6) is provided with water outlets at intervals, the water outlets are obliquely arranged, and a rotary torque is formed when water flow is sprayed out to drive the rotary spraying arm (6) to rotate.

8. A push-pull shoe washing machine according to claim 7, characterized in that the top surface (14) of the inner container (1) is provided with a rotary spray arm mounting part (141), the rotary spray arm mounting part (141) comprises a rotary spray arm mounting through hole (1412), and the mounting post (7) is arranged through the rotary spray arm mounting through hole (1412).

9. Push-pull type shoe washing machine according to claim 1, characterized in that the parallel sliding rails (5) are multi-section telescopic sliding rails.

10. A push-pull type shoe washing machine as claimed in claim 1, wherein an observation window (33) is provided on the door cover (3) of the shoe washing machine, and a lighting lamp (32) is provided inside the door cover (3) of the shoe washing machine.

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