CN115316794A - Rotary-type wooden cabinet that has function of disinfecting - Google Patents

Abstract

The invention discloses a rotary wood cabinet with a sterilization function, which comprises a wood shoe cabinet, two groups of rotary cabinet doors arranged on the surface of the wood shoe cabinet oppositely and sealing strips arranged at the edge positions of the surfaces of the rotary cabinet doors, wherein a driving shaft is arranged between the inner walls of the top end and the bottom end of the wood shoe cabinet, a driving mechanism is arranged on the driving shaft, a surface drying mechanism is arranged on the driving mechanism, a dehumidifying mechanism is arranged on the surface drying mechanism, impurity removing mechanisms are arranged on the driving shafts above the rotary cabinet doors, and a dust collecting mechanism is arranged at the bottom end of the wood shoe cabinet. According to the invention, through arranging a series of structures, the surfaces and the interiors of the shoes are dried, the power is automatically cut off after the drying is finished, the cost is saved, the safety is improved, the mud and the impurities are automatically removed, the unified collection can also be carried out, the later cleaning is not needed, the time and the labor are saved, the automatic cleaning effect is formed, the resource utilization rate is improved, the internal environment of the wooden shoe cabinet is purified, and the cleanliness is improved.

Description

Rotary-type wooden cabinet that has function of disinfecting

Technical Field

The invention relates to the technical field of living furniture equipment, in particular to a rotary wood cabinet with a sterilization function.

Background

The wooden cabinet is made of wood, and is customized into various furniture for daily use through modeling design, so that convenience is provided for storage of daily necessities of people, space can be decorated, and indoor space is diversified;

in life, the wooden cabinet can be also manufactured into a shoe cabinet for storing various shoes for daily use, the shoes for daily use are generally divided into indoor wearing and outdoor wearing, the indoor wearing is relatively clean, the indoor cleanliness is improved, the outdoor wearing is generally worn by people who go out and work often, after one day of work, the shoes are relatively wet due to foot sweat or long-time use, the comfort level of people wearing the shoes is affected after long-time accumulation, bacteria can be bred, the people with beriberi can be more serious, when the people are rainy, the vamp can be wet, the adhesion condition of impurities on the sole can be caused, the surface and the inside of the shoes can be wet, the wet environment can cause the breeding of bacteria, and the impurities can fall off in the shoe cabinet and are difficult to clean;

however, current intelligent shoe cabinet is only put into the shoe cabinet with shoes in, the sterilization of heaing up, only use the mode that the shoes were deposited to the storing box relatively, this mode has certain bactericidal effect, but, can only dry shoes surface through the mode that heaies up, can not dry to inside, then can lead to drying effect not obvious this moment, or promote the time of heating, make it carry out the stoving that lasts or artifical with hair-dryer pertinence stoving, this operation is wasted time and energy, and it can increase the electric energy loss to last to dry, extravagant unnecessary energy, also can be because the temperature lasts the rise damage vamp, after shoes are dried, sole impurity or mud piece can dry and drop, arrange in the shoe cabinet, also be convenient for the clearance.

Disclosure of Invention

The present invention is directed to a rotary wooden cabinet with sterilization function, so as to solve the problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a rotary-type wood cabinet that has function of disinfecting, includes wooden shoe cabinet, installs between the both sides inner wall of two sets of rotary-type cabinet doors that wooden shoe cabinet surface was laid relatively, rotary-type cabinet door surface border position department's sealing strip, wooden shoe cabinet laid jointly that indoor shoes put board and indoor shoes put board below rotary-type cabinet door evenly laid the gas pocket, the air duct has been laid relatively to the both sides inner wall of wooden shoe cabinet, and the air duct surface of rotary-type cabinet door top all is provided with impurity entry, and impurity rose box is all installed to the bottom of impurity entry, install the driving shaft jointly between the top inner wall of wooden shoe cabinet and the bottom inner wall, install actuating mechanism on the driving shaft, install surface drying mechanism on the actuating mechanism, install dehumidification mechanism on the surface drying mechanism, all install on the driving shaft of rotary-type cabinet door top impurity removal mechanism, dust collecting mechanism is installed to wooden shoe cabinet's bottom.

Preferably, actuating mechanism includes heat dissipation magnetic sheet pipe, dead lever, driven fan, circular telegram coil and hard return bend, and the parallel dead lever that has laid of wooden shoe cabinet top inner wall of driving shaft both sides, installs heat dissipation magnetic sheet pipe between the dead lever jointly, and the driving shaft surface of heat dissipation magnetic sheet pipe top has cup jointed driven fan, and the circular telegram coil has been cup jointed on the inside driving shaft surface of heat dissipation magnetic sheet pipe, and the parallel rigid return bend of installing in heat dissipation magnetic sheet pipe bottom of driving shaft both sides.

Preferably, surface drying mechanism installs on hard return bend, surface drying mechanism includes arc tube, air discharge duct, sterilamp and executive component, all installs the arc tube jointly between the inner wall of hard return bend air-out end and wooden shoe cabinet, and the air discharge duct has evenly been laid on the bottom surface of arc tube, installs the sterilamp on the arc tube of air discharge duct below, and executive component installs the top at the arc tube.

Preferably, the execution unit comprises a limiting shaft seat, a driven shaft, a rotating blade and a first magnet, the limiting shaft seat is installed at the middle position of the top end of the arc-shaped pipe, the driven shaft is sleeved inside the limiting shaft seat, the upper portion of the driven shaft is connected with the driving shaft through a belt pulley assembly, the lower portion of the driven shaft extends to the position below the arc-shaped pipe, the rotating blade is installed on the surface of the lower portion of the driven shaft, and the first magnet is installed on the surface of the bottom of the rotating blade.

Preferably, two sets of dehumidification mechanisms are vertically laid on the arc tube surface of the two sides of the limiting shaft seat, each dehumidification mechanism comprises a shoe cavity sleeve, a communicating air pipe, a sterilization and deodorization paste, a heating part and a protection control part, the shoe cavity sleeve is vertically laid on the arc tube surface of the two sides of the limiting shaft seat, the communicating air pipes are transversely installed on the surface of the shoe cavity sleeve, the sterilization and deodorization pastes are uniformly laid on the arc surface of the shoe cavity sleeve, the heating part is installed on the communicating air pipe, and the protection control part is installed on the heating part.

Preferably, the heater block includes the pressure boost trachea, heating wire spare, the heat insulating board, the spring that resets, high temperature resistant piston, synchronizing bar and second magnet, the pressure boost trachea is installed to the tracheal end of intercommunication, heating wire spare is installed to pressure boost tracheal bottom, two parallel heat insulating boards of pressure boost trachea inner wall of heating wire spare top have been laid, the spring that resets is all installed on the top of heat insulating board, install high temperature resistant piston between the spring that resets jointly, the synchronizing bar is installed on high temperature resistant piston's top, second magnet is installed on the top of synchronizing bar, second magnet uses with the cooperation of first magnet, protection control unit is all installed to the pressure boost trachea outer wall of heat insulating board top.

Preferably, the protection control part comprises a self-power-off box, a plastic metal sheet and a hard metal sheet, and the self-power-off box is mounted on the outer wall of the pressurization air pipe above the heat insulation plate.

Preferably, the impurity removing mechanism includes first helical gear, the second helical gear, the bearing frame, shovel impurity subassembly, adjusting part, drive adjusting plate, miniature reciprocal lead screw, reciprocal slider and wiping part, first helical gear has been cup jointed on the driving shaft surface of rotary-type cabinet door top, the bearing frame is all installed on the rotary-type cabinet door top of first helical gear both sides, install miniature reciprocal lead screw between bearing frame and the air duct jointly, the second helical gear is all installed to the miniature reciprocal lead screw terminal surface of bearing frame one side, the second helical gear uses with the cooperation of first helical gear, the miniature reciprocal lead screw surface movable mounting of bearing frame opposite side has reciprocal slider, drive adjusting plate is installed on the top of reciprocal slider, shovel impurity subassembly is installed to the bottom of reciprocal slider, install adjusting part between shovel impurity subassembly and the drive adjusting plate jointly, wiping part installs on drive adjusting plate.

Preferably, the wiping part is a scrubbing brush, and the top end of the hollow block of the drive adjusting plate is provided with the scrubbing brush.

Preferably, dust collecting mechanism includes granule storage bin, waste material fill, air guide hose, filter assembly, stoving frame and extraction fan, and granule storage bin is installed to the bottom of wooden shoe cabinet, and bottom one side surface mounting in granule storage bin has the waste material fill, and the air guide hose is all installed to the granule storage bin both sides surface of waste material fill top, and the terminal wooden shoe cabinet internally mounted of air guide hose has filter assembly, and the stoving frame is installed on granule storage bin top between the filter assembly, and the extraction fan is installed to the inside heating wire spare bottom in granule storage bin.

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

1. this rotary-type wooden cabinet that has function of disinfecting, through the electrical coil, the electrical coil after the circular telegram is high-speed rotatory under the inside magnetic path effect of heat dissipation magnetic sheet pipe, can by joule law, the circular telegram current produces the heat through the coil, thermal continuation stack is unfavorable for the use of electrical coil, thereby reduce its life, the hot-blast rigid return bend of derivation is discharged, thereby realize the cooling of electrical coil and handle, rigid return bend exhaust hot-blast transmission to the inside of arc pipe, the air discharge duct has evenly been laid on the bottom surface of arc pipe, the inside hot-blast inner loop that forms of arc pipe, the laying of air discharge duct this moment, to this interval inner hollow sterilizing, through the air discharge duct with hot-blast even discharge, can carry out drying process to follow-up shoes surface, the heat that utilizes mechanical energy to produce is collected, and utilize to drying, not only can protect the vamp not scalded, still can promote the utilization ratio of resource, reduce energy loss.

2. This rotary-type wooden cabinet that has function of disinfecting, rotary motion through the driving shaft, it is rotatory to drive the driven shaft, it is rotatory to drive rotating vane synchronous revolution by the driven shaft, it self possesses the basis weight to be first magnet, the rotation of driven shaft can make rotating vane synchronous revolution blow, the setting of first magnet can cooperate following structure to use, this place primary action is the rotatory inertia of the multiplicable rotating vane of setting up of first magnet, thereby make the rotating vane rotatory faster, and then promote wind-force, accelerate the hot-blast discharge of air discharge duct department, reduce the drying time of integrated device, promote the drying efficiency of vamp.

3. The rotary wood cabinet with the sterilization function has the advantages that the heating wire piece is connected with an external power supply, electric energy is converted into heat energy parts, the heat insulation plate is used for isolating temperature, a gap between the two groups acts on the flowing of gas, the reset spring is used for supporting the high-temperature resistant piston and providing elasticity, the high-temperature resistant piston is enabled to be assisted to ascend after descending, the first magnet is driven to synchronously rotate by the rotation of the rotating blade, the first magnet and the second magnet are permanent magnets with the same magnetic pole, according to the principle that like poles repel each other, the first magnet rotates along with the rotating blade, when the first magnet is in close contact with the second magnet, the second magnet is driven to move downwards by the action of magnetic force, the synchronous rod is driven to enable the high-temperature resistant piston to move downwards, and when the first magnet does not contact with the second magnet after rotating, the magnetic force disappears, through the ascending principle of reset spring and hot-air and inside hot gas atmospheric pressure change, make high temperature resistant piston tentatively upwards ejecting, form a small-range reciprocating motion promptly, thereby discharge the inside gas of pressurized air pipe and heating wire spare surface temperature from communicating trachea, and carry to the inside of shoes chamber sheathed tube through communicating trachea, because shoes chamber sleeve pipe only has an open end, thereby hot-blast through open end input to inside the shoes, and through the reciprocating motion of high temperature resistant piston, again with the inside gas suction pressurized air pipe's of shoes inside, form heat exchange, then with hot-air input, carry out the heat exchange with shoes inside with the mode of blowing and sucking, form the quick drying effect, pertinence heat treatment, make shoes have the shortest time to accomplish the drying, promote user's the shoes comfort level of wearing, and reduce the loss of the energy.

4. This rotary-type wood cabinet that has function of disinfecting through shoes chamber sleeve pipe, and the inside gas suction of shoes returns, and when the temperature was greater than the temperature of heating wire spare, the temperature was greater than the temperature that heating wire spare then represented whole device and is overlapping, and the device then is in the dry state this moment, represents the stoving completion promptly, automatic disconnection power this moment to avoid the temperature to last too high shoes of burning, still can reduce the loss of electric energy, practice thrift the cost, promote the security.

5. Because cup joint after the shoes drying on the shoes chamber sleeve pipe, the impurity or the earth drying of its sole easily drop, this moment in through scrubbing brush and sole reciprocal friction, clear away bottom earth or impurity, because the reason of gravity, then can drop to the rotatory cabinet door on the surface, can not clear up the shoe cabinet every day because people work busy, the reciprocating motion of reciprocal slider this moment then can drive shovel impurity subassembly and shovels on the surface of rotatory cabinet door, thereby form the action of shovel impurity, promote when miniature reciprocal lead screw is terminal, shovel impurity subassembly then can push impurity to the impurity entrance, and the air duct falls into and collects in the air duct, furthermore, in order to prevent shovel impurity subassembly when reciprocal playback, the shoes bottom impurity that drops again, the other end of drive regulating plate and the surface contact of air duct and form the extrusion this moment, the drive regulating plate moves in the inside of reciprocal slider, thereby the removal of cooperation regulating assembly, upwards mention shovel impurity subassembly, make shovel impurity subassembly not contact with the top surface of rotatory cabinet door when playback, thereby avoided piling up impurity to be in the position, form automatic clear up and clear up with the soil, still can unify, the laborsaving effect of collecting later stage does not need not clear up.

6. The rotary motion of driving shaft drives the extraction fan and blows downwards, thereby make the top in granule storage storehouse form the negative pressure, thereby suction impurity rose box exhaust filtered air, the stoving frame can be used as the wet water shoes after washing and brush and place, be convenient for the stoving of shoes, and promote the rate of utilization of resource, hot-blast is sucked to the inside in granule storage storehouse, transmission to filter assembly department through the air guide hose again, filter once more, hot-blast upwards blowing after the filtration, and blow to indoor shoes and put board department, hot-blast through indoor shoes and put board surface is passing through the gas pocket, thereby can dry the indoor shoes of board top is put to the indoor shoes, for example slippers, form thermal cycle, promote the utilization ratio of resource, and purify wooden shoe cabinet internal environment, promote the clean degree.

Drawings

FIG. 1 is a schematic view of the overall axial-side appearance structure of the present invention;

FIG. 2 is a schematic diagram of the internal cross-sectional structure of the present invention;

FIG. 3 is a partial schematic view of the present invention;

FIG. 4 is a schematic structural view of the arced tube of the present invention in elevation;

FIG. 5 is a schematic view of the right side of the shoe cavity sleeve of the present invention;

FIG. 6 is a schematic view of the structure at A in FIG. 3 according to the present invention;

FIG. 7 is a schematic view of the structure at B in FIG. 3 according to the present invention;

FIG. 8 is a schematic view of another operating condition of the impurity shoveling assembly of the present invention during reciprocation;

FIG. 9 is a schematic cross-sectional view of a particle storage bin according to the present invention;

FIG. 10 is a schematic top view of a drying rack according to the present invention;

fig. 11 is a schematic view of the internal appearance structure of the wooden shoe chest 1 in the state that the rotary-type cabinet door is opened according to the present invention;

fig. 12 is a schematic view showing an overall sectional structure of the interior of the wooden shoe chest 1 in a state where the rotary-type cabinet door of the present invention is opened;

fig. 13 is a cross-sectional enlarged structural schematic view of the self-power-off box of the present invention.

In the figure: 1. a wooden shoe cabinet; 101. a sealing strip; 102. rotating the cabinet door; 103. an indoor shoe placing plate; 104. an impurity filtering tank; 105. an air duct; 106. an impurity inlet; 107. air holes; 2. a heat dissipation magnetic sheet conduit; 201. a driven fan; 202. a drive shaft; 203. an electrified coil; 204. fixing the rod; 205. a hard bent pipe; 3. an arc tube; 301. a driven shaft; 302. an exhaust groove; 303. a sterilizing lamp; 304. a limit shaft seat; 305. a rotating blade; 306. a first magnet; 4. a shoe cavity sleeve; 401. the air pipe is communicated; 402. pressurizing the air pipe; 403. a synchronization lever; 404. a second magnet; 405. a high temperature resistant piston; 406. a reset spring; 407. a heat insulation plate; 408. an electric heating wire member; 409. a self-power-off box; 411. a plastic metal sheet; 412. a hard metal sheet; 413. sterilizing and deodorizing the paste; 5. a first helical gear; 501. a second helical gear; 502. a bearing bracket; 503. a impurity shoveling assembly; 504. an adjustment assembly; 505. driving the adjusting plate; 506. a scrubbing brush; 507. a micro reciprocating screw rod; 508. a reciprocating slide block; 6. a particle storage bin; 601. a waste hopper; 602. an air guide hose; 603. a filter assembly; 604. a drying rack; 605. an air extracting fan.

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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, 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.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1: as shown in fig. 1 to 12, the rotary wood cabinet with sterilization function of this embodiment includes a wood shoe cabinet 1, two sets of rotary cabinet doors 102 and sealing strips 101 at edge positions of the surfaces of the rotary cabinet doors 102, which are oppositely disposed on the surface of the wood shoe cabinet 1, indoor shoe placing plates 103 disposed below the rotary cabinet doors 102 and 102 are commonly disposed between inner walls of two sides of the wood shoe cabinet 1, the indoor shoe placing plates 103 are used for placing indoor shoes, most of the indoor shoes are of slipper type and are convenient to clean, and shoes are worn out relatively and completely, air holes 107 are uniformly disposed on the surfaces of the indoor shoe placing plates 103, air ducts 105 are correspondingly disposed on inner walls of two sides of the wood shoe cabinet 1, the air ducts 105 are actually used for guiding air in a cavity above the rotary cabinet doors 102 and are also used for transmitting impurities, through the arrangement of the rotary shoe cabinet 104, clean hot air can be discharged into the cavity at the bottom of the wood shoe cabinet 1, the surfaces of the air ducts 105 above the cabinet doors 102 are all provided with impurity inlets 106, the bottom ends of the impurity inlets 106 are all provided with filter boxes 104, the rotary shoe cabinet doors are commonly provided with the rotary cabinet doors 202, the rotary cabinet doors 202 are provided with driving shafts 202, the driving mechanisms for driving the wood shoe cabinet doors 202, the drying mechanisms are provided with the dust removing mechanisms 202, and the drying mechanisms are mounted on the surfaces of the drying mechanisms 1, and the drying mechanisms 1.

Specifically, as shown in fig. 2 and 3, the driving mechanism includes a heat-dissipating magnetic sheet conduit 2, fixing rods 204, a driven fan 201, an energizing coil 203 and a rigid elbow 205, the fixing rods 204 are disposed in parallel on the inner wall of the top end of the wooden shoe cabinet 1 on both sides of the driving shaft 202, the fixing rods 204 are perpendicular to the inner wall of the wooden shoe cabinet 1, which are actually fixed supports for the heat-dissipating magnetic sheet conduit 2, the heat-dissipating magnetic sheet conduit 2 is commonly installed between the fixing rods 204, the driven fan 201 is sleeved on the surface of the driving shaft 202 above the heat-dissipating magnetic sheet conduit 2, the driven fan 201 does not do rotation motion, which is actually driven to rotate synchronously by the rotation of the driving shaft 202, and when the fan blade structure of the driven fan 201 rotates, air is blown towards the inside of the heat-dissipating magnetic sheet conduit 2, which plays a role in guiding and cooling, the energizing coil 203 is sleeved on the surface of the driving shaft 202 inside the heat-dissipating magnetic sheet conduit 2, the energizing coil 203 is electrically connected with the energizing coil 203, which is electrically connected with the energizing coil 203 at both ends, and used by an external electric control component, the rotating electric coil 203 under the joule effect of the heat-dissipating magnetic block inside the heat-dissipating magnetic sheet conduit 2, thereby reducing the heat-dissipating magnetic sheet conduit 201, the heat-dissipating magnetic sheet conduit 202, which is formed by the rotating magnetic block 203, thereby reducing effect of the rotating magnetic sheet conduit 201, the rotating magnetic sheet conduit 203, the rotating magnetic sheet conduit 202, the rotating fan can be realized by the rotating magnetic sheet conduit 201, the rotating magnetic sheet conduit 205, heat-generating heat-dissipating magnetic sheet conduit, the heat-dissipating magnetic sheet conduit 203, the heat-generating coil 203, the heat-dissipating magnetic sheet conduit 205, the heat-generating heat-dissipating magnetic sheet conduit 203, thereby the heat-dissipating magnetic-generating coil 203, the heat-dissipating magnetic sheet conduit 205, hot air can be automatically formed, resource loss is reduced, and the service life of the device is prolonged.

Further, as shown in fig. 4 and fig. 3, the surface drying mechanism is installed on the rigid elbow 205, the surface drying mechanism includes an arc tube 3, an exhaust groove 302, a sterilizing lamp 303 and an executing component, the arc tube 3 is installed between the air outlet end of the rigid elbow 205 and the inner wall of the wooden shoe cabinet 1, hot air exhausted through the rigid elbow 205 is transmitted to the inside of the arc tube 3, the exhaust groove 302 is uniformly distributed on the bottom surface of the arc tube 3, the hot air inside the arc tube 3 forms an internal circulation, at this time, the exhaust groove 302 is distributed, so that the inside and the outside of the arc tube 3 form an intercommunicated state, thereby uniformly exhausting the hot air inside the arc tube 3 out of the bottom surface of the arc tube 3, the sterilizing lamp 303 is installed on the arc tube 3 below the exhaust groove 302, the sterilizing lamp 303 is connected for use through an external electronic control component, the sterilizing lamp 303 is an existing sterilizing product, the executing component is installed on the top end of the arc tube 3, the hot air is uniformly exhausted through the exhaust groove 302, the subsequent shoe surface can be dried, heat generated by using mechanical energy can be dried, not only, but also can be protected from being lost, and the energy utilization rate can be increased, and the resource utilization rate can be reduced.

Further, as shown in fig. 4 and 3, the executing component includes a limiting shaft seat 304, a driven shaft 301, a rotating blade 305 and a first magnet 306, the limiting shaft seat 304 is installed at the middle position of the top end of the arc tube 3, the driven shaft 301 is sleeved inside the limiting shaft seat 304, the driven shaft 301 can rotate inside the limiting shaft seat 304, the limiting shaft seat 304 can limit and support the driven shaft 301, the upper portion of the driven shaft 301 is connected with the driving shaft 202 through a belt pulley assembly, the lower portion of the driven shaft 301 extends to the lower portion of the arc tube 3, the rotating blade 305 is installed on the lower portion surface of the driven shaft 301, the rotating blade 305 is of a fan blade structure and does not do rotating motion, the driven shaft 301 is driven to rotate synchronously through the rotation of the driving shaft 202, the rotating blade 305 rotates downwards, the first magnet 306 is installed on the bottom surface of the rotating blade 305, the first magnet 306 is fixedly installed at the edge position of the bottom surface of the rotating blade 305, the first magnet 306 is a unipolar magnet, the dehumidifying mechanism is used in cooperation with the dehumidifying mechanism, the first magnet 306, the first magnet 301 has a certain weight, the inertia of the rotating blade 305 can increase the drying efficiency of the rotating blade 305, and the drying efficiency of the drying device is increased.

Further, as shown in fig. 5 and 4, two sets of dehumidifying mechanisms are longitudinally distributed on the surfaces of the arc pipes 3 on both sides of the limiting shaft seat 304, each dehumidifying mechanism comprises a shoe cavity sleeve 4, a communicating air pipe 401, a sterilizing and deodorizing paste 413, a heating component and a protection control component, the shoe cavity sleeves 4 are longitudinally distributed on the surfaces of the arc pipes 3 on both sides of the limiting shaft seat 304, the shoe cavity sleeves 4 adopt hollow pipelines with high hardness, the bottoms of the shoe cavity sleeves 4 are arc-shaped under a side view angle, the arc-shaped structures are designed to be in line with the structures of shoe inner cavities, so that shoes can be sleeved conveniently, placement and limiting support of outdoor shoes can be achieved, and the interiors of outdoor shoes can be better dried in a mode that air outlets at the bottoms of the shoe cavity sleeves 4 extend to the inner cavities at the front parts of the shoes, the surface of shoe cavity sleeve pipe 4 all transversely installs intercommunication trachea 401, intercommunication trachea 401 and shoe cavity sleeve pipe 4 form the intercommunication state, the supporting role to the part is gone up to the flow of here usefulness gas, evenly laid sterilization deodorization subsides 413 on shoe cavity sleeve pipe 4's the arcwall face, be used as the physical absorption to the absorption of bacterium and stink, design through shoe cavity sleeve pipe 4 arc structure, make shoe cavity sleeve pipe 4 can carry out spacing support to shoes commonly used or the outdoor shoes that just changed, and shoe cavity sleeve pipe 4's gas outlet extends to the shoes inner chamber, be located the inside sole position department of shoes, can carry out the degerming through sterilization deodorization subsides 413 to inside this moment and inhale the stink, still can support to the shoes that just changed and hang.

Further, on the basis as shown in fig. 6 and 3, the heating component includes a pressurized air pipe 402, an electric heating wire 408, a heat insulation plate 407, a return spring 406, a high temperature resistant piston 405, a synchronization rod 403 and a second magnet 404, the pressurized air pipe 402 is installed at the end of the communication air pipe 401, the pressurized air pipe 402 is a closed pipe body, an opening is formed at the top and one side surface thereof, the electric heating wire 408 is installed at the bottom of the pressurized air pipe 402, the electric heating wire 408 is a conventional product, and is a component for converting electric energy into heat energy by connecting an external power supply, two heat insulation plates 407 are arranged in parallel on the inner wall of the pressurized air pipe 402 above the electric heating wire 408, the heat insulation plate 407 and the inner wall of the pressurized air pipe 402 are in a vertical state, the two groups 407 are arranged oppositely, a gap exists between the two heat insulation plates 407, the heat insulation plate is used for isolating temperature, the gap acts on the flow of gas, the top end of the heat insulation plate 407 is installed with the return spring 406, the return spring 406 is used for supporting the high temperature resistant piston 405, provides an elastic force, so that the high temperature resistant piston 405 assists the rising thereof after descending, the first magnet 306 and the second magnet 404 are permanent magnets with the same magnetic pole, according to the principle that like poles repel each other, the first magnet 306 rotates along with the rotating blade 305, so that when the high temperature resistant piston is in close contact with the second magnet 404, the second magnet 404 is driven to move downwards through the action of magnetic force, the synchronous rod 403 is synchronously driven to enable the high temperature resistant piston 405 to move downwards, when the first magnet 306 does not contact with the second magnet 404 after rotating, the magnetomotive force disappears, the high temperature resistant piston 405 is temporarily ejected upwards through the return spring 406 and the rising principle of hot air and the pressure change of internal hot gas, namely, a reciprocating motion with a small amplitude is formed, so that the gas inside the pressurized gas pipe 402 and the surface temperature of the electric heating wire 408 are discharged from the communicated gas pipe 401, and carry to the inside of shoes chamber sleeve pipe 4 through intercommunication trachea 401, because shoes chamber sleeve pipe 4 only has an open end, thereby it is inside to hot-blast through the open end input to shoes, and through the reciprocating motion of high temperature resistant piston 405, again with the inside gas suction of shoes inside pressurized air pipe 402's inside, form heat exchange, then with hot air input, carry out the heat exchange with shoes inside with the mode of blowing and sucking, form the quick drying effect, pertinence heat treatment, make shoes have the shortest time to accomplish the drying, promote user's the shoes comfort level of wearing, and reduce the loss of the energy.

The working principle of the invention is as follows: as shown in fig. 3, the energized coil 203 rotates at a high speed under the action of the magnetic block inside the heat dissipation magnetic sheet conduit 2, which can be obtained by joule's law, the energized current generates heat through the coil, the continuous superposition of the heat is not beneficial to the use of the energized coil 203, thereby reducing the service life of the energized coil, the energized coil 203 rotates and simultaneously drives the coaxially connected driving shaft 202 to rotate, the rotation of the driving shaft 202 drives the driven fan 201 to rotate synchronously, during the rotation, the driven fan 201 blows downwards, thereby performing heat exchange on the surface of the energized coil 203, thereby forming a cooling effect, and guiding hot air out of the interior of the heat dissipation magnetic sheet conduit 2, the bottom ends of the heat dissipation magnetic sheet conduits 2 at the two sides of the driving shaft 202 are provided with rigid bent pipes 205 in parallel, and the guided hot air is discharged through the rigid bent pipes 205, thereby realizing the cooling treatment of the energized coil 203, and also automatically forming hot air, reducing resource loss and prolonging the service life of the device;

as shown in fig. 3 and 4, hot air exhausted from the rigid bent pipe 205 is transmitted to the inside of the arc-shaped pipe 3, the exhaust grooves 302 are uniformly distributed on the bottom surface of the arc-shaped pipe 3, the hot air inside the arc-shaped pipe 3 forms an internal circulation, at this time, the exhaust grooves 302 are distributed to enable the inside and the outside of the arc-shaped pipe 3 to form a communicated state, so that the hot air inside the arc-shaped pipe 3 is uniformly exhausted from the bottom surface of the arc-shaped pipe 3, the sterilizing lamp 303 is connected and used through an external electric control component, the sterilizing lamp 303 is an existing common sterilizing part, and is hollow in the interval for sterilizing, the hot air is uniformly exhausted through the exhaust grooves 302, so that the subsequent shoe surface can be dried, and heat generated by mechanical energy is utilized for drying, so that not only the shoe upper can be protected from being scalded, but also the utilization rate of resources can be improved, and energy loss can be reduced;

as shown in fig. 4 and fig. 3, the driven shaft 301 is driven to rotate by the rotation of the driving shaft 202, the driven shaft 301 drives the rotating blades 305 to rotate synchronously, the first magnet 306 has a certain weight, the rotating blades 305 can rotate synchronously to blow air by the rotation of the driven shaft 301, the arrangement of the first magnet 306 can be used in cooperation with the following structure, which mainly functions in that the arrangement of the first magnet 306 can increase the rotation inertia of the rotating blades 305, so that the rotating blades 305 rotate faster, thereby improving the wind power, accelerating the discharge of hot air at the exhaust groove 302, reducing the drying time of the whole device, and improving the drying efficiency of the shoe upper;

as shown in fig. 4 and 5, shoe cavity sleeve 4 has been vertically laid on the arc pipe 3 surface of spacing axle bed 304 both sides, shoe cavity sleeve 4 adopts the higher hollow pipeline of hardness, its bottom is the arc form under the angle of looking sideways at, the design of this arc structure is the structure that accords with the shoes inner chamber, be convenient for cup joint of shoes, play and put and spacing the support to the outdoor shoes of wearing, through the mode that extends to the anterior inner chamber of shoes with shoe cavity sleeve 4 bottom air outlet, make the shoes inside of outdoor wearing can better dry, evenly laid sterilization deodorization subsides 413 on shoe cavity sleeve 4's the arc face, be used as the physical absorption to the absorption of bacterium and stink, through shoe cavity sleeve 4 arc structure's design, make shoe cavity sleeve 4 can carry out spacing support to shoes commonly used in general or the outdoor shoes that have just changed, and shoe cavity sleeve 4's gas outlet extends to the shoes inner chamber, be located the inside sole position department of shoes, stink can inhale the bacterium through sterilization deodorization subsides 413 to inside this moment, still can support the shoes that have just changed.

As shown in fig. 6 and 4, the heating wire 408 is a part for converting electric energy into heat energy by being connected to an external power source, the heat insulating plate 407 serves as insulation against temperature, and the gap between the two groups acts on the flow of gas, the return spring 406 is used for supporting the high temperature resistant piston 405, providing elastic force, so that the high temperature resistant piston 405 assists the high temperature resistant piston to ascend after descending, the rotation of the rotating blade 305 drives the first magnet 306 to rotate synchronously, the first magnet 306 and the second magnet 404 are permanent magnets with the same magnetic pole, according to the principle of like-pole repulsion, the first magnet 306 rotates with the rotating blade 305, so that when it comes into close contact with the second magnet 404, by the action of the magnetic force, thereby driving the second magnet 404 to move downwards, synchronously driving the synchronous rod 403 to make the high temperature resistant piston 405 move downwards, when the first magnet 306 does not contact with the second magnet 404 after rotating, the magnetic power disappears, the high temperature resistant piston 405 is temporarily ejected upwards through the reset spring 406, the rising principle of hot air and the change of the internal hot gas pressure, i.e., a small amplitude reciprocating motion is formed, so that the gas inside the pressurized gas pipe 402 and the surface temperature of the heating wire 408 are discharged from the communicating gas pipe 401, and are delivered to the inside of the shoe cavity sleeve 4 through the communicating gas pipe 401, since the shoe cavity sleeve 4 has only one open end, hot air is introduced into the interior of the shoe through the open end, and the gas in the shoe is pumped into the pressurized gas pipe 402 by the reciprocating motion of the high temperature resistant piston 405 to form heat exchange, then the hot air is input, the inside of the shoe is subjected to heat exchange in a blowing and sucking mode, a quick drying effect is formed, targeted heating treatment is performed, the shoe is dried in the shortest time, the shoe wearing comfort of a user is improved, and the energy loss is reduced.

Example 2: on the basis of embodiment 1, as shown in fig. 6 and 13, the rotary wooden cabinet with sterilization function of this embodiment further includes a self-power-off box 409, a plastic metal sheet 411 and a hard metal sheet 412, the self-power-off box 409 is installed on the outer wall of the pressurized air pipe 402 above the heat insulation plate 407, the self-power-off box 409 and the pressurized air pipe 402 form a metal contact, so as to form heat transfer, the heat insulation plate 407 is disposed to divide the pressurized air pipe 402 into an upper chamber and a lower chamber, when the temperature of the heating wire 408 is constant, the reciprocating motion of the high temperature resistant piston 405 is used to suck the air in the shoe cavity to the upper chamber, through the metal heat transfer, when the temperature is higher than the temperature of the heating wire 408, the temperature of the whole device is superposed, at this time, the plastic metal sheet 411 reaches the temperature of the deformation, the circuit of the whole device is disconnected, if heating is needed, a period of waiting for a period of time, the plastic metal sheet 411 is reset to be jointed with the metal sheet 412, the circuit is automatically closed, the shoe is not required, the power supply is sufficiently turned off, the shoe drying is completed, the cost is reduced, and the safety of the shoe is reduced, and the shoe drying is reduced.

The working principle of the invention is as follows: as shown in fig. 6 and 13, the air inside the shoe is sucked back, when the temperature is higher than the temperature of the heating wire 408, the temperature higher than the heating wire 408 indicates that the temperature of the whole device is superposed, and the device is in a dry state at the moment, namely, represents that the drying is completed, and the power supply is automatically switched off at the moment, so that the shoes are prevented from being continuously burnt by overhigh temperature, the loss of electric energy can be reduced, the cost is saved, and the safety is improved.

Example 3: on the basis of examples 1 and 2: as shown in fig. 7, 3, 5, 2 and 8, in the rotary type wooden cabinet with sterilization function of the present embodiment, further, the impurity removing mechanism includes a first bevel gear 5, a second bevel gear 501, a bearing bracket 502, an impurity shoveling assembly 503, an adjusting assembly 504, a driving adjusting plate 505, a micro reciprocating screw 507, a reciprocating slider 508 and a wiping component, the first bevel gear 5 is sleeved on the surface of the driving shaft 202 above the rotary type cabinet door 102, the first bevel gear 5 does not rotate by itself, and actually performs a synchronous motion by the rotation of the driving shaft 202, the rotating motion of the first bevel gear 5 drives the second bevel gears 501 at both sides to perform a meshing motion, the rotation of the driven fan 201 drives the micro reciprocating screw 507 to synchronously rotate, so that the reciprocating slider 508 performs a linear reciprocating motion on the micro reciprocating screw 507, since the shoes sleeved on the shoe cavity sleeve 4 are dried, the impurities or mud on the soles fall off onto the surface of the cabinet door 102 due to gravity, and the impurities or mud on the surface of the shoe soles of the shoe cabinet door 503 is driven to fall into the rotating type screw 503 to form impurities shoveling assembly 105, and shovel the impurities into the air duct 106, so as to perform a reciprocating motion, and shovel the impurity shovels the impurities into the air duct 106 into the rotating type cabinet door 102, and the air duct to collect impurities, as shown in the reciprocating motion of the rotating type cabinet door 102;

in addition, as shown in fig. 8, in order to prevent the bottom of the shoe from falling off the impurities again when the impurity shoveling assembly 503 returns to the original position in a reciprocating manner, the other end of the driving adjusting plate 505 contacts the surface of the air duct 105 to form a compression, the driving adjusting plate 505 moves inside the reciprocating slider 508, and the impurity shoveling assembly 503 is lifted upwards in cooperation with the movement of the adjusting assembly 504, so that the impurity shoveling assembly 503 does not contact the top end surface of the rotary-type cabinet door 102 when returning to the original position.

Further, as shown in fig. 7 and 5, the wiping part is a bristle brush 506, the bristle brush 506 is installed at the top end of the hollow block of the driving adjustment plate 505, the inner cavity of the outdoor shoe changing is arranged in the arc-shaped surface at the bottom of the shoe cavity sleeve 4, the shoe sole of the shoe faces outwards at the moment, namely, the shoe sole faces to the front view angle of the wooden shoe cabinet 1, the bristle brush 506 and the shoe sole perform reciprocating friction, soil or impurities at the bottom are removed, and the soil or the impurities fall off to the surface of the rotary cabinet door 102, so that the unified collection processing is performed.

The working principle of the invention is as follows: as shown in fig. 7, fig. 5, fig. 8, fig. 3 and fig. 2, after the shoes sleeved on the shoe cavity sleeve 4 are dried, the impurities or mud on the soles are dried and easily fall off, at this time, the shoes are rubbed with the soles in a reciprocating manner through the bristle brush 506, the mud or the impurities on the bottoms are removed, due to the gravity, the shoes fall off to the surface of the rotary-type cabinet door 102, and cannot be cleaned every day due to the fact that people work busy, at this time, the reciprocating motion of the reciprocating slide block 508 drives the shovel impurity assembly 503 to shovel the surface of the rotary-type cabinet door 102, so that the shovel impurity assembly forms the action of shoveling the impurities, when the shovel impurity assembly 503 is pushed to the tail end of the micro reciprocating screw rod 507, the shovel impurity assembly 503 pushes the impurities to the impurity inlet 106 and falls into the air duct 105 for collection, in addition, in order to prevent the shovel impurity assembly 503 from falling off again at the bottoms of the shoes when the shoe returns to the home, at this time, the other end of the driving adjusting plate 505 contacts the surface of the air duct 105 and forms extrusion, the driving adjusting plate 505 moves inside of the reciprocating slide block 508, so as to cooperate with the movement of the adjusting assembly 504, the lifting of the shovel assembly 503, so that the shovel impurity collecting of the impurities and the impurities do not need to be collected at the post-cleaning and do not to be collected at the post cleaning time, thereby, and do not need to be collected at the post cleaning time, and do not to be collected at the post cleaning device.

Example 4: on the basis of example 1: further, as shown in fig. 9, 2 and 10, the dust collecting mechanism includes a particle storage bin 6, a waste bin 601, an air guide hose 602, a filtering assembly 603, a drying rack 604 and a suction fan 605, wherein the rotation of the driving shaft 202 drives the suction fan 605 to blow downward, so that a negative pressure is formed at the top of the particle storage bin 6, thereby sucking the filtered air exhausted from the impurity filtering box 104, the drying rack 604 can be used as a washed wet water shoe storage for drying the shoes, and the utilization rate of resources is increased, the hot air is sucked into the particle storage bin 6, and then is transmitted to the filtering assembly 603 through the air guide hose 602 for re-filtering, and the filtered hot air is blown upward and blown to the indoor shoe storage plate 103, and the hot air passing through the surface of the indoor shoe storage plate 103 passes through the air holes 107.

The working principle of the invention is as follows: as shown in fig. 2 and 9, the rotation of the driving shaft 202 drives the suction fan 605 to blow downward, so that a negative pressure is formed at the top of the particle storage bin 6, so as to suck the filtered air exhausted from the impurity filtering box 104, the drying rack 604 can be used for placing washed wet water shoes, so as to facilitate drying of the shoes, and improve the utilization rate of resources, the hot air is sucked into the particle storage bin 6, is transmitted to the filtering component 603 through the air guide hose 602, is filtered again, blows upward the filtered hot air, and blows to the indoor shoe placing plate 103, and the hot air passing through the surface of the indoor shoe placing plate 103 passes through the air holes 107, so as to dry the indoor shoes at the top end of the indoor shoe placing plate 103, such as slippers, form heat circulation, improve the utilization rate of resources, and purify the internal environment of the wooden shoe cabinet 1, so as to improve the cleanliness.

The using method of the embodiment comprises the following steps: when outdoor shoes are subjected to surface drying, the electrified coil 203 rotates at a high speed under the action of the magnetic block inside the heat dissipation magnetic sheet conduit 2, which can be obtained according to Joule's law, the electrified current generates heat through the coil, the continuous superposition of the heat is not beneficial to the use of the electrified coil 203, so that the service life of the outdoor shoes is reduced, the electrified coil 203 rotates and simultaneously drives the driving shaft 202 of the coaxial connection to rotate, the driven fan 201 blows downwards, so that the surface of the electrified coil 203 is subjected to heat exchange, a cooling effect is formed, hot air can be led out of the inside of the heat dissipation magnetic sheet conduit 2, and the led hot air is discharged through the rigid bent pipe 205, so that the cooling treatment of the electrified coil 203 is realized, the hot air can be automatically formed, the resource loss is reduced, and the service life of the device is prolonged;

hot air exhausted by the rigid bent pipe 205 is transmitted to the inside of the arc-shaped pipe 3, the exhaust grooves 302 are uniformly distributed on the bottom end surface of the arc-shaped pipe 3, the hot air inside the arc-shaped pipe 3 forms internal circulation, at the moment, the exhaust grooves 302 are distributed to enable the inside and the outside of the arc-shaped pipe 3 to form a communicated state, so that the hot air inside the arc-shaped pipe 3 is uniformly exhausted out of the bottom surface of the arc-shaped pipe 3, the sterilizing lamp 303 is connected and used through an external electric control component, the sterilizing lamp 303 is a conventional and common sterilizing part, the inner space of the sterilizing part is hollow, the hot air is uniformly exhausted through the exhaust grooves 302, the subsequent shoe surface can be dried, and heat generated by mechanical energy is utilized for drying, so that not only can the shoe upper be protected from being scalded, but also the utilization rate of resources can be improved, and energy loss can be reduced;

the driven shaft 301 is driven to rotate through the rotation motion of the driving shaft 202, the driven shaft 301 drives the rotating blades 305 to rotate synchronously, the first magnet 306 has a certain weight, the rotating blades 305 can rotate synchronously to blow air through the rotation of the driven shaft 301, and the arrangement of the first magnet 306 can be matched with the structure for use, so that the arrangement of the first magnet 306 can increase the rotating inertia of the rotating blades 305, the rotating blades 305 can rotate faster, the wind power is improved, the discharge of hot air at the exhaust groove 302 is accelerated, the drying time of the whole device is shortened, and the drying efficiency of the shoe upper is improved;

when outdoor shoes are dried internally, shoe cavity sleeves 4 are longitudinally distributed on the surfaces of arc-shaped pipes 3 on two sides of a limiting shaft seat 304, the shoe cavity sleeves 4 are hollow pipelines with high hardness, the bottoms of the shoe cavity sleeves 4 are arc-shaped in side view, the arc-shaped structures are designed to be structures which accord with shoe inner cavities, the shoes can be conveniently sleeved, placing and limiting support for outdoor shoes are achieved, air outlets at the bottoms of the shoe cavity sleeves 4 extend to inner cavities at the front parts of the shoes, the interiors of outdoor shoes can be better dried, sterilization and deodorization pastes 413 are uniformly distributed on the arc-shaped surfaces of the shoe cavity sleeves 4 and used for adsorbing bacteria and physically adsorbing odor, through the design of the arc-shaped structures of the shoe cavity sleeves 4, the shoe cavity sleeves 4 can limit and support common shoes or outdoor shoes which are just changed, air outlets of the shoe cavity sleeves 4 extend to the shoe inner cavities and are located at the sole positions in the shoes, at the moment, the interiors of the shoes which are just changed can be sterilized and deodorized can be absorbed by the sterilization and deodorization pastes 413, and the interiors of the shoes can be supported and hung;

the heating wire 408 is connected with an external power supply to convert electric energy into heat energy, the heat insulation plate 407 is used for isolating temperature, a gap between two groups acts on the flow of gas, the reset spring 406 is used for supporting the high temperature resistant piston 405 to provide elasticity, so that the high temperature resistant piston 405 is assisted to ascend after descending, the rotation of the rotating blade 305 drives the first magnet 306 to synchronously rotate, the first magnet 306 and the second magnet 404 are permanent magnets with the same magnetic pole, according to the principle that like poles repel each other, the first magnet 306 rotates along with the rotating blade 305, when the first magnet is in close contact with the second magnet 404, the second magnet 404 is driven to downwards by the action of magnetic force, the synchronous rod 403 is synchronously driven to drive the high temperature resistant piston 405 to downwards move, and when the first magnet 306 does not contact with the second magnet 404 after rotating, the magnetomotive force disappears, through a reset spring 406, a hot air rising principle and internal hot gas pressure change, the high-temperature-resistant piston 405 is temporarily ejected upwards, namely, a small-amplitude reciprocating motion is formed, so that the gas in the pressurized air pipe 402 and the surface temperature of the heating wire 408 are discharged from the communicated air pipe 401 and are conveyed to the inside of the shoe cavity sleeve 4 through the communicated air pipe 401, as the shoe cavity sleeve 4 only has one open end, hot air is input into the shoe through the open end, the gas in the shoe is pumped into the pressurized air pipe 402 through the reciprocating motion of the high-temperature-resistant piston 405 to form heat exchange, then the hot air is input, the heat exchange is carried out on the inside of the shoe in a blowing and sucking mode, a quick drying effect is formed, targeted heating treatment is carried out, the shoe can be dried in the shortest time, the shoe wearing comfort of a user is improved, and the energy loss is reduced;

after the drying is finished, air in the shoes is sucked back, when the temperature is higher than that of the heating wire 408, the temperature higher than that of the heating wire 408 indicates that the temperature of the whole device is superposed, the device is in a dry state at the moment, namely, the drying is finished, and the power supply is automatically disconnected at the moment, so that the shoes are prevented from being burnt due to the continuously overhigh temperature, the loss of electric energy can be reduced, the cost is saved, and the safety is improved;

in the drying process, impurities fall off and the soles are cleaned, the impurities or soil on the soles are dry and easy to fall off after the shoes sleeved on the shoe cavity sleeve 4 are dried, at the moment, the shoes are rubbed with the soles in a reciprocating mode through a bristle brush 506, the soil or the impurities on the bottoms are cleaned, the impurities or the impurities on the bottoms can fall off to the surface of the rotary type cabinet door 102 due to gravity, the impurities cannot be cleaned every day due to the fact that people work busy, at the moment, the reciprocating motion of the reciprocating sliding block 508 can drive the impurity shoveling component 503 to shovel the surface of the rotary type cabinet door 102, so that the impurity shoveling action is formed, when the impurities are pushed to the tail end of the micro reciprocating screw 507, the impurities are pushed to the impurity shoveling component 503 to fall into the impurity inlet 106 and are collected in the air guide tube 105, in addition, in order to prevent the impurity shoveling component 503 from falling off again at the bottoms of the shoes when the shoes are returned, the other end of the driving adjusting plate 505 is in contact with the surface of the air guide tube 105 to form extrusion, the adjusting plate 505 is driven to move in the reciprocating sliding block 508, so that the impurities can not be lifted up with the surface of the rotating type cabinet door 503, so that the impurities can be collected, the impurities and the impurities can be automatically collected at the top end of the rotating type cabinet door 102 without being lifted and collected at the time-saving bearing frame, so that the impurities can be collected at the later period, and the impurities can be collected without being accumulated at the time saving and the impurities collecting device, the time saving and the impurities can be collected at the time saving effect of the time saving device;

in order to avoid the waste of hot air and reduce energy consumption in the drying process, the rotating motion of the driving shaft 202 drives the pumping fan 605 to blow downwards, so that negative pressure is formed at the top of the particle storage bin 6, so that filtered air exhausted by the impurity filtering box 104 is pumped, the drying rack 604 can be used for placing washed wet water shoes, the drying of the shoes is facilitated, the utilization rate of resources is improved, the hot air is pumped into the particle storage bin 6, is transmitted to the filtering component 603 through the air guide hose 602 to be filtered again, the filtered hot air is blown upwards and is blown to the indoor shoe placing plate 103, and the hot air on the surface of the indoor shoe placing plate 103 passes through the air holes 107, so that the indoor shoes at the top end of the indoor shoe placing plate 103 can be dried, for example, slippers are formed into heat circulation, the utilization rate of the resources is improved, the internal environment of the wooden shoe cabinet 1 is purified, and the cleanliness is improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a rotary-type wood cabinet that has function of disinfecting, including wooden shoe cabinet (1), install two sets of rotary-type cabinet doors (102) of laying relatively in wooden shoe cabinet (1) surface, sealing strip (101) of rotary-type cabinet door (102) surface border position department, lay jointly between the both sides inner wall of wooden shoe cabinet (1) rotary-type cabinet door (102) and the indoor shoes of rotary-type cabinet door (102) below place board (103) and indoor shoes place the surface of board (103) and evenly lay gas pocket (107), its characterized in that: air duct (105) have been laid relatively to the both sides inner wall of wooden shoe cabinet (1), and air duct (105) surface of rotary-type cabinet door (102) top all is provided with impurity entry (106), and impurity rose box (104) are all installed to the bottom of impurity entry (106), install driving shaft (202) between the top inner wall of wooden shoe cabinet (1) and the bottom inner wall jointly, install actuating mechanism on driving shaft (202), install the surface drying mechanism on the actuating mechanism, install dehumidification mechanism in the surface drying mechanism, all install impurity removal mechanism on driving shaft (202) of rotary-type cabinet door (102) top, dust collecting mechanism is installed to the bottom of wooden shoe cabinet (1).

2. The rotary-type wooden cabinet with sterilization function as claimed in claim 1, wherein: actuating mechanism includes heat dissipation magnetic sheet pipe (2), dead lever (204), driven fan (201), circular telegram coil (203) and hard return bend (205), wooden shoe cabinet (1) top inner wall parallel arrangement of driving shaft (202) both sides has dead lever (204), install heat dissipation magnetic sheet pipe (2) between dead lever (204) jointly, driven fan (201) have been cup jointed on driving shaft (202) surface of heat dissipation magnetic sheet pipe (2) top, circular telegram coil (203) have been cup jointed on driving shaft (202) surface of heat dissipation magnetic sheet pipe (2) inside, heat dissipation magnetic sheet pipe (2) bottom parallel mounting of driving shaft (202) both sides has hard return bend (205).

3. The rotary type wooden cabinet with sterilization function as claimed in claim 2, wherein: the surface drying mechanism comprises an arc-shaped pipe (3), an exhaust groove (302), a sterilizing lamp (303) and an executing component, the arc-shaped pipe (3) is installed between the air outlet end of the rigid bent pipe (205) and the inner wall of the wooden shoe cabinet (1) together, and the executing component is installed at the top end of the arc-shaped pipe (3).

4. The rotary-type wooden cabinet with sterilization function as claimed in claim 3, wherein: the executing component comprises a limiting shaft seat (304), a driven shaft (301), a rotating blade (305) and a first magnet (306), and the limiting shaft seats (304) are mounted at the middle position of the top end of the arc-shaped pipe (3).

5. The rotary type wooden cabinet with sterilization function as claimed in claim 4, wherein: two sets of dehumidification mechanisms are vertically laid on the arc pipe (3) surface of spacing axle bed (304) both sides, dehumidification mechanism includes shoes chamber sleeve pipe (4), intercommunication trachea (401), sterilization deodorization subsides (413), heater block and protection control unit, and shoes chamber sleeve pipe (4) have vertically been laid on arc pipe (3) surface of spacing axle bed (304) both sides, and intercommunication trachea (401) are all transversely installed on the surface of shoes chamber sleeve pipe (4), evenly lay sterilization deodorization subsides (413) on the arcwall face of shoes chamber sleeve pipe (4), and the heater block is installed on heater block intercommunication trachea (401), and protection control unit installs on the heater block.

6. The rotary type wooden cabinet with sterilization function as claimed in claim 5, wherein: the heating part comprises a pressurized air pipe (402), an electric heating wire (408), a heat insulation plate (407), a return spring (406), a high-temperature-resistant piston (405), a synchronizing rod (403) and a second magnet (404), the pressurized air pipe (402) is installed at the tail end of the communicated air pipe (401), and a protection control part is installed on the outer wall of the pressurized air pipe (402).

7. The rotary type wooden cabinet with sterilization function as claimed in claim 5, wherein: the protection control component comprises a self-power-off box (409), a plastic metal sheet (411) and a hard metal sheet (412), and the self-power-off box (409) is installed on the outer wall of the pressurization air pipe (402) above the thermal baffle (407).

8. The rotary type wooden cabinet with sterilization function as claimed in claim 2, wherein: the impurity removing mechanism comprises a first bevel gear (5), a second bevel gear (501), a bearing frame (502), an impurity shoveling assembly (503), an adjusting assembly (504), a driving adjusting plate (505), a micro reciprocating screw rod (507), a reciprocating slider (508) and a wiping part, wherein the first bevel gear (5) is sleeved on the surface of a driving shaft (202) above the rotary cabinet door (102), and the wiping part is installed on the driving adjusting plate (505).

9. The rotary type wooden cabinet with sterilization function as claimed in claim 8, wherein: the wiping component is a bristle brush (506), and the bristle brush (506) is installed at the top end of the hollow block of the driving adjusting plate (505).

10. The rotary type wooden cabinet with sterilization function as claimed in claim 1, wherein: the dust collection mechanism comprises a particle storage bin (6), a waste hopper (601), an air guide hose (602), a filtering assembly (603), a drying rack (604) and an air suction fan (605), wherein the particle storage bin (6) is installed at the bottom end of the wooden shoe cabinet (1).

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