CN115900130B - Realize yarn intelligence categorised mould proof access cabinet that dehumidifies - Google Patents

Abstract

The application discloses a dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification, which comprises an access cabinet, wherein a display screen is fixedly connected to the access cabinet, an access port is arranged on the access cabinet, a grabbing manipulator capable of grabbing objects is arranged in the access cabinet, and a weighing table is arranged on the access cabinet. When the controller starts an external power supply to be connected with the semiconductor board, the two transition boxes can generate a cold source and a heat source respectively, at the moment, the controller starts the air pump in the driving box, when the air pump works, the air can be output from the first output pipe, so that the air can enter the filter cylinder, the air can be changed into cold air and hot air, and then the cold air and the hot air enter the storage box, so that materials can be stored at different temperatures, and meanwhile, the storage box at the middle position can store the materials at normal temperature, so that the storage requirement of workers is further met.

Description

Realize yarn intelligence categorised mould proof access cabinet that dehumidifies

Technical Field

The application relates to the technical field of yarn access cabinets, in particular to a dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification.

Background

The yarn is a product processed into a certain fineness by various textile fibers and is used for weaving, rope making, thread making, knitting, embroidery and the like, in the practical situation, the yarn is generally placed in a cabinet for storage in the storage process, when the existing cabinet is used, all the yarns are placed in the cabinet by a worker, then a ventilation device of the cabinet is started, so that the environment for storing the yarn is drier, the environment for storing the yarn is consistent when the yarn is placed, the environment for storing the yarn is higher than the environment for storing the yarn, and the environment for storing the yarn is lower than the environment for storing the yarn, so that the existing cabinet cannot meet the demands of the worker, and further the storage work of the worker is influenced

Therefore, we propose a damp-eliminating and mildew-proof access cabinet for realizing intelligent yarn classification to solve the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the application provides a dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification, which solves the problems in the background art.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides an realize intelligent categorised damp proof mould proof access cabinet of yarn, includes the access cabinet, fixedly connected with display screen on the access cabinet, be equipped with the access mouth on the access cabinet, be equipped with the grabbing manipulator that can snatch article in the access cabinet, be equipped with the weighing platform on the access cabinet, and the weighing platform is in the one side of access mouth;

the storage cabinet comprises a storage cabinet, wherein a vertical plate is fixedly connected to the inner bottom of the storage cabinet, a plurality of storage boxes are fixedly connected to the side walls of the vertical plate, a sealing assembly is connected to the storage boxes, and two symmetrical heat insulation boards are fixedly connected to the side walls of the vertical plate;

the vertical plate is fixedly connected with a driving box, the driving box is connected with a conducting component, the side wall of the vertical plate is fixedly connected with two transition boxes, the two transition boxes are connected with connecting components, and the two connecting components are respectively connected with the conducting component;

the driving box is connected with an air supply assembly, the transition boxes are connected with treatment drums, and the treatment drums are connected with drying assemblies;

one end of each drying assembly is connected with a filtering assembly, each filtering assembly is connected with a driving assembly, and one end of each air supply assembly is connected with each filtering assembly and each driving assembly respectively;

the two filter components are connected with bearing components, two collection components are inserted on the access cabinet, and the two collection components are respectively positioned below the two bearing components.

In this device, when the controller starts outside power switch-on semiconductor plate, thereby just can make two transition boxes produce cold source and heat source respectively, the air pump in the drive box is started to the controller this moment, when the air pump work, just can make gas export from first output tube, thereby just can make gas enter into the cartridge filter, just so can make gas become cold gas and hot gas, afterwards cold gas and hot gas enter into the case, thereby can make the material obtain the deposit of different temperatures, the case that is in intermediate position simultaneously can deposit the material under the normal atmospheric temperature state, further satisfy staff's storage demand.

In a preferred embodiment, the sealing assembly comprises a first motor fixedly connected to the storage box, a sealing door is rotatably connected to the storage box, a driving shaft of the first motor is connected with the sealing door, a photoelectric sensor is fixedly connected to the side wall of the sealing door, and a plurality of air outlet holes are formed in the output end of the storage box.

In a preferred embodiment, the conductive component comprises two copper plates fixedly connected to the inner side wall of the driving box, a plurality of semiconductor plates are arranged between the two copper plates, the semiconductor plates are respectively connected with the two copper plates, a plurality of copper blocks penetrate through the side wall of the driving box, and the copper blocks are respectively fixedly connected with the two copper plates.

In a preferred embodiment, the connecting component comprises insulating ceramic fixedly connected to the side wall of the transition box, a plurality of copper blocks are respectively connected with the insulating ceramic, a plurality of heat conducting blocks are fixedly connected to the side wall of the insulating ceramic, and radiating fins are fixedly connected to the side walls of the heat conducting blocks.

In a preferred embodiment, the air supply assembly comprises an air extraction box fixedly connected to the side wall of the driving box, the input end of the air extraction box penetrates through the side wall of the access cabinet and extends to the outer side, the output end of the air extraction box is fixedly connected with two first output pipes, and the two first output pipes are fixedly connected with second output pipes.

In a preferred embodiment, the drying assembly comprises a drying cylinder fixedly connected to the inner side wall of the treatment cylinder, the drying cylinder is filled with molecular sieves, a plurality of stirring blades are arranged in the drying cylinder, and a heating cylinder is fixedly connected to the outer side wall of the drying cylinder.

In a preferred embodiment, the filter assembly comprises a filter cartridge fixedly connected to the drying cylinder, the filter cartridge is connected to the drying cylinder through a plurality of connecting pipes, a filter plate is fixedly connected to the inner side wall of the filter cartridge, a plurality of cleaning plates are arranged in the filter cartridge, and one end of the first output pipe is connected to the filter cartridge.

In a preferred embodiment, the driving assembly comprises a rotary drum fixedly connected to the filter drum, a plurality of impellers are arranged in the rotary drum, a rotating shaft penetrates through the rotary drum, one end of the rotating shaft penetrates through the side walls of the filter drum and the drying drum and extends to the inside, the side walls of the rotating shaft are respectively connected with a plurality of cleaning plates and a plurality of stirring blades, the side walls of the rotating shaft are connected with the plurality of impellers, and one end of the second output pipe is connected with the rotary drum.

In a preferred embodiment, the bearing assembly comprises a collecting cylinder penetrating through the filter cylinder, one end of the collecting cylinder penetrates through the side wall of the treatment cylinder and extends to the lower portion, a baffle is arranged in the collecting cylinder, a second motor is fixedly connected to the side wall of the collecting cylinder, and a driving shaft of the second motor is connected with the baffle.

In a preferred embodiment, the collecting assembly comprises a jack arranged on the access cabinet, a collecting box is inserted in the jack, the collecting box is positioned below the collecting cylinder, and a pulling plate is fixedly connected to the side wall of the collecting box.

The application has the technical effects and advantages that:

1. when the controller starts an external power supply to be connected with the semiconductor board, the two transition boxes can generate a cold source and a heat source respectively, at the moment, the controller starts the air pump in the driving box, when the air pump works, the air can be output from the first output pipe, so that the air can enter the filter cartridge, the air can be changed into cold air and hot air, then the cold air and the hot air enter the storage box, so that materials can be stored at different temperatures, and meanwhile, the storage box at the middle position can store the materials in a normal temperature state, and further the storage requirement of workers is met.

2. The filter plate in the filter cartridge can filter dust in the gas, then the gas enters the drying cylinder with the aid of the connecting pipe, and the molecular sieve in the drying cylinder can filter moisture in the gas, so that the gas can be treated, the situation that materials are stored in an environment with more dust and moisture is further avoided, yarns are protected, and damage to the yarns is further avoided.

3. The valve on the first output pipe can be closed by the staff, the valve on the second output pipe is opened simultaneously, at the moment, when the air pump in the driving box works, air can enter the rotating cylinder along with the valve, then the cleaning plate can be further rotated along with the valve under the assistance of the air, the filter plate can be cleaned along with the valve, dust can be further dropped into the collecting cylinder, the controller starts the second motor, so that the dust can enter the collecting box, and then the staff pulls the pulling plate, so that the dust can be cleaned by the staff conveniently, and the work of the staff is facilitated.

4. When the impeller rotates, the rotating shaft also rotates, when the controller starts the electric heating wire in the heating cylinder, heat of the electric heating wire is transferred to the drying cylinder, and meanwhile, when the rotating shaft rotates, the molecular sieve can be further stirred, so that the molecular sieve can be heated more uniformly, and the service life of the molecular sieve is further prolonged.

Drawings

FIG. 1 is a schematic diagram of the structure of the present application;

FIG. 2 is a schematic view of a first view structure according to the present application;

FIG. 3 is a schematic view of a second view angle structure according to the present application;

FIG. 4 is a schematic view of a first partial connecting structure according to the present application;

FIG. 5 is a schematic diagram of the side view connection of FIG. 4;

FIG. 6 is a schematic view of a second partial connecting structure according to the present application;

FIG. 7 is a schematic view of a first partially cut-away connecting structure of the present application;

FIG. 8 is a schematic view of a partially enlarged connection structure at A in FIG. 7;

FIG. 9 is a schematic view of a third partial connecting structure according to the present application;

FIG. 10 is a first exploded view of FIG. 9;

FIG. 11 is a schematic view of a second exploded construction of FIG. 9;

fig. 12 is a schematic view of a partially enlarged connection structure at B in fig. 11.

The reference numerals are: 1 access cabinet, 2 display screen, 3 access port, 4 vertical plate, 5 storage box, 6 heat insulating board, 7 drive box, 8 transition box, 9 processing cylinder, 10 first motor, 11 door closing, 12 photoelectric sensor, 13 venthole, 14 copper plate, 15 semiconductor plate, 16 copper block, 17 insulating ceramic, 18 heat conducting block, 19 radiating fin, 20 air extraction box, 21 first output tube, 22 second output tube, 23 stoving cylinder, 24 heating cylinder, 25 stirring leaf, 26 cartridge, 27 filter plate, 28 cleaning plate, 29 rotary cylinder, 30 impeller, 31 spindle, 32 collecting cylinder, 33 baffle, 34 second motor, 35 jack, 36 collecting box, 37 pull plate.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1-12, a damp-eliminating and mildew-proof access cabinet for realizing intelligent yarn classification comprises an access cabinet 1, wherein a display screen 2 is arranged on the access cabinet 1, and particularly, a worker can start a controller through the display screen 2, further can select the type of an access object and the temperature of the object when the object is stored, and meanwhile, a grabbing device is connected to the access cabinet 1, wherein particularly, the grabbing device consists of an XYZ shaft guide rail and a grabbing manipulator, so that the function of taking the object in a storage box 5 can be completed.

Meanwhile, the vertical plates 4 are fixedly connected to the inner bottom of the access cabinet 1, the purpose of supporting the storage boxes 5 can be achieved through the vertical plates 4, the storage boxes 5 are multiple, the vertical plates 4 are divided into three areas, the storage boxes 5 in the heating area are three rows, the storage boxes 5 in the cooling area are three rows, and the storage boxes 5 in the normal temperature area are two rows, so that storage of different articles is met.

It is particularly noted that the storage box 5 is internally provided with the sealing door 11 which is connected through rotation, under the assistance of the rotating shaft, the sealing door 11 can be normally opened or closed, meanwhile, the storage box 5 is fixedly connected with the first motor 10, the first motor 10 is a servo motor, so that the sealing door 11 can be normally opened or closed, the sealing door 11 is fixedly connected with the photoelectric sensor 12, when the grabbing manipulator blocks the photoelectric sensor 12, the controller starts the first motor 10 along with the grabbing manipulator, so that the sealing door 11 can be opened, the storage box is convenient for placing or taking out articles, meanwhile, the storage box 5 is provided with the air outlet 13, the air can normally flow out, the articles can be further protected, and the damage and mildew of the articles are further avoided.

Meanwhile, the side wall of the vertical plate 4 is fixedly connected with the driving box 7, the inner side wall of the driving box 7 is fixedly connected with two copper plates 14, a plurality of semiconductor plates 15 are arranged between the two copper plates 14, the plurality of semiconductor plates 15 are respectively P-type semiconductor plates and N-type semiconductor plates, a plurality of copper blocks 16 penetrate through the side wall of the driving box 7, the plurality of copper blocks 16 are respectively connected with the plurality of semiconductor plates 15, meanwhile, the two copper plates 14 are connected with a direct current power supply, and particularly, the driving box 7 and the transition box 8 are made of a junyuan material, and insulation rings are arranged at the joints of the copper blocks 16, the transition box 8 and the driving box 7, so that current leakage is avoided.

Meanwhile, the connection parts of the transition boxes 8, the vertical plates 4 and the storage boxes 5 are all provided with through holes, so that gas can be normally discharged, meanwhile, the access cabinet 1 is provided with air outlets, which are not shown in the figure, the number of the transition boxes 8 is two, the transition boxes are respectively positioned at the left side and the right side of the driving box 7, insulating ceramics 17 are fixedly connected to the inner side walls of the transition boxes 8, heat conducting blocks 18 are fixedly connected to the side walls of the insulating ceramics 17, and radiating fins 19 are fixedly connected to the plurality of heat conducting blocks 18.

Meanwhile, when an N-type semiconductor material and a P-type semiconductor material are connected into a couple pair, after direct current is connected in the circuit, energy transfer is generated, the current absorbs heat from a joint of the N-type element flowing to the P-type element to become a cold end, and heat is released from a joint of the P-type element flowing to the N-type element to become a hot end, so that a cold source is generated in one transition box 8, a heat source is generated in the other transition box 8, and further, the temperature of the gas can be reduced or raised when the gas passes through.

Meanwhile, the transition box 8 is fixedly connected with the treatment cylinder 9, and particularly, the treatment cylinder 9 is communicated with the transition box 8, particularly, the inner side wall of the treatment cylinder 9 is fixedly connected with the drying cylinder 23, the drying cylinder 23 is filled with molecular sieves, the drying cylinder 23 is internally provided with a plurality of stirring blades 25, the stirring blades 25 are connected with the rotating shaft 31, meanwhile, the side wall of the drying cylinder 23 is fixedly connected with the heating cylinder 24, and the inner cavity of the heating cylinder 24 is provided with electric heating wires, particularly, the heating cylinder 24 and the drying cylinder 23 are made of heat conducting materials, so that workers can periodically start the electric heating wires, heat can be generated by the heating cylinder 24, and meanwhile, the stirring blades 25 can rotate along with the rotation of the rotating shaft 31, so that molecular sieves in the drying cylinder 23 can be heated, and further the molecular sieves can be reused along with the rotation.

Meanwhile, the side wall of the drying cylinder 23 is fixedly connected with a plurality of connecting pipes, the connecting pipes are made of hard plastics, one end of each connecting pipe is connected with one filter cartridge 26, and particularly, a separation net is arranged in each connecting pipe, so that the situation that a molecular sieve enters into the connecting pipe is avoided, meanwhile, the inner side wall of each filter cartridge 26 is fixedly connected with a filter plate 27, the filter plates 27 can filter dust, dust is slowly entering into the filter cartridges 26, a plurality of cleaning plates 28 are arranged in the filter cartridges 26, the cleaning plates 28 are composed of transverse plates and cleaning brushes, the cleaning brushes are contacted with the filter plates 27, when a rotating shaft 31 rotates, the cleaning plates 28 can rotate, and therefore dust on the filter plates 27 can be cleaned, and the service life of the filter plates 27 can be further prolonged.

Meanwhile, the filter cartridge 26 is provided with the collecting cylinder 32 in a penetrating manner, the collecting cylinder 32 is arranged at the bottom of the filter cartridge 26, and the filter plate 27 is arranged on one side of the collecting cylinder 32, so that dust can fall into the collecting cylinder 32 when the cleaning plate 28 rotates, meanwhile, the collecting cylinder 32 is provided with the baffle 33, the side wall of the collecting cylinder 32 is fixedly connected with the second motor 34, and the second motor 34 is connected with the baffle 33, so that the baffle 33 can rotate along with the second motor 34 when the second motor 34 works, and the dust of the collecting cylinder 32 can fall out.

Meanwhile, the storage cabinet 1 is provided with the jack 35 in a penetrating manner, and the collection box 36 is inserted into the jack 35, and particularly, the collection box 36 is arranged right below the collection cylinder 32, so that when the baffle 33 rotates, dust in the collection cylinder 32 can fall into the collection box 36, and therefore, a worker can conveniently pull the pull plate 37 and then clean the dust in the collection box 36, and cleaning work of the worker is facilitated.

Simultaneously, a rotary drum 29 is fixedly connected to the filter drum 26, a rotating shaft 31 is arranged on the rotary drum 29 in a penetrating manner, one end of the rotating shaft 31 extends into the filter drum 26 and the drying drum 23, a plurality of impellers 30 are fixedly connected to the side wall of the rotating shaft 31, and air outlet holes are formed in the rotary drum 29, not shown in the figure, so that normal use of the rotary drum 29 is met.

It is especially noted that the side wall of the driving box 7 is fixedly connected with the air extraction box 20, the inner side wall of the air extraction box 20 is fixedly connected with the air pump, the input end of the air pump extends to the outer side of the access cabinet 1, the output end of the air pump is fixedly connected with two first output pipes 21, the two first output pipes 21 are respectively provided with first valves, and one ends of the two first output pipes 21 are respectively connected with the filter cartridge 26, so that when the air pump works, gas is conveyed into the filter cartridge 26 along with the air pump, and especially note that the position of the first output pipe 21 is at a proper position on the filter cartridge 26 and is not the position illustrated in the drawing, so that air is prevented from directly rushing to the collecting cylinder 32, dust is raised, meanwhile, the two first output pipes 21 are fixedly connected with second output pipes 22, the two second output pipes 22 are respectively provided with second valves, one ends of the two second output pipes 22 are respectively connected with the rotating cylinder 29, and the output ends of the two second output pipes 22 are respectively aligned with the impeller 30, therefore, when the air pump works, the impeller 30 is blown by the air pump, the impeller 30 is further rotated, and the impeller 30 is enabled to rotate, so that the filter plate 25 can be cleaned, and the molecular sieve can be cleaned, and the impeller 25 can be rotated more evenly.

In the application, when the controller starts an external power supply to connect the semiconductor plate 15, after direct current is connected in the circuit, energy transfer is generated, the current flows from the N-type semiconductor plate to the joint of the P-type semiconductor plate to absorb heat to become a cold end, and the P-type semiconductor plate flows from the joint of the P-type semiconductor plate to the joint of the N-type semiconductor plate to release heat to become a hot end, so that two transition boxes 8 can respectively generate a cold source and a heat source, at the moment, the controller starts an air pump in the driving box 7, when the air pump works, gas can be output from the first output pipe 21, so that the gas can enter the filter cartridge 26, the filter plate 27 in the filter cartridge 26 can filter dust in the gas, then the gas can enter the drying cylinder 23 with the aid of the connecting pipe, and the molecular sieve in the drying cylinder 23 can filter moisture in the gas, then the gas passes through the two transition boxes 8, so that the gas can be changed into cold gas and hot gas, and then the cold gas and the hot gas enter the storage box 5, so that materials can be stored in the storage boxes 5 at different temperatures, and the same time, the requirements of the storage boxes in the working condition of the middle position can be further met, and the storage condition can be stored by people at normal temperature.

Simultaneously, a worker can close the valve on the first output pipe 21 and simultaneously open the valve on the second output pipe 22, at this time, when the air pump in the driving box 7 works, the air can be output into the second output pipe 22 along with the valve, so that the air can enter the rotating cylinder 29 along with the valve, then the impeller 30 can rotate along with the valve under the assistance of the air, so that the rotating shaft 31 can rotate along with the rotating shaft, the cleaning plate 28 can rotate along with the rotating shaft, so that the filter plate 27 can be cleaned along with the rotating shaft, the dust can drop into the collecting cylinder 32, the second motor 34 can be started by the controller, so that the baffle plate 33 can rotate along with the rotating shaft, the dust can drop below the collecting cylinder 32, so that the dust can enter the collecting box 36, and then the worker pulls the pulling plate 37, so that the worker can clean the dust conveniently, and the worker can work conveniently.

Meanwhile, when the impeller 30 rotates, the rotating shaft 31 also rotates, when the controller starts the electric heating wire in the heating cylinder 25, the heat of the electric heating wire is transferred to the drying cylinder 23, and meanwhile, when the rotating shaft 31 rotates, the stirring blade 25 can rotate, and the molecular sieve can be further stirred along with the stirring blade, so that the molecular sieve can be heated more uniformly, and the service life of the molecular sieve is further prolonged.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the application is not intended to limit the application to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the application are intended to be included within the scope of the application.

Claims (6)

1. The utility model provides an realize yarn intelligence categorised damping mould proof access cabinet, includes access cabinet (1), fixedly connected with display screen (2) on access cabinet (1), be equipped with access mouth (3) on access cabinet (1), be equipped with the snatch manipulator that can snatch article in access cabinet (1), be equipped with the weighing platform on access cabinet (1), and the weighing platform is in one side of access mouth (3), its characterized in that;

a vertical plate (4) is fixedly connected to the inner bottom of the access cabinet (1), a plurality of storage boxes (5) are fixedly connected to the side walls of the vertical plate (4), a sealing assembly is connected to the storage boxes (5), and two symmetrical heat insulation boards (6) are fixedly connected to the side walls of the vertical plate (4);

the vertical plate (4) is fixedly connected with a driving box (7), the driving box (7) is connected with a conducting component, the side wall of the vertical plate (4) is fixedly connected with two transition boxes (8), the two transition boxes (8) are connected with connecting components, and the two connecting components are respectively connected with the conducting component;

the driving box (7) is connected with an air supply assembly, the two transition boxes (8) are connected with treatment drums (9), and the two treatment drums (9) are connected with a drying assembly;

one end of each drying assembly is connected with a filtering assembly, each filtering assembly is connected with a driving assembly, and one end of each air supply assembly is connected with each filtering assembly and each driving assembly respectively;

the two filter assemblies are connected with bearing assemblies, two collection assemblies are inserted into the access cabinet (1), and the two collection assemblies are respectively positioned below the two bearing assemblies; the conduction assembly comprises two copper plates (14) fixedly connected to the inner side wall of the driving box (7), a plurality of semiconductor plates (15) are arranged between the two copper plates (14), the semiconductor plates (15) are respectively connected with the two copper plates (14), a plurality of copper blocks (16) penetrate through the side wall of the driving box (7), and the copper blocks (16) are respectively fixedly connected with the two copper plates (14);

the air supply assembly comprises an air extraction box (20) fixedly connected to the side wall of the driving box (7), the input end of the air extraction box (20) penetrates through the side wall of the access cabinet (1) and extends to the outer side, the output end of the air extraction box (20) is fixedly connected with two first output pipes (21), and the two first output pipes (21) are fixedly connected with second output pipes (22);

the drying assembly comprises a drying cylinder (23) fixedly connected to the inner side wall of the treatment cylinder (9), a molecular sieve is filled in the drying cylinder (23), a plurality of stirring blades (25) are arranged in the drying cylinder (23), and a heating cylinder (24) is fixedly connected to the outer side wall of the drying cylinder (23);

the filter assembly comprises a filter cylinder (26) fixedly connected to a drying cylinder (23), the filter cylinder (26) is connected with the drying cylinder (23) through a plurality of connecting pipes, a filter plate (27) is fixedly connected to the inner side wall of the filter cylinder (26), a plurality of cleaning plates (28) are arranged in the filter cylinder (26), and one end of a first output pipe (21) is connected with the filter cylinder (26).

2. The dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification according to claim 1, wherein the access cabinet is characterized in that: the sealing assembly comprises a first motor (10) fixedly connected to the storage box (5), a sealing door (11) is rotatably connected to the storage box (5), a driving shaft of the first motor (10) is connected with the sealing door (11), a photoelectric sensor (12) is fixedly connected to the side wall of the sealing door (11), and a plurality of air outlet holes (13) are formed in the output end of the storage box (5).

3. The dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification according to claim 1, wherein the access cabinet is characterized in that: the connecting assembly comprises insulating ceramics (17) fixedly connected to the side wall of the transition box (8), a plurality of copper blocks (16) are respectively connected with the insulating ceramics (17), a plurality of heat conducting blocks (18) are fixedly connected to the side wall of the insulating ceramics (17), and radiating fins (19) are fixedly connected to the side wall of the heat conducting blocks (18).

4. The dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification according to claim 1, wherein the access cabinet is characterized in that: the driving assembly comprises a rotating cylinder (29) fixedly connected to the filter cylinder (26), a plurality of impellers (30) are arranged in the rotating cylinder (29), a rotating shaft (21) is arranged on the rotating cylinder (29) in a penetrating mode, one end of the rotating shaft (21) penetrates through the side walls of the filter cylinder (26) and the drying cylinder (23) and extends to the inside, the side walls of the rotating shaft (21) are respectively connected with a plurality of cleaning plates (28) and a plurality of stirring blades (25), the side walls of the rotating shaft (21) are connected with the plurality of impellers (30), and one end of the second output tube (22) is connected with the rotating cylinder (29).

5. The dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification according to claim 1, wherein the access cabinet is characterized in that: the bearing assembly comprises a collecting cylinder (32) penetrating through the filter cylinder (26), one end of the collecting cylinder (32) penetrates through the side wall of the treatment cylinder (9) and extends to the lower portion, a baffle (33) is arranged in the collecting cylinder (32), a second motor (34) is fixedly connected to the side wall of the collecting cylinder (32), and a driving shaft of the second motor (34) is connected with the baffle (33).

6. The dehumidifying and mildew-proof access cabinet for realizing intelligent yarn classification according to claim 5, wherein the access cabinet is characterized in that: the collecting assembly comprises a jack (35) arranged on the access cabinet (1), a collecting box (36) is inserted in the jack (35), the collecting box (36) is positioned below the collecting barrel (35), and a pulling plate (37) is fixedly connected to the side wall of the collecting box (36).