CN113229625B

CN113229625B - Electronic damp-proof wardrobe with two split doors

Info

Publication number: CN113229625B
Application number: CN202110607573.0A
Authority: CN
Inventors: 李衡; 周学明; 朱祖安; 唐文雅
Original assignee: Zhuhai High Tech Zone Lenthem Technology Co ltd
Current assignee: Zhuhai High Tech Zone Lenthem Technology Co ltd
Priority date: 2021-06-01
Filing date: 2021-06-01
Publication date: 2022-02-01
Anticipated expiration: 2041-06-01
Also published as: CN113229625A

Abstract

The invention discloses an electronic dampproof wardrobe with split doors, which comprises a wardrobe body, the split doors and a gas circulation assembly, wherein the split doors are arranged on the side surfaces of the wardrobe body, the gas circulation assembly is arranged in the wardrobe body and drives air in the wardrobe body to circularly flow, and the air is dehumidified in the gas circulation assembly. The side of the cabinet body is provided with a split door to form a relatively closed space, and the inside of the cabinet body is provided with clothes airing rods, or object placing plates and other parts for placing clothes. The gas circulation assembly comprises a water storage tank, a circulation compressor, an exhaust pipe, an inflow pipe and a drain pipe, wherein the water storage tank and the circulation compressor are arranged at the bottom of the cabinet body, the circulation compressor is provided with a hydrophobic compression structure, the circulation compressor is externally provided with three interfaces for respectively exhausting, exhausting and draining, circulating air is firstly introduced into the water storage tank for water passing and dust removal, then clean gas enters the compressor for compression and water precipitation, and water precipitated in the compressor completely flows back into the water storage tank through the drain pipe at the tail stage of compression.

Description

Electronic damp-proof wardrobe with two split doors

Technical Field

The invention relates to the technical field of damp-proof wardrobes, in particular to an electronic damp-proof wardrobe with two split doors.

Background

The wardrobe is furniture commonly used by residents for placing clothes; the wardrobe needs to be protected against moisture to a certain extent, otherwise, the clothes placed for a long time are easy to damp and mildew in a closed space;

traditionally, water absorbent, camphor balls and the like are built in a wardrobe to prevent moisture and insects, in the prior art, more and more wardrobes are evolving towards intelligence and high-end, moisture-proof means are more and more advanced, an electronic dehumidification structure or a novel water-absorbing material is applied, however, the wardrobe in the prior art has the problems of insufficient dehumidification, dead corners of dehumidification and the like through a water-absorbing dehumidification mode, and for some requirements on sterilization, only one ultraviolet lamp is simply superposed to sterilize and degerming, the sterilization effect is only limited on the surface of clothes, and the sterilization is not thorough; the problem that the cleaning of dust inside the wardrobe is insufficient, dust adhered to clothes cannot be cleaned, and the problem needs to be solved in the process of pursuing an intelligent high-grade wardrobe.

Disclosure of Invention

The invention aims to provide an electronic moisture-proof wardrobe with two split doors, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a to make dampproofing wardrobe of door electron, includes the cabinet body, makes a door, gas circulation subassembly, and the cabinet body side sets up and makes a door, sets up the gas circulation subassembly in the cabinet body, and the gas circulation subassembly drives the cabinet body air circulation flow, and the air dehumidifies in the gas circulation subassembly. The side of the cabinet body is provided with a split door to form a relatively closed space, and the inside of the cabinet body is provided with clothes airing rods, or object placing plates and other parts for placing clothes.

Further, a light source is arranged in the cabinet body. When the door is opened, the light source provides illumination, and clothes are conveniently taken.

Further, a hygrometer is arranged in the cabinet body. The electronic hygrometer displays the humidity in the cabinet to provide visual data for the user.

Further, the gas circulation subassembly includes the storage water tank, the recycle compressor, the exhaust tube, the blast pipe, the inflow pipe, the drain pipe, storage water tank and recycle compressor set up the bottom at the cabinet is internal, the recycle compressor has hydrophobic compression structure, the recycle compressor has three interface to the outside, bleed respectively, exhaust and drainage, the storage water tank is connected to the recycle compressor through the inflow pipe, the inflow pipe sets up the check valve of admitting air with the junction of recycle compressor, the recycle compressor is connected to the internal clothing space of cabinet through the blast pipe, the junction of recycle compressor and blast pipe sets up the exhaust check valve, the recycle compressor still is connected to the storage water tank through the drain pipe, the junction of recycle compressor and drain pipe sets up the drainage check valve, the internal clothing space of cabinet is connected to exhaust tube one end, one end inserts in the storage water tank. The space air that the internal clothing of cabinet place gets into the exhaust tube in advance, after the dust is filtered to the internal water body of storage water tank, in the inflow pipe enters into the circulating compressor again, the circulating compressor gives the power that the air flows, at the compression link of circulating compressor, gas is after certain degree by the pressure boost in the compressor, and gas flows back toward the cabinet body from the blast pipe in advance, and moisture in the air is then compressed and condenses into water, and at the end stage of compression, liquid water flows back in the storage water tank from the drain pipe. In the compression step in the cycle compressor, the exhaust pressure can be adjusted by the exhaust one-way valve, the drainage pressure is adjusted by the drainage one-way valve, and the drainage pressure is higher than the exhaust pressure, so as to ensure that the drainage is carried out after the exhaust is carried out, wherein, the exhaust process of water precipitation exists, the gas discharged is the gas with saturated humidity under the temperature and the pressure, but the exhaust pressure is higher than the air pressure in the wardrobe by a certain value, so that after the gas is discharged to the position of underwear in the wardrobe body from the exhaust pipe, the gas expands, the pressure is reduced, the gas state is far away from the saturated state, and the gas which passes through the cycle compressor is in a low humidity state in the contact process with the underwear. Because the cyclic compressor is used for compressing and dewatering, air in the wardrobe firstly enters the water storage tank to filter dust through water, humidity cannot be improved, the dust can be prevented from entering the compressor needing to be kept in a clean state, the water in the water storage tank becomes dirty after being used for a period of time, the dirty speed is related to the dust amount of the use environment around the wardrobe, when more dust exists around the wardrobe and clothes are replaced by frequently opening and closing the door, the dirty time of the water in the water storage tank is short, and people need to pay attention to and replace the clean water.

Furthermore, the circulating compressor comprises a shell, a piston and a floating ball, wherein the piston is arranged in the shell and can slide along the inner wall of the shell, the piston is vertically arranged, the upper wall surface of the shell is respectively provided with an air inlet valve hole, an air outlet valve hole and a water outlet valve hole, the air inlet check valve is arranged in the air inlet valve hole, the air outlet check valve is arranged in the air outlet valve hole, the water outlet check valve is arranged in the water outlet valve hole, the upper surface in the shell is provided with a shell conical surface, the pointed top position of the shell conical surface is provided with a hemispherical shell groove, the upper surface of the piston is provided with a plug conical surface, the pointed top position of the plug conical surface is provided with a hemispherical plug groove, the slopes of the shell conical surface and the plug conical surface are equal, the floating ball is placed between the shell conical surface and the plug conical surface, the ball radiuses of the floating ball, the shell groove and the plug groove are equal, and the air outlet valve hole is connected with the shell groove; the air inlet one-way valve comprises an air inlet block, an air inlet spring, an air inlet nut and an air inlet rod, wherein the lower part of an air inlet valve hole is provided with a conical inclined surface with an upward conical tip, the upper end of the air inlet valve hole is provided with a step surface, the upper surface of the air inlet block is connected with the air inlet rod, the air inlet block upwards props against a conical surface at the lower end of the air inlet valve hole, the upper end of the air inlet rod is in threaded connection with the air inlet nut, and the air inlet nut tightly presses the air inlet spring and props against the step surface at the upper part of the air inlet valve hole; the exhaust check valve comprises an exhaust ball, an exhaust spring, an exhaust nut and an exhaust rod, wherein a conical inclined plane is arranged in the middle of an exhaust valve hole, threads are arranged at the upper end of the exhaust valve hole, the upper end of the exhaust ball is connected with the exhaust rod, the exhaust nut is a disc with threads on the outer edge, the exhaust nut is screwed at the upper end of the exhaust valve hole, the exhaust spring is arranged between the exhaust nut and the exhaust ball, the exhaust nut compresses the exhaust spring, the exhaust spring presses the exhaust ball to the conical inclined plane in the middle of the exhaust valve hole, a plurality of through holes are formed in the middle of the exhaust nut, and the exhaust rod upwards penetrates through the exhaust nut and is vertically guided by the exhaust nut; the drainage one-way valve comprises a drainage block, a drainage spring, a drainage nut and a drainage rod, wherein the lower part of a drainage valve hole is provided with a conical inclined plane with a downward conical tip, the upper end of the drainage valve hole is provided with a thread, the upper surface of the drainage block is connected with the drainage rod, the drainage nut is a disc with threads on the outer edge, the drainage nut is screwed at the upper end of the drainage valve hole, the drainage spring is arranged between the drainage nut and the drainage block, the drainage nut compresses the drainage spring, the drainage spring presses the drainage block to the conical inclined plane at the lower part of the drainage valve hole, the middle position of the drainage nut is provided with a plurality of through holes, and the drainage rod upwards passes through the drainage nut and is vertically guided by the drainage nut; the pretightening force of the drainage spring is greater than that of the exhaust spring.

In the air extraction process of the compressor, the exhaust check valve and the water discharge check valve are closed under the action force of respective springs, only the air inlet check valve is in an open state, when the piston runs to the lowest position, the air extraction period is finished, the piston moves upwards to start the compression process, the air inlet check valve is closed, when the compression process starts, the exhaust check valve and the water discharge check valve can not be opened immediately, when the compression air pressure reaches the pre-tightening force of the exhaust spring, the exhaust check valve is jacked open to start exhaust, after the exhaust check valve is jacked open, the air pressure in the shell keeps unchanged, if water is separated out from the air under the air pressure, the water is accumulated on the upper surface of the piston to float the floating ball, at the end stage of the exhaust process, the floating ball floats to be embedded into the shell groove, at the moment, the lower end of the exhaust valve hole is blocked, the water can not flow out from the exhaust pipe any more, and the space between the piston and the shell conical surface is further reduced along with the further upward movement of the piston, the water is pressed to the drainage check valve and pushes the drainage check valve to discharge, and the uppermost position of the piston is in a state that the plug conical surface, the shell conical surface and the floating ball are completely attached, so that the water in the machine shell is fully extruded.

Furthermore, the lower surfaces of the air inlet block and the water outlet block have the same inclination with the conical surface of the shell. The lower surfaces of the air inlet block and the water discharge block are provided with slopes equal to the conical surfaces of the shell, so that the lower ends of the air inlet block and the water discharge block can be prevented from accumulating gas in the exhaust process, and insufficient discharge can be realized in the exhaust process.

Further, the gas circulation assembly further comprises an air exhaust head and an air exhaust head, the air exhaust head is arranged at the end part of the air exhaust pipe far away from the water storage tank, the air exhaust head is arranged at the end part of the air exhaust pipe far away from the circulating compressor, and the air exhaust head are arranged one above the other in the clothing space of the cabinet body. The air inlet and outlet in the upper and lower positions sufficiently promote the air flow in the clothes space.

Further, the exhaust head is provided with a static spiral guide vane. The air flow discharged by the spiral guide vane spirally rises or falls, the spiral air flow is cut into two air flows when contacting with clothes, the two air flows have the same direction, but the directions of the two air flows are opposite, when one air flow obliquely collides with the clothes, the other air flow starts to be far away from the clothes, the pressure is lower, and the tangential flow can generate certain pressure difference at different positions on the two sides of the clothes to shake off dust on the clothes.

Further, an ozone generator is arranged on the exhaust pipe. The ozone generator injects some ozone into the clothes space for disinfection in a period of time or in the whole period of the beginning of gas circulation, the ozone disinfection has no dead angle, and the spiral airflow can fully send the gas into the fabric structure in the clothes to fully disinfect the clothes.

Furthermore, sealing strips are arranged on the cabinet body and the opening and closing surfaces of the split doors. The sealing strip prevents outside air from entering the cabinet after the split door is closed.

Compared with the prior art, the invention has the following beneficial effects: the split-spliced cabinet body has a larger internal space, can be provided with structures such as a self-selecting clothes hanging rod and a clothes placing plate, and is internally provided with a hygrometer for visually monitoring the internal humidity of the cabinet body; the air circulation assembly can promote the air in the cabinet body to flow, remove dust and reduce the humidity of the air; the humidity reduction is carried out by a compressed water separation mode, the circulating air is firstly introduced into a water storage tank for water passing and dust removal, then the clean air enters the compressor to be compressed, the exhaust pressure is higher than the higher degree of the clothing space in the cabinet body, therefore, if the moisture which is not separated out under the exhaust pressure does not separate out and adhere to the clothes in the clothes space, the moisture separated out in the compressor completely flows back into the water storage tank through the drain pipe at the end stage of the compression, the water storage tank is replaced periodically to ensure the dust removal effect, the discharged gas rises or falls spirally in the clothes space, the clothes are divided into two parts when passing through the hanging clothes, the air flow direction on the surface of the clothes is opposite, the dust in the weaving structure of the clothes can be hooked and taken out, furthermore, when air passes through the woven structure, ozone molecules produced by the ozone generator can be disinfected without dead corners.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the present invention in a vertically cut configuration;

FIG. 3 is a schematic view of the gas flow configuration of the gas circulation assembly of the present invention;

FIG. 4 is a schematic view showing the construction of the circulation compressor of the present invention;

FIG. 5 is a schematic illustration of view A of FIG. 4 during venting;

FIG. 6 is a schematic view of part of view A of FIG. 4 during a draining process;

FIG. 7 is a schematic top view of the airflow around the suspended clothes within the cabinet of the present invention;

in the figure: 11-cabinet body, 12-split door, 13-clothes airing rod, 14-object placing plate, 2-gas circulation component, 21-water storage tank, 22-circulation compressor, 221-shell, 2211-shell conical surface, 2212-shell groove, 2213-air inlet valve hole, 2214-air outlet valve hole, 2215-water outlet valve hole, 222-piston, 2221-plug conical surface, 2222-plug groove, 223-floating ball, 23-air suction pipe, 24-air discharge pipe, 25-air inlet pipe, 26-water discharge pipe, 27-air suction head, 28-air discharge head, 29-ozone generator, 31-air inlet one-way valve, 311-air inlet block, 312-air inlet spring, 313-air inlet nut, 314-air inlet rod, 32-air discharge one-way valve, 321-air discharge ball, 322-exhaust spring, 323-exhaust nut, 324-exhaust rod, 33-drainage check valve, 331-drainage block, 332-drainage spring, 333-drainage nut, 334-drainage rod.

Detailed Description

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

Referring to fig. 1-7, the present invention provides the following technical solutions:

the utility model provides a to make dampproofing wardrobe of door electron, includes the cabinet body 11, makes a door 12, gas circulation subassembly 2, and the side of the cabinet body 11 sets up makes a door 12, sets up gas circulation subassembly 2 in the cabinet body 11, and gas circulation subassembly 2 drives the interior air cycle of the cabinet body 11 and flows, and the air dehumidifies in gas circulation subassembly 2. As shown in fig. 1, the side of the cabinet 11 is provided with a split door 12 to form a relatively closed space, and the inside of the cabinet 11 is provided with a clothes drying rod 13, a storage plate 14, and other parts for placing clothes.

A light source is arranged in the cabinet body 11. When the door is opened, the light source provides illumination, and clothes are conveniently taken.

A hygrometer is arranged in the cabinet body 11. The electronic hygrometer displays the humidity in the cabinet to provide visual data for the user.

The gas circulation component 2 comprises a water storage tank 21, a circulation compressor 22, an air exhaust pipe 23, an exhaust pipe 24, an inflow pipe 25 and a drain pipe 26, the water storage tank 21 and the circulation compressor 22 are arranged at the bottom in the cabinet body 11, the circulation compressor 22 is provided with a hydrophobic compression structure, the circulation compressor 22 is externally provided with three interfaces for respectively performing air exhaust, air exhaust and water drainage, the water storage tank 21 is connected to the circulation compressor 22 through the inflow pipe 25, an air inlet one-way valve 31 is arranged at the joint of the inflow pipe 25 and the circulation compressor 22, the circulation compressor 22 is connected to the clothes space in the cabinet body 11 through the exhaust pipe 24, an air exhaust one-way valve 32 is arranged at the joint of the circulation compressor 22 and the exhaust pipe 24, the circulation compressor 22 is further connected to the water storage tank 21 through the drain pipe 26, a water exhaust one-way valve 33 is arranged at the joint of the circulation compressor 22 and the drain pipe 26, one end of the air exhaust pipe 23 is connected to the clothes space in the cabinet body 11, one end is inserted into the water storage tank 21. As shown in fig. 2 and 3, air in the space where the clothes are located in the cabinet 11 firstly enters the air exhaust pipe 23, dust is filtered by water in the water storage tank 21, then the air enters the circulating compressor 22 through the air inlet pipe 25, the circulating compressor 22 provides power for air flowing, in the compression link of the circulating compressor 22, after the air is pressurized to a certain degree in the compressor, the air firstly flows back to the cabinet from the air exhaust pipe 24, moisture in the air is compressed and condensed into water, and liquid water flows back to the water storage tank 21 from the water discharge pipe 26 at the end stage of compression. In the compression step in the circulation compressor 22, the exhaust pressure can be adjusted by the exhaust check valve 32, the drain pressure is adjusted by the drain check valve 33, and the drain pressure is higher than the exhaust pressure to ensure the exhaust before the drain, wherein the exhaust process with water precipitation is performed, and the gas discharged is the gas with saturated humidity under the temperature and pressure, but the exhaust pressure is higher than the gas pressure (atmospheric pressure) in the wardrobe by a certain value, so that the gas is expanded and the pressure is reduced after being discharged from the exhaust pipe 24 to the position of the clothing in the cabinet 11, and the gas in the gas state is far from the saturated state, and the gas having undergone the circulation compressor 22 is in a low humidity state during the contact process with the clothing. Because the circulating compressor 22 is used for compressing and dewatering, air in the wardrobe firstly enters the water storage tank 21 to filter dust in water, humidity cannot be improved, the dust can be prevented from entering the compressor needing to be kept in a clean state, the water in the water storage tank 21 becomes dirty after being used for a period of time, the dirty speed is related to the dust amount of the using environment around the wardrobe, when the dust is more around and the door 12 is opened and closed frequently to replace clothes, the dirty time of the water in the water storage tank 21 is short, and attention needs to be paid to and clean water needs to be replaced.

The circulation compressor 22 includes a casing 221, a piston 222, a float 223, the piston 222 is disposed in the casing 221 and can slide along the inner wall of the casing 221, the piston 222 is disposed vertically,

the upper wall surface of the casing 221 is respectively provided with an air inlet valve hole 2213, an air outlet valve hole 2214 and a water outlet valve hole 2215, an air inlet check valve 31 is arranged in the air inlet valve hole 2213, an air outlet check valve 32 is arranged in the air outlet valve hole 2214, a water outlet check valve 33 is arranged in the water outlet valve hole 2215,

a shell conical surface 2211 is arranged on the upper surface inside the shell 221, a hemispherical shell groove 2212 is arranged at the pointed top position of the shell conical surface 2211, a plug conical surface 2221 is arranged on the upper surface of the piston 222, a hemispherical plug groove 2222 is arranged at the pointed top position of the plug conical surface 2221, the slopes of the shell conical surface 2211 and the plug conical surface 2221 are equal, the floating ball 223 is placed between the shell conical surface 2211 and the plug conical surface 2221, the ball radii of the floating ball 223, the shell groove 2212 and the plug groove 2222 are equal, and the exhaust valve hole 2214 is connected with the shell groove 2212;

the air inlet one-way valve 31 comprises an air inlet block 311, an air inlet spring 312, an air inlet nut 313 and an air inlet rod 314, wherein the lower part of an air inlet valve hole 2213 is provided with a conical inclined surface with an upward conical tip, the upper end of the air inlet valve hole 2213 is provided with a step surface, the upper surface of the air inlet block 311 is connected with the air inlet rod 314, the air inlet block 311 upwards props against the conical surface at the lower end of the air inlet valve hole 2213, the upper end of the air inlet rod 314 is in threaded connection with the air inlet nut 313, and the air inlet spring 312 is tightly pressed by the air inlet nut 313 and props against the step surface at the upper part of the air inlet valve hole 2213;

the exhaust check valve 32 comprises an exhaust ball 321, an exhaust spring 322, an exhaust nut 323 and an exhaust rod 324, a conical inclined plane is arranged in the middle of an exhaust valve hole 2214, a thread is arranged at the upper end of the exhaust valve hole 2214, the upper end of the exhaust ball 321 is connected with the exhaust rod 324, the exhaust nut 323 is a disc with threads on the outer edge, the exhaust nut 323 is screwed at the upper end of the exhaust valve hole 2214, the exhaust spring 322 is arranged between the exhaust nut 323 and the exhaust ball 321, the exhaust nut 323 compresses the exhaust spring 322, the exhaust spring 322 presses the exhaust ball 321 to the conical inclined plane in the middle of the exhaust valve hole 2214, a plurality of through holes are arranged in the middle of the exhaust nut 323, and the exhaust rod 324 upwards passes through the exhaust nut 323 and is vertically guided by the exhaust nut 323;

the drainage one-way valve 33 comprises a drainage block 331, a drainage spring 332, a drainage nut 333 and a drainage rod 334, wherein the lower part of a drainage valve hole 2215 is provided with a conical slope with a downward conical tip, the upper end of the drainage valve hole 2215 is provided with a thread, the upper surface of the drainage block 331 is connected with the drainage rod 334, the drainage nut 333 is a circular disc with a thread on the outer edge, the drainage nut 333 is screwed at the upper end of the drainage valve hole 2215, the drainage spring 332 is arranged between the drainage nut 333 and the drainage block 331, the drainage nut 333 compresses the drainage spring 332, the drainage spring 332 presses the drainage block 331 to the conical slope at the lower part of the drainage valve hole 2215, a plurality of through holes are arranged at the middle position of the drainage nut 333, and the drainage rod 334 upwards passes through the drainage nut 333 and is vertically guided by the drainage nut 333;

the pretension of the drain spring 332 is greater than the pretension of the exhaust spring 322.

As shown in fig. 4-6, during the air-extracting process of the compressor, the exhaust check valve 32 and the drain check valve 33 are closed by the action of their respective springs, only the intake check valve 31 is in an open state, when the piston 222 moves to the lowest position, the air-extracting cycle is over, the piston 222 moves upward to start the compression process, the intake check valve 31 is closed, when the compression process starts, neither the exhaust check valve 32 nor the drain check valve 33 is opened immediately, when the compression air pressure reaches the pre-tightening force of the exhaust spring 322, the exhaust check valve 32 is pushed open to start the exhaust, after the exhaust check valve 32 is pushed open, the air pressure in the casing 221 remains unchanged, if water is separated out under the air pressure, the water is accumulated on the upper surface of the piston 222 to float the float ball 223, at the end of the exhaust process, the float ball 223 floats to be inserted into the casing groove 2212, at this time, the lower end of the exhaust valve hole 4 is blocked, and water can no longer flow out from the exhaust pipe 24, with the further upward movement of the piston 222, the space between the piston 222 and the shell conical surface 2211 is further reduced, water is pressed to the drainage check valve 33 and pushes the drainage check valve 33 to discharge, the uppermost end position of the piston 222 is in a state that the plug conical surface 2221, the shell conical surface 2211 and the floating ball 223 are completely attached, and the water in the shell 221 is fully squeezed out.

The lower surfaces of the air inlet block 311 and the water discharge block 331 have the same slope as the case taper surface 2211. As shown in fig. 5 and 6, the lower surfaces of the air inlet block 311 and the water outlet block 331 have the same slope as the shell conical surface 2211, so that the lower ends of the air inlet block and the water outlet block can be prevented from accumulating gas in the exhaust process and being insufficiently exhausted in the exhaust process.

The air circulation assembly 2 further comprises an air suction head 27 and an air discharge head 28, the air suction head 27 is arranged at the end part of the air suction pipe 23 far away from the water storage tank 21, the air discharge head 28 is arranged at the end part of the air discharge pipe 24 far away from the circulation compressor 22, and the air suction head 27 and the air discharge head 28 are arranged one above the other in the clothing space of the cabinet body 11. As shown in fig. 2, the air in and out of the upper and lower portions sufficiently promote the air flow in the space of the laundry.

The exhaust head 28 carries stationary helical guide vanes. As shown in fig. 2 and 7, the air flow discharged by the spiral guide vane spirally rises or falls, the spiral air flow is cut into two air flows when contacting with the clothes, the two air flows have the same direction, but the direction of the two air flows is opposite to that of the surface of the clothes, when one air flow obliquely collides with the clothes, the other air flow starts to be far away from the clothes, the pressure is lower, and the tangential flow can generate certain pressure difference at different positions on two sides of the clothes to shake off dust on the clothes.

An ozone generator 29 is arranged on the exhaust pipe 24. The ozone generator 29 injects some ozone into the clothes space for sterilization during a period of time or during the whole period of the initial gas circulation, the ozone sterilization has no dead angle, and the spiral gas flow can fully send the gas into the fabric structure in the clothes to fully sterilize the clothes.

Sealing strips are arranged on the opening and closing surfaces of the cabinet body 11 and the split door 12. The sealing strip prevents outside air from entering also the interior of the cabinet 11 after the split-door 12 is closed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

1. The utility model provides a to dampproofing wardrobe of door electron which characterized in that: the dampproof wardrobe comprises a wardrobe body (11), split doors (12) and a gas circulation assembly (2), wherein the split doors (12) are arranged on the side surfaces of the wardrobe body (11), the gas circulation assembly (2) is arranged in the wardrobe body (11), the gas circulation assembly (2) drives air in the wardrobe body (11) to circularly flow, and the air is dehumidified in the gas circulation assembly (2);

the gas circulation assembly (2) comprises a water storage tank (21), a circulating compressor (22), an air exhaust pipe (23), an exhaust pipe (24), an inflow pipe (25) and a drain pipe (26), wherein the water storage tank (21) and the circulating compressor (22) are arranged at the bottom in the cabinet body (11), the circulating compressor (22) is provided with a hydrophobic compression structure, the circulating compressor (22) is externally provided with three interfaces for respectively performing air exhaust, air exhaust and water drainage, the water storage tank (21) is connected to the circulating compressor (22) through the inflow pipe (25), an air intake check valve (31) is arranged at the joint of the inflow pipe (25) and the circulating compressor (22), the circulating compressor (22) is connected to a clothes space in the cabinet body (11) through the exhaust pipe (24), and an exhaust check valve (32) is arranged at the joint of the circulating compressor (22) and the exhaust pipe (24), the circulating compressor (22) is also connected to the water storage tank (21) through a water discharge pipe (26), a water discharge one-way valve (33) is arranged at the joint of the circulating compressor (22) and the water discharge pipe (26), one end of the air suction pipe (23) is connected with a clothes space in the cabinet body (11), and the other end of the air suction pipe is inserted into the water storage tank (21);

the circulating compressor (22) comprises a machine shell (221), a piston (222) and a floating ball (223), the piston (222) is arranged in the machine shell (221) and can slide along the inner wall of the machine shell (221), the piston (222) is vertically arranged,

the upper wall surface of the shell (221) is respectively provided with an air inlet valve hole (2213), an air outlet valve hole (2214) and a water outlet valve hole (2215), an air inlet one-way valve (31) is arranged in the air inlet valve hole (2213), an air outlet one-way valve (32) is arranged in the air outlet valve hole (2214), a water outlet one-way valve (33) is arranged in the water outlet valve hole (2215),

a shell conical surface (2211) is arranged on the upper surface inside the shell (221), a hemispherical shell groove (2212) is arranged at the pointed top position of the shell conical surface (2211), a plug conical surface (2221) is arranged on the upper surface of the piston (222), a hemispherical plug groove (2222) is arranged at the pointed top position of the plug conical surface (2221), the slopes of the shell conical surface (2211) and the plug conical surface (2221) are equal, the floating ball (223) is placed between the shell conical surface (2211) and the plug conical surface (2221), the ball radii of the floating ball (223), the shell groove (2212) and the plug groove (2222) are equal, and the exhaust valve hole (2214) is connected with the shell groove (2212);

the air inlet one-way valve (31) comprises an air inlet block (311), an air inlet spring (312), an air inlet nut (313) and an air inlet rod (314), wherein the lower part of an air inlet valve hole (2213) is provided with a conical inclined surface with an upward conical tip, the upper end of the air inlet valve hole (2213) is provided with a step surface, the upper surface of the air inlet block (311) is connected with the air inlet rod (314), the air inlet block (311) upwards supports against the conical surface at the lower end of the air inlet valve hole (2213), the upper end of the air inlet rod (314) is in threaded connection with the air inlet nut (313), and the air inlet nut (313) compresses the air inlet spring (312) and supports against the step surface at the upper part of the air inlet valve hole (2213);

the exhaust check valve (32) comprises an exhaust ball (321), an exhaust spring (322), an exhaust nut (323) and an exhaust rod (324), the middle part of the exhaust valve hole (2214) is provided with a conical inclined plane, the upper end of the exhaust valve hole (2214) is provided with a screw thread, the upper end of the exhaust ball (321) is connected with an exhaust rod (324), the exhaust nut (323) is a disc with threads on the outer edge, the exhaust nut (323) is screwed at the upper end of an exhaust valve hole (2214), the exhaust spring (322) is arranged between the exhaust nut (323) and the exhaust ball (321), the exhaust nut (323) presses the exhaust spring (322), the exhaust spring (322) presses the exhaust ball (321) to the conical inclined plane in the middle of the exhaust valve hole (2214), a plurality of through holes are formed in the middle of the exhaust nut (323), and the exhaust rod (324) penetrates through the exhaust nut (323) upwards and is guided by the exhaust nut (323) vertically;

the drainage one-way valve (33) comprises a drainage block (331), a drainage spring (332), a drainage nut (333) and a drainage rod (334), the lower part of the drainage valve hole (2215) is provided with a conical inclined plane with a downward conical tip, the upper end of the drainage valve hole (2215) is provided with a thread, the upper surface of the drainage block (331) is connected with a drainage rod (334), the drainage nut (333) is a disc with threads on the outer edge, the drainage nut (333) is screwed at the upper end of the drainage valve hole (2215), the drain spring (332) is arranged between the drain nut (333) and the drain block (331), the drain nut (333) presses the drain spring (332), the drain spring (332) presses the drain block (331) to the conical slope at the lower part of the drain valve hole (2215), a plurality of through holes are formed in the middle of the drainage nut (333), and the drainage rod (334) penetrates through the drainage nut (333) upwards and is guided by the drainage nut (333) vertically;

the pre-tightening force of the drainage spring (332) is larger than that of the exhaust spring (322).

2. The split-door electronic moisture-proof wardrobe as claimed in claim 1, wherein: a light source is arranged in the cabinet body (11).

3. The split-door electronic moisture-proof wardrobe as claimed in claim 1, wherein: a hygrometer is arranged in the cabinet body (11).

4. The split-door electronic moisture-proof wardrobe as claimed in claim 1, wherein: the lower surfaces of the air inlet block (311) and the water discharge block (331) have the same inclination with the shell conical surface (2211).

5. The split-door electronic moisture-proof wardrobe as claimed in claim 1, wherein: the gas circulation assembly (2) further comprises an air pumping head (27) and an air exhaust head (28), the air pumping head (27) is arranged at the end part of the air pumping pipe (23) far away from the water storage tank (21), the air exhaust head (28) is arranged at the end part of the air exhaust pipe (24) far away from the circulating compressor (22), and the air pumping head (27) and the air exhaust head (28) are arranged one above the other in the clothing space of the cabinet body (11).

6. The split-door electronic moisture-proof wardrobe as claimed in claim 5, wherein: the exhaust head (28) is provided with a stationary spiral guide vane.

7. The split-door electronic moisture-proof wardrobe as claimed in claim 1, wherein: an ozone generator (29) is arranged on the exhaust pipe (24).

8. The split-door electronic moisture-proof wardrobe as claimed in claim 1, wherein: sealing strips are arranged on the opening and closing surfaces of the cabinet body (11) and the side-by-side opening door (12).