CN111772353A

CN111772353A - Damp-proof intelligent wardrobe

Info

Publication number: CN111772353A
Application number: CN202010682440.5A
Authority: CN
Inventors: 陶林林; 杨柳飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-15
Filing date: 2020-07-15
Publication date: 2020-10-16

Abstract

The invention provides a damp-proof intelligent wardrobe, which comprises a wardrobe body and a power supply, wherein a heat conduction mechanism is arranged on a side plate of the wardrobe body in a sliding manner, the heat conduction mechanism comprises a heat dissipation plate arranged on the outer side of the wardrobe body and a water condensation plate arranged on the inner side of the wardrobe body, a heat transfer cross rod which can slide up and down on the side plate of the wardrobe body and is used for transferring heat from the water condensation plate to the heat dissipation plate is arranged between the heat dissipation plate and the water condensation plate, an air blowing device is arranged on the wardrobe body, a switch which is electrically connected with the power supply is arranged below the water condensation plate of the side plate of the wardrobe body, so that the switch is triggered by the fact that the switch moves down under the.

Description

Damp-proof intelligent wardrobe

Technical Field

The invention relates to a damp-proof intelligent wardrobe.

Background

The wardrobe is a cabinet for storing clothes, is generally made of stainless steel, solid wood (costustoot plate, solid wood particle plate and medium density fiberboard), toughened glass and hardware fittings, generally takes a wardrobe body, a door plate, silent wheels and a door curtain as components, is internally provided with fittings such as a clothes hanging rod, a trousers rack, a pull basket and a disinfection lamp, and is manufactured by adopting the processes of punching, assembling, press riveting, welding and the like.

The conventional wardrobe only has a function of storing clothes, however, because the wardrobe is a relatively independent space, the internal air and the external indoor air are difficult to exchange, so that the temperature inside the wardrobe is kept unchanged after the temperature of the indoor air outside the wardrobe is reduced, the temperature difference between the inside and the outside of the wardrobe is caused, the humid air inside the wardrobe is difficult to actively discharge at a proper time, and the function of preventing moisture cannot be actively realized.

Disclosure of Invention

The invention provides a damp-proof intelligent wardrobe, which aims to solve the technical problem of active damp-proof.

The technical scheme of the invention is realized as follows: the utility model provides a damp-proofing intelligent wardrobe, includes the cabinet body, power, cabinet side board slides and is equipped with heat conduction mechanism, heat conduction mechanism is including setting up in the heating panel of the external side of cabinet, setting up in the internal side of cabinet congeals the water board, heating panel and congeal be equipped with between the water board can be at cabinet side board gliding from top to bottom, be used for the heat from congealing the heat transfer horizontal pole that the water board transmitted in the heating panel, the cabinet body is equipped with gas blowing device, cabinet side board is equipped with the switch of being connected with the power electricity in congealing the water board below and moves down and trigger switch in order to rely on its gravity that increases behind congealing the water board.

Further, the switch includes the insulating casing with cabinet body fixed connection, the week side of insulating casing is by lower supreme two at least conductive electrode that are equipped with, the insulating casing upper end is equipped with the guiding hole that the direction extends from top to bottom, sliding fit is equipped with and leads electrical pillar in the guiding hole, it is connected with congeal water board lower extreme fixed connection to lead electrical pillar upper end, insulating casing is equipped with the stock solution chamber, the stock solution intracavity is equipped with conductive fluid in order to make conductive fluid liquid level rise when leading electrical pillar downstream make lead electrical pillar and conductive electrode between be connected through conductive fluid electricity, the insulating casing upper end is equipped with and is used for making to lead electrical pillar and keep static elastic component when congealing the dry surface of water board.

Further, the lower end of the water condensing plate is provided with a water collecting tank, the water collecting tank is electrically connected with the conductive posts, and the water collecting tank is provided with binding posts.

Further, gas blowing device is including installation casing, two-position three way solenoid valve, bottom surface evenly distributed has the venthole under the installation casing, the vertical pivot that is equipped with in the installation casing, the pivot is rotated and is equipped with the axle sleeve, the axle sleeve upper end is equipped with the flabellum, the lower extreme is equipped with the rotation closing plate that is used for sealing the venthole, the pivot top is equipped with inlet channel, dry chamber in proper order, inlet channel is equipped with the heating wire that is used for heating the admission gas, dry intracavity is filled with the drier that is used for dry admission gas, one of them and inlet channel intercommunication, another and dry chamber intercommunication of gas outlet of two-position three way solenoid valve, two-position three way solenoid valve's air.

Further, the cabinet body side plate is provided with an avoiding groove for avoiding the up-and-down movement of the heat transfer cross rod, the heat transfer cross rod is vertically provided with a heat insulation sliding block to prevent the circulation of air inside and outside the cabinet body, and the cabinet body side plate is provided with a sliding groove matched with the heat insulation sliding block.

Further, the conductive fluid is metallic mercury, and the guide hole and the conductive column are in sliding seal to prevent the metallic mercury from evaporating and dissipating.

Further, the elastic member is a helical compression spring.

Further, the air source is a blower

By adopting the technical scheme, the invention has the beneficial effects that: the utility model provides a damp-proofing intelligent wardrobe uses the damp air condensation water volume on the water condensation board in the wardrobe as the judgement standard, and when the air humidity degree is great, the damp air is at the great water yield of water condensation board condensation, makes water condensation board weight increase and move down, and then trigger switch makes gas blowing device begin to operate, reduces the content of damp air in the wardrobe.

Furthermore, the switch of the application is triggered by adopting the conductive fluid, the position where the water condensation plate descends is triggered, the descending of the water condensation plate is combined with the ascending of the conductive fluid, the gravitational potential energy of the thermal bridge effect on the weight increase of the water condensation plate is used as the energy of the trigger switch, the thermal bridge phenomenon with negative effects generally presents positive effects, and the thought is opened for the industry.

Furthermore, because the air pressure at the air outlet of the air inlet channel of the air blowing device is higher, the air pressure is lower when the air outlet is far away from the air outlet of the air inlet channel by taking the air outlet of the air inlet channel as a center, and the air blowing amount of the air outlet at the low air pressure is smaller, the fan blade is arranged at the upper end of the shaft sleeve of the air blowing device, and starts to rotate under the action of the air flow, so that the high-pressure air flow at the air outlet of the air inlet channel can be effectively dispersed to balance the air pressure blown out from the air outlet holes, the rotary closing plate rotates synchronously along with the fan blade, and when the rotary closing plate rotates, the air outlet hole close to the rotating shaft is closed for a longer time (the rotating linear speed of the part of the rotary closing plate close to the rotating shaft is lower), so that the air outlet amount of the air outlet hole close to the rotating shaft, the function of adjusting the air outlet quantity of each air outlet to be basically consistent is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a moisture-proof intelligent wardrobe according to the present invention;

FIG. 2 is a schematic structural diagram of a heat conducting mechanism and a switch according to the present invention;

FIG. 3 is a cross-sectional view of the heat conducting mechanism and switch of the present invention;

FIG. 4 is a sectional view showing the structure of the air blowing device of the present invention;

FIG. 5 is a schematic view of the internal structure of the air blowing device;

fig. 6 is a schematic diagram of the circuit of the present invention.

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 "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" 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 should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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.

The utility model provides a damp-proofing intelligent wardrobe embodiment 1, as shown in fig. 1-6, including the cabinet body 1, power 2, the slip of cabinet side board is equipped with heat conduction mechanism, heat conduction mechanism is including setting up in the heating panel 3 of the external side of cabinet, set up in the internal side of cabinet congeal water board 4, be equipped with between heating panel and the water board of congealing and can be gliding from top to bottom at cabinet side board, be used for with the heat from congealing the heat transfer horizontal pole 5 that water board transmitted in the heating panel, the cabinet body is equipped with gas blowing device, cabinet side board is equipped with the switch of being connected with the power electricity in order to move down and trigger switch in the gravity that relies on its increase after congealing the.

An embodiment 2 of a moisture-proof intelligent wardrobe is disclosed, as shown in fig. 1-6, comprising a wardrobe body 1 and a power supply 2, wherein a heat conducting mechanism is arranged on a side plate of the wardrobe body in a sliding manner, the heat conducting mechanism comprises a heat radiating plate 3 arranged on the outer side of the wardrobe body and a water condensing plate 4 arranged on the inner side of the wardrobe body, a heat conducting cross rod 5 which can slide up and down on the side plate of the wardrobe body and is used for transferring heat from the water condensing plate to the heat radiating plate is arranged between the heat radiating plate and the water condensing plate, the wardrobe body is provided with an air blowing device, a switch which is electrically connected with the power supply is arranged below the water condensing plate of the side plate of the wardrobe body so as to move down to trigger the switch by the increased gravity of the water condensing plate after the water is condensed on the surface of the water condensing plate, the switch is electrically connected with the air blowing device, the switch, the upper end of the conductive column is fixedly connected with the lower end of the water condensing plate, the insulating shell is provided with a liquid storage cavity 10, conductive fluid is arranged in the liquid storage cavity so as to enable the liquid level of the conductive fluid to rise when the conductive column moves downwards, so that the conductive column is electrically connected with the conductive electrode through the conductive fluid, and the upper end of the insulating shell is provided with an elastic piece 11 used for enabling the conductive column to keep static when the surface of the water condensing plate is dry.

An embodiment 3 of a damp-proof intelligent wardrobe is disclosed, as shown in fig. 1-6, comprising a wardrobe body 1 and a power supply 2, wherein a heat conducting mechanism is arranged on a side plate of the wardrobe body in a sliding manner, the heat conducting mechanism comprises a heat radiating plate 3 arranged on the outer side of the wardrobe body and a water condensing plate 4 arranged on the inner side of the wardrobe body, a heat conducting cross rod 5 which can slide up and down on the side plate of the wardrobe body and is used for transferring heat from the water condensing plate to the heat radiating plate is arranged between the heat radiating plate and the water condensing plate, the wardrobe body is provided with an air blowing device, a switch which is electrically connected with the power supply is arranged below the water condensing plate of the side plate of the wardrobe body so as to move down to trigger the switch by the increased gravity of the water condensing plate after the water is condensed on the surface of the water condensing plate, the switch is electrically connected with the air blowing device, the switch, lead electrical pillar upper end and congeal water board lower extreme fixed connection, insulating housing is equipped with stock solution chamber 10, the stock solution intracavity is equipped with conductive fluid in order to make conductive fluid liquid level rise when leading electrical pillar downstream make lead electrical pillar and be connected through conductive fluid electricity between the conductive electrode, insulating housing upper end is equipped with and is used for making when congealing water board surface drying and leads electrical pillar and keep static elastic component 11, congeals water board lower extreme and is equipped with water catch bowl 12, the water catch bowl with lead electrical pillar and be connected, the water catch bowl is equipped with terminal 13.

An embodiment 4 of a moisture-proof intelligent wardrobe is disclosed, as shown in fig. 1-6, comprising a wardrobe body 1 and a power supply 2, wherein a heat conducting mechanism is arranged on a side plate of the wardrobe body in a sliding manner, the heat conducting mechanism comprises a heat radiating plate 3 arranged on the outer side of the wardrobe body and a water condensing plate 4 arranged on the inner side of the wardrobe body, a heat conducting cross rod 5 which can slide up and down on the side plate of the wardrobe body and is used for transferring heat from the water condensing plate to the heat radiating plate is arranged between the heat radiating plate and the water condensing plate, the wardrobe body is provided with an air blowing device, a switch which is electrically connected with the power supply is arranged below the water condensing plate of the side plate of the wardrobe body so as to move down to trigger the switch by the increased gravity of the water condensing plate after the water is condensed on the surface of the water condensing plate, the switch is electrically connected with the air blowing device, the switch, the upper end of the conductive column is fixedly connected with the lower end of the water condensing plate, the insulating shell is provided with a liquid storage cavity 10, conductive fluid is arranged in the liquid storage cavity to enable the liquid level of the conductive fluid to rise when the conductive column moves downwards so as to enable the conductive column to be electrically connected with the conductive electrode through the conductive fluid, the upper end of the insulating shell is provided with an elastic piece 11 used for enabling the conductive column to keep static when the surface of the water condensing plate is dried, the lower end of the water condensing plate is provided with a water collecting tank 12, the water collecting tank is electrically connected with the conductive column, the water collecting tank is provided with a binding post 13, the air blowing device comprises an installation shell 14 and a two-position three-way electromagnetic valve 15, air outlet holes 16 are uniformly distributed on the lower bottom surface of the installation shell, a rotating shaft 17 is vertically arranged in the installation shell, the rotating shaft is rotatably provided with a shaft sleeve 18, the drying cavity is filled with a drying agent for drying the entering gas, one of the gas outlets of the two-position three-way electromagnetic valve is communicated with the gas inlet channel, the other one of the gas outlets of the two-position three-way electromagnetic valve is communicated with the drying cavity, and the gas inlet of the two-position three-way electromagnetic valve is connected with a gas source 24.

The embodiment 5 of the damp-proof intelligent wardrobe is different from the embodiments 1 to 4 in that a side plate of a wardrobe body is provided with an avoidance groove 25 for avoiding the up-and-down movement of a heat transfer cross rod, the heat transfer cross rod is vertically provided with a heat insulation sliding block 26 to prevent the circulation of air inside and outside the wardrobe body, and the side plate of the wardrobe body is provided with a sliding groove 27 matched with the heat insulation sliding block.

An embodiment 6 of a moisture-proof intelligent wardrobe is different from embodiments 1 to 5 in that a conductive fluid is metallic mercury, a guide hole and a conductive column are in sliding seal to prevent the metallic mercury from evaporating and dissipating, an elastic part is a spiral compression spring, and an air source is an air blower.

In other embodiments, the air blowing device may be an air compressor with an air outlet located inside the cabinet and an air inlet located outside the cabinet.

In other embodiments, the air blowing device can also be a fan which is arranged at the top of the cabinet and blows air from the outer side of the cabinet to the inner side of the cabinet.

In other embodiments, the switch may be a common push switch disposed on a side plate of the cabinet, and when the water condensation plate moves downward, the outer side surface of the staring plate pushes the push switch to close the push switch, so as to achieve the conduction of the circuit.

When the heat conduction device is used, as the internal and external ventilation of the cabinet body is not smooth and has temperature difference, and the heat conductivity of the heat conduction cross rod is greater than that of the cabinet body, the cabinet body has a heat bridge effect under the action of the heat conduction mechanism, at the moment, the water condensation plate transmits heat to the heat dissipation plate to dissipate the heat, namely, the temperature of the water condensation plate is basically consistent with the room temperature outside the cabinet body and is less than the temperature in the cabinet body, at the moment, if the air in the cabinet body is relatively humid, the humid air in the cabinet body meets the water condensation plate to condense water and dew, so that the weight of the water condensation plate is gradually increased to gradually lower the water condensation plate, the water condensation plate presses the conductive post to gradually lower the conductive post, when the conductive post moves downwards, the liquid level of the conductive fluid rises to enable the conductive post to be electrically connected with the conductive post through the conductive fluid, and when the, air blown out from the air source directly enters the cabinet body from the air inlet channel, and humid air in the cabinet body is discharged; if the water condensation plate still continuously condenses water in the process of discharging the damp air in the cabinet body, the air outside the cabinet body is relatively damp at the moment, namely, the moist air blown into the cabinet body can not reduce the humidity of the air in the cabinet body, and the moist air continuously falls under the continuous water condensation effect of the water condensation plate to continuously raise the liquid level of the conductive fluid, the conductive electrode above (intermediate) is electrically connected to the conductive post on the basis of the electrical connection between the lowermost conductive electrode and the conductive post, and at this time, the other air outlet (normally closed air outlet) of the two-position three-way electromagnetic valve is opened and communicated with the drying cavity, so that moisture in the air is removed from the humid air outside the cabinet body through the drying cavity, the dry air enters the cabinet body through the air inlet channel, and the electric heating wire is synchronously conducted to heat the air entering the cabinet body at the moment, so that the effect of drying clothes in the cabinet body is achieved; if the liquid level of the conductive fluid continues to rise, it indicates that there may be a situation of flooding in the room, and at this time, the problem of humid air in the cabinet can be solved instead of simple dehumidification and heating, and at this time, the uppermost conductive electrode is electrically connected to the conductive pillar to turn on the buzzer 28 or the alarm lamp.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a damp-proofing intelligent wardrobe, includes the cabinet body, power, a serial communication port, cabinet side board slides and is equipped with heat conduction mechanism, heat conduction mechanism is including setting up in the heating panel of the external side of cabinet, setting up in the internal side of cabinet board congeals the water board, be equipped with between heating panel and the water board congeals and can be on cabinet side board gliding from top to bottom, be used for the heat from congealing the heat transfer horizontal pole that the water board transmitted in the heating panel, the cabinet body is equipped with gas blowing device, cabinet side board is equipped with the switch of being connected with the power electricity in congealing the water board below and moves down and trigger switch with the gravity that relies on its increase behind congealing.

2. The intelligent moisture-proof wardrobe as claimed in claim 1, wherein the switch comprises an insulating housing fixedly connected with the wardrobe body, at least two conductive electrodes are arranged on the peripheral side of the insulating housing from bottom to top, a guide hole extending in the up-down direction is formed in the upper end of the insulating housing, a conductive column is arranged in the guide hole in a sliding fit manner, the upper end of the conductive column is fixedly connected with the lower end of the water condensation plate, a liquid storage cavity is formed in the insulating housing, conductive fluid is arranged in the liquid storage cavity so that the liquid level of the conductive fluid rises when the conductive column moves downwards, the conductive column is electrically connected with the conductive electrodes through the conductive fluid, and an elastic member for keeping the conductive column stationary when the surface of the water condensation plate is dry is arranged at the upper end.

3. The intelligent moisture-proof wardrobe according to claim 2, wherein a water collection tank is arranged at the lower end of the water condensation plate, the water collection tank is electrically connected with the conductive post, and the water collection tank is provided with a binding post.

4. The intelligent damp-proof wardrobe according to claim 2 or 3, wherein the air blowing device comprises an installation shell and a two-position three-way electromagnetic valve, air outlet holes are uniformly distributed in the lower bottom surface of the installation shell, a rotating shaft is vertically arranged in the installation shell and is rotatably provided with a shaft sleeve, fan blades are arranged at the upper end of the shaft sleeve, a rotating closing plate used for closing the air outlet holes is arranged at the lower end of the shaft sleeve, an air inlet channel and a drying cavity are sequentially arranged above the rotating shaft, the air inlet channel is provided with an electric heating wire used for heating inlet air, a drying agent used for drying the inlet air is filled in the drying cavity, one of air outlet holes of the two-position three-way electromagnetic valve is communicated with the air inlet channel, the other air outlet hole of the.

5. The intelligent damp-proof wardrobe according to claim 4, wherein the side cabinet body plates are provided with avoidance grooves for avoiding up-and-down movement of the heat transfer cross bars, the heat transfer cross bars are vertically provided with heat insulation sliding blocks to prevent circulation of air inside and outside the wardrobe body, and the side cabinet body plates are provided with sliding grooves matched with the heat insulation sliding blocks.

6. The moisture-resistant intelligent wardrobe according to claim 5, wherein the conductive fluid is metallic mercury, and the guide holes and the conductive posts are slidably sealed to prevent the metallic mercury from evaporating and escaping.

7. The moisture-resistant intelligent wardrobe according to claim 6, wherein the elastic member is a helical compression spring.

8. The moisture-resistant intelligent wardrobe according to claim 7, wherein the air source is an air blower.