CN215604014U - Intelligent security dehumidification wardrobe - Google Patents

Abstract

The utility model discloses an intelligent safe dehumidifying wardrobe which comprises a wardrobe body, wherein the wardrobe body comprises a bottom part and a top part, a ventilation dehumidifying mechanism is arranged at the bottom part or the top part in the wardrobe body, the ventilation dehumidifying mechanism comprises an air driving mechanism, the air driving mechanism is used for driving air to circulate, the ventilation dehumidifying mechanism comprises a dehumidifying device, and the dehumidifying device is used for removing moisture of air entering the wardrobe from the outside. The air driving mechanism comprises a motor, and the motor is connected with a controller through a cable; the dehumidification device comprises a heater which is electrically connected with the controller through a cable. By arranging the dehumidifying device, moisture in the wardrobe can be removed, harmful gas in the wardrobe can be discharged out of the wardrobe body, and the drying and air refreshing of the interior of the wardrobe are ensured; the clothes drying device can perform low-heat heating on the wardrobe, quickly remove moisture in the wardrobe, dry clothes and ensure safe storage of the clothes.

Description

Intelligent security dehumidification wardrobe

Technical Field

The utility model relates to the field of furniture, in particular to an intelligent safe dehumidifying wardrobe.

Background

Furniture refers to a large category of appliances and facilities essential for human beings to maintain normal life, engage in production practice and develop social activities. The furniture is continuously developed and innovated following the foot steps of the times, and the door is various in types, different in materials, complete in variety and different in purposes. Is an important foundation for establishing working and living spaces.

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 clothes hanging rods, a trousers rack, a pull basket, a disinfection lamp and other fittings, adopts the processes of punching, assembling, press riveting, welding and the like, has the effects of inflaming retarding, rat proofing, seamless cockroach proofing, dust proofing, moth proofing, damp proofing, clean and attractive appearance, convenient movement and the like, and has the functions of a large-capacity intelligent disinfection wardrobe, a power-free glass cabinet, a stainless steel wardrobe, an ultraviolet disinfection clean-keeping wardrobe, a damp-proof multifunctional wardrobe, a man-woman wardrobe, a dry cockroach-proof wardrobe, a folding wardrobe and a simple wardrobe. The common types of the wardrobe are a vertical hinged door, an inner and outer sliding doors of the wardrobe and the like, and the plates used by the wardrobe generally comprise stainless steel, metal, wood and the like, and are one of furniture commonly used in families.

However, in a humid environment in the south, the humidity in the air is high, so that the clothes have high water content, bacteria, mildew and insects are easy to breed, and the clothes are easy to rot and pollute and cannot be used.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: to the problem that above-mentioned exists, provide an intelligent security dehumidification wardrobe, through setting up dehumidification and heating device, can detach the moisture in the wardrobe, can discharge the harmful gas in the wardrobe outside the cabinet body, guarantee the inside drying of wardrobe, the air is fresh.

The technical scheme adopted by the utility model is as follows:

an intelligent safe dehumidifying wardrobe comprises a wardrobe body, wherein the wardrobe body comprises a bottom and a top, a ventilation dehumidifying mechanism is arranged at the bottom or the top in the wardrobe body, the ventilation dehumidifying mechanism comprises an air driving mechanism, the air driving mechanism is used for driving air to circulate, the ventilation dehumidifying mechanism comprises a dehumidifying device, and the dehumidifying device is used for removing moisture of air entering the wardrobe from the outside; the air driving mechanism comprises a motor, and the motor is connected with a controller through a cable; the dehumidification device comprises a filter, the filter is connected with a ventilation opening through a channel, and the ventilation opening is formed in the bottom and the top of the cabinet body; the air driving machine comprises a fan, one end of the fan is connected with an air inlet, the air inlet is communicated with the inside of the cabinet body, the other end of the fan is connected with a vent pipe, one end of the vent pipe is communicated with the fan, and the other end of the vent pipe is communicated with the dehumidifying device; the internal humidity transducer that is provided with the cabinet of cabinet, vent department is provided with the humidity transducer outside the cabinet, humidity transducer, the humidity transducer outside the cabinet in the cabinet with the controller signal links to each other, be provided with pipeline humidity transducer in the breather pipe, pipeline humidity transducer pass through the cable with the controller signal links to each other.

Further, the utility model discloses a preferable structure of the intelligent safe dehumidifying wardrobe, wherein the dehumidifying device comprises a heater, and the heater is electrically connected with the controller through a cable.

Further, the dehumidifying device comprises a moisture absorber, the moisture absorber is arranged adjacent to the heater, the moisture absorber is communicated with the heater, and the filter is communicated with the moisture absorber.

Furthermore, an impeller is arranged in the fan, and a rotating shaft of the impeller is in power connection with a rotating shaft of the motor.

Furthermore, a plurality of rigid filter screens with different thicknesses are arranged in the filter, a moisture absorbent is arranged in the moisture absorber, the moisture absorbent is water-absorbing plastic particles, and a net-shaped heating wire is arranged in the heater and is electrically connected with the controller through a cable.

Furthermore, a flow rate sensor and a temperature sensor are arranged in the vent pipe, and the flow rate sensor, the pipeline humidity sensor and the temperature sensor are connected with the controller through cables in a signal mode.

Further, the controller comprises a central processing unit and a power supply circuit, wherein the power supply circuit supplies power to the whole equipment; the central processing unit is connected with a motor driving circuit, the electric energy input end of the motor driving circuit is electrically connected with the power circuit, the electric energy output end of the motor driving circuit is electrically connected with the motor, and the central processing unit controls the rotating speed of the motor through the motor driving circuit.

Furthermore, the central processing unit is connected with a heating wire driving circuit, an electric energy input end of the heating wire driving circuit is electrically connected with the power circuit, an electric energy output end of the heating wire driving circuit is electrically connected with the mesh heating wire through a cable, and the central processing unit controls the output power of the mesh heating wire through the heating wire driving circuit.

Furthermore, the central processing unit is connected with an A/D conversion circuit, the digital signal output end of the A/D conversion circuit is in signal connection with the central processing unit, the analog input end of the A/D conversion circuit is connected with a gate, the output end of the gate is connected with the analog input end of the A/D conversion circuit, and a plurality of input ends of the gate are respectively and electrically connected with the flow velocity sensor, the pipeline humidity sensor, the temperature sensor, the humidity sensor in the cabinet and the humidity sensor outside the cabinet through cables; and the control end of the gating device is connected with the central processing unit through signals.

Furthermore, the cabinet body comprises side plates, a top plate and a bottom plate, the side plates, the top plate and the bottom plate are spliced with one another to form a frame structure, a plurality of partition plates are arranged in the frame structure, and a plurality of vent holes are formed in the partition plates; the frame structure is provided with a plurality of cabinet doors, and the cabinet doors are provided with handles.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. by adopting the device and arranging the dehumidifying device, moisture in the wardrobe can be removed, harmful gas in the wardrobe can be discharged out of the wardrobe body, and the drying and air refreshing of the interior of the wardrobe are ensured;

2. through setting up heating device, can carry out low heat heating to the wardrobe, detach the moisture in the wardrobe fast, dry the clothes, guarantee the safe storage of clothes.

Drawings

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

FIG. 2 is a schematic view of the ventilation and dehumidification mechanism of the present invention;

the labels in the figure are: the cabinet comprises a cabinet body 1, a bottom 2, a top 3, a cabinet door 4, a handle 5, a vent 6, a side plate 7, a top plate 8, a ventilation and dehumidification mechanism 9, a controller 10, a motor 11, a fan 12, an impeller 13, an air inlet 14, an air vent pipe 15, a flow rate sensor 16, a pipeline humidity sensor 17, a temperature sensor 18, a heater 19, a moisture absorber 20, a filter 21, an in-cabinet humidity sensor 22 and an out-cabinet humidity sensor 23.

Detailed Description

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

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example 1:

as shown in fig. 1 and 2, the utility model discloses a preferred embodiment of an intelligent safe dehumidifying wardrobe, which comprises a wardrobe body 1, wherein the wardrobe body 1 comprises a bottom 2 and a top 3, the wardrobe body 1 comprises a side plate 7, a top plate 8 and a bottom plate, the side plate 7, the top plate 8 and the bottom plate are spliced with each other to form a frame structure, a plurality of partition plates are arranged in the frame structure, and a plurality of vent holes are formed in the partition plates; the frame structure is provided with a plurality of cabinet doors 4, and the cabinet doors 4 are provided with handles 5.

A ventilation and dehumidification mechanism 9 is arranged at the bottom 2 or the top 3 in the cabinet body 1, the ventilation and dehumidification mechanism 9 comprises an air driving mechanism, the air driving mechanism is used for driving air to circulate, the air driving mechanism comprises a motor 11, and the motor 11 is connected with a controller 10 through a cable; the dehumidifying apparatus includes a heater 19, and the heater 19 is electrically connected to the controller 10 through a cable.

The air driving machine comprises a fan 12, an impeller 13 is arranged in the fan 12, a rotating shaft of the impeller 13 is connected with rotating shaft power of a motor 11, one end of the fan 12 is connected with an air inlet 14, the air inlet 14 is communicated with the inside of the cabinet body 1, the other end of the fan 12 is connected with a vent pipe 15, one end of the vent pipe 15 is communicated with the fan 12 in a linear mode, and the other end of the vent pipe 15 is communicated with a dehumidifying device.

The ventilation dehumidifying mechanism 9 includes dehumidifying means for removing moisture from air that enters the wardrobe from the outside. The dehydrating unit includes desiccator 20, desiccator 20 with heater 19 adjacent setting, desiccator 20 with heater 19 is linked together, dehydrating unit includes filter 21, filter 21 with desiccator 20 is linked together, filter 21 has vent 6 through the channel connection, vent 6 set up in bottom 2 and top 3 of the cabinet body 1. A plurality of rigid filter screens with different thicknesses are arranged in the filter 21, a moisture absorbent is arranged in the moisture absorber 20 and is water-absorbing plastic particles, and a net-shaped heating wire is arranged in the heater 19 and is electrically connected with the controller 10 through a cable.

Humidity transducer 22 in the cabinet is provided with in the cabinet body 1, 6 departments of vent are provided with humidity transducer 23 outside the cabinet, humidity transducer 22 in the cabinet, humidity transducer 23 outside the cabinet with controller 10 signal links to each other, be provided with flow rate sensor 16, pipeline humidity transducer 17, temperature sensor 18 in the breather pipe 15, flow rate sensor 16, pipeline humidity transducer 17, temperature sensor 18 pass through the cable with controller 10 signal links to each other.

The controller 10 includes a central processing unit, a power supply circuit, and the power supply circuit supplies power to the entire apparatus; the central processing unit is connected with a motor driving circuit, an electric energy input end of the motor driving circuit is electrically connected with the power circuit, an electric energy output end of the motor driving circuit is electrically connected with the motor 11, and the central processing unit controls the rotating speed of the motor 11 through the motor driving circuit. The central processing unit is connected with a heating wire driving circuit, the electric energy input end of the heating wire driving circuit is electrically connected with the power circuit, the electric energy output end of the heating wire driving circuit is electrically connected with the mesh heating wire through a cable, and the central processing unit controls the output power of the mesh heating wire through the heating wire driving circuit.

The central processing unit is connected with an A/D conversion circuit, the digital signal output end of the A/D conversion circuit is connected with the signal of the central processing unit, the analog input end of the A/D conversion circuit is connected with a gate, the output end of the gate is connected with the analog input end of the A/D conversion circuit, and a plurality of input ends of the gate are respectively and electrically connected with the flow velocity sensor 16, the pipeline humidity sensor 17, the temperature sensor 18, the humidity sensor 22 in the cabinet and the humidity sensor 23 outside the cabinet through cables; and the control end of the gating device is connected with the central processing unit through signals.

When the ventilation and dehumidification device is used specifically, the ventilation and dehumidification mechanism 9 is powered on, the central processing unit controls the gate to be sequentially connected with the flow rate sensor 16, the pipeline humidity sensor 17, the temperature sensor 18, the in-cabinet humidity sensor 22 and the out-cabinet humidity sensor 23, and the A/D conversion circuit converts data collected by the flow rate sensor 16, the pipeline humidity sensor 17, the temperature sensor 18, the in-cabinet humidity sensor 22 and the out-cabinet humidity sensor 23 into digital signals and transmits the digital signals to the central processing unit.

When the central processing unit receives that the value of the humidity sensor 22 in the cabinet is greater than the preset value D1, the central processing unit controls the motor 11 to rotate forward through the motor driving circuit, and outside air enters the ventilation pipe 15 through the ventilation opening 6, the filter 21, the moisture absorber 20 and the heater 19. The filter 21 is used for filtering dust in the air, the moisture absorber 20 is used for absorbing moisture in the air to keep the air entering the cabinet body 1 dry, then the air enters the fan 12 and finally enters the cabinet body 1, and the air in the dry air cabinet body is discharged through various gaps, so that the air drying of the cabinet body 1 is realized.

Meanwhile, the outside humidity sensor 23 and the pipeline humidity sensor 17 transmit the outside humidity information and the humidity information of the air in the pipeline to the central processing unit. When the difference between the humidity of the air in the ventilation pipe 15 and the humidity of the outside is smaller than the preset value D2, the central processing unit controls the motor 11 to rotate reversely through the motor driving circuit, so that the air in the cabinet 1 enters the heater 19 through the fan 12 and the ventilation pipe 15. The central processing unit controls the mesh heating wire to heat through the heating wire driving circuit, so as to heat air, and the hot air can take away the water in the water absorption plastic in the moisture absorber 20, so that the water absorption plastic in the moisture absorber 20 can be reused. Meanwhile, the mesh heating wires can also heat air entering the cabinet body, so that the dehumidification effect is improved.

By adopting the device and arranging the dehumidifying device, moisture in the wardrobe can be removed, harmful gas in the wardrobe can be discharged out of the wardrobe body, and the drying and air refreshing of the interior of the wardrobe are ensured; the clothes drying device can perform low-heat heating on the wardrobe, quickly remove moisture in the wardrobe, dry clothes and ensure safe storage of the clothes.

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 utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an intelligent security dehumidification wardrobe which characterized in that: the wardrobe comprises a wardrobe body (1), wherein the wardrobe body (1) comprises a bottom (2) and a top (3), a ventilation and dehumidification mechanism (9) is arranged at the bottom (2) or the top (3) in the wardrobe body (1), the ventilation and dehumidification mechanism (9) comprises an air driving mechanism, the air driving mechanism is used for driving air to circulate, the ventilation and dehumidification mechanism (9) comprises a dehumidification device, and the dehumidification device is used for removing moisture in air entering the wardrobe from the outside; the air driving mechanism comprises a motor (11), and the motor (11) is connected with a controller (10) through a cable; the dehumidification device comprises a filter (21), the filter (21) is connected with a ventilation opening (6) through a channel, and the ventilation opening (6) is arranged at the bottom (2) and the top (3) of the cabinet body (1); the air driving machine comprises a fan (12), one end of the fan (12) is connected with an air inlet (14), the air inlet (14) is communicated with the inside of the cabinet body (1), the other end of the fan (12) is connected with a vent pipe (15), one end of the vent pipe (15) is communicated with the fan (12), and the other end of the vent pipe (15) is communicated with the dehumidifying device; be provided with humidity transducer (22) in the cabinet body (1), vent (6) department is provided with humidity transducer (23) outside the cabinet, humidity transducer (22), the outside humidity transducer (23) of cabinet in the cabinet with controller (10) signal links to each other, be provided with pipeline humidity transducer (17) in breather pipe (15), pipeline humidity transducer (17) pass through the cable with controller (10) signal links to each other.

2. The intelligent safety dehumidifying wardrobe of claim 1, wherein: the dehumidifying device comprises a heater (19), and the heater (19) is electrically connected with the controller (10) through a cable.

3. The intelligent safety dehumidifying wardrobe of claim 2, wherein: the dehumidifying device comprises a moisture absorber (20), the moisture absorber (20) is arranged adjacent to the heater (19), the moisture absorber (20) is communicated with the heater (19), and the filter (21) is communicated with the moisture absorber (20).

4. The intelligent safety dehumidifying wardrobe of claim 3, wherein: an impeller (13) is arranged in the fan (12), and a rotating shaft of the impeller (13) is in power connection with a rotating shaft of the motor (11).

5. The intelligent safety dehumidifying wardrobe of claim 4, wherein: a plurality of rigid filter screens with different thicknesses are arranged in the filter (21), a moisture absorbent is arranged in the moisture absorber (20), the moisture absorbent is water-absorbing plastic particles, and a net-shaped heating wire is arranged in the heater (19) and is electrically connected with the controller (10) through a cable.

6. The intelligent safety dehumidifying wardrobe of claim 5, wherein: a flow rate sensor (16) and a temperature sensor (18) are arranged in the ventilation pipe (15), and the flow rate sensor (16) and the temperature sensor (18) are in signal connection with the controller (10) through cables.

7. The intelligent safety dehumidifying wardrobe of claim 6, wherein: the controller (10) comprises a central processing unit and a power supply circuit, wherein the power supply circuit supplies power to the whole equipment; the central processing unit is connected with a motor driving circuit, the electric energy input end of the motor driving circuit is electrically connected with the power circuit, the electric energy output end of the motor driving circuit is electrically connected with the motor (11), and the central processing unit controls the rotating speed of the motor (11) through the motor driving circuit.

8. The intelligent safety dehumidifying wardrobe of claim 7, wherein: the central processing unit is connected with a heating wire driving circuit, the electric energy input end of the heating wire driving circuit is electrically connected with the power circuit, the electric energy output end of the heating wire driving circuit is electrically connected with the mesh heating wire through a cable, and the central processing unit controls the output power of the mesh heating wire through the heating wire driving circuit.

9. The intelligent safety dehumidifying wardrobe of claim 8, wherein: the central processing unit is connected with an A/D conversion circuit, the digital signal output end of the A/D conversion circuit is connected with the signal of the central processing unit, the analog input end of the A/D conversion circuit is connected with a gate, the output end of the gate is connected with the analog input end of the A/D conversion circuit, and a plurality of input ends of the gate are respectively and electrically connected with the flow velocity sensor (16), the pipeline humidity sensor (17), the temperature sensor (18), the humidity sensor (22) in the cabinet and the humidity sensor (23) outside the cabinet through cables; and the control end of the gating device is connected with the central processing unit through signals.

10. An intelligent safety dehumidifying wardrobe as claimed in any one of claims 1-9, wherein: the cabinet body (1) comprises side plates (7), a top plate (8) and a bottom plate, wherein the side plates (7), the top plate (8) and the bottom plate are spliced with one another to form a frame structure, a plurality of partition plates are arranged in the frame structure, and a plurality of vent holes are formed in the partition plates; the frame structure is provided with a plurality of cabinet doors (4), and the cabinet doors (4) are provided with handles (5).

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