CN108713891B - Intelligent wardrobe with water collecting and draining functions - Google Patents

Abstract

The invention provides an intelligent wardrobe with water collecting and draining functions, which comprises a wardrobe box body with a box opening, a wardrobe door rotatably arranged on one side of the wardrobe box body, a clothes hanging rod and/or a storage interlayer arranged in the wardrobe box body, and the intelligent wardrobe also comprises a water guide plate and a heating module which are fixed in the wardrobe box body, wherein the heating module comprises a heating assembly and a fan assembly, the water guide plate comprises a first water guide plate and a second water guide plate integrally connected with the first water guide plate, and the first water guide plate and the second water guide plate do not extend in the same plane. Inside water guide plate structure of intelligence wardrobe and position design cooperation below hold the chamber structure for the water droplet can gather at predetermined position along predetermined flow direction, avoids the water droplet to get into inside the heating module. Meanwhile, all parts in the whole intelligent wardrobe are reasonable in layout, convenient to use in practice, good in drying effect, simple in structure and easy for large-scale industrial production.

Description

Intelligent wardrobe with water collecting and draining functions

Technical Field

The invention relates to the field of wardrobes, in particular to an intelligent wardrobe with water collecting and draining functions.

Background

In winter or plum rain season, the sunshine is less, the air humidity is big, and the clothes shoes can't dry in the short time after having washed, especially the resident family in the hotel, because most hotels do not set up the balcony, therefore the sunning of clothing is just more inconvenient.

As in the prior art, the patent with application number 201310661961.2 discloses an intelligent dryer, which comprises a cabinet, a door, lifting tracks, clothes-drying rods, a heater, an ozone generator and a control panel, wherein the door is arranged on the front surface of the cabinet, the lifting tracks are arranged on the inner walls of the left side and the right side of the cabinet, the clothes-drying rods are arranged between the two lifting tracks and can slide up and down, the heater and the ozone generator are adjacently arranged at the bottom of the cabinet, and the control panel is arranged on the door and used for controlling the heating temperature and the lifting of the clothes-drying rods. The dryer improves the temperature inside the cabinet through the heater, and then the ozone generator carries out all-dimensional sterilization and disinfection on clothes, the dryer can perfectly solve the problem of drying the clothes in the hotel, and after the dryer is combined with the wardrobe, the dryer not only can be used as drying equipment, but also can be used as the wardrobe to store the clothes when not opened, the function of the wardrobe is increased, and the dryer does not need to be added to occupy the limited space in the room, and can provide convenience for residents.

However, when the wardrobe is actually used, the clothes which are just washed may drip, and once the dripping water enters the heater and the ozone generator, the equipment may be damaged, so that the drying and sterilizing operations may not be performed normally.

In addition, this kind of wardrobe among the prior art does not design any wardrobe and external interactive exhaust drainage facility, and when this wardrobe of practical use again, especially when the wardrobe is put into to the comparatively heavy wet clothes storage of winter, often have a large amount of steam and need discharge, and this kind of wardrobe clothes storage space among the prior art is comparatively airtight, is actually unfavorable for the stoving of clothes. In addition, a large amount of water vapor which cannot be discharged can pollute the wardrobe and breed bacteria after a long time.

In addition, the wardrobe in the prior art has unreasonable internal overall layout, for example, the heater and the ozone generator are directly arranged at the bottommost part of the space in the wardrobe, so that the service life and the use effect of the heater and the ozone generator are not good.

In addition, the wardrobe in the prior art has no protective measures for modules such as the heater, the ozone generator and the like, so that water drops are easy to splash into the heater and the ozone generator when clothes are wet, and the service life of the heater and the ozone generator cannot be guaranteed.

In view of the above, there is a need for an improved intelligent wardrobe to solve the above problems.

Disclosure of Invention

The invention aims to provide an intelligent wardrobe with water collecting and draining functions, which has a drying function and a water collecting and draining function.

In order to achieve the purpose, the invention provides an intelligent wardrobe with water collecting and draining functions, which comprises a wardrobe box body with a box opening, a wardrobe door rotatably arranged on one side of the wardrobe box body, and a clothes hanging rod and/or a storage interlayer arranged in the wardrobe box body, wherein the wardrobe box body comprises a left side plate, a right side plate, a top plate, a bottom plate and a rear side plate which are connected into a whole, the right side plate is opposite to the left side plate, the bottom plate is opposite to the top plate, the heating module comprises a bracket component, an air guide plate component assembled above the bracket component, a base component fixed below the bracket component, a heating component assembled between the bracket component and the base component, and a fan component assembled at the bottom of the base component, the water guide plate comprises a first water guide plate and a second water guide plate integrally connected with the first water guide plate, the wardrobe comprises a wardrobe body, a wardrobe door, a heating module, a first water guide plate, a second water guide plate, a left side plate, a right side plate, a top plate, a bottom plate, a rear side plate and a wardrobe door, wherein the first water guide plate and the second water guide plate do not extend in the same plane, the left side plate, the right side plate, the top plate, the bottom plate, the rear side plate and the wardrobe door form a wardrobe cavity, the wardrobe cavity is divided into an upper space and a lower space by the water guide plates, the lower space is used for collecting water, the heating module is fixed on the water guide plates and communicates the upper space with the lower space, through holes are formed in the first water guide plate and/or the second water guide plate, the air guide plate assembly comprises an air guide plate.

As a further improvement of the invention, the side edges of the first water guide plate are correspondingly fixed with the left side plate, the right side plate and the rear side plate, and the two opposite side edges of the second water guide plate are correspondingly fixed with the left side plate and the right side plate.

As a further improvement of the invention, the heating module is assembled and fixed at the middle position of the first water guide plate.

As a further improvement of the invention, step portions protruding toward the wardrobe case are formed at positions of the left side plate, the right side plate and the rear side plate corresponding to the water guide plates, and edges of the first water guide plate and the second water guide plate are correspondingly supported above the step portions and are sealed and fixed by sealant or welding.

As a further improvement of the invention, the inner surface of the bottom plate is downwards concave to form an accommodating cavity, and the edge of the second water guide plate close to the tank opening side is fixed with the groove wall of the accommodating cavity of the bottom plate.

As a further improvement of the invention, a plurality of through holes are formed at the edge position of the second water guide plate close to the box opening, and the through holes are used for spatially communicating the upper position and the lower position of the water guide plate.

As a further improvement of the invention, a ventilation module communicated with the outside is arranged below the first water guide plate on the rear side plate of the wardrobe box body.

As a further improvement of the wardrobe, the first water guide plate inclines for a first angle along the depth direction of the wardrobe box body, the second water guide plate inclines for a second angle along the depth direction of the wardrobe box body, and the first angle is smaller than the second angle.

As a further improvement of the present invention, the first angle is greater than 0 degrees and less than 20 degrees, and the second angle is greater than 30 degrees and not greater than 90 degrees.

As a further improvement of the intelligent wardrobe, the intelligent wardrobe further comprises a control module assembled on the wardrobe body, a control panel installed on the wardrobe door, and a temperature sensor and a humidity sensor assembled in the wardrobe body, wherein a ventilation module is formed on the left side plate and/or the right side plate and/or the rear side plate of the wardrobe body, the control module is in communication connection with the heating assembly and the fan assembly, the control panel is in communication connection with the control module, the ventilation module is in communication connection with the control module, and the temperature sensor and the humidity sensor are correspondingly in communication connection with the control panel.

The invention has the beneficial effects that: the structure and the position of the water guide plate in the intelligent wardrobe are designed to be matched with the structure of the containing cavity below the intelligent wardrobe, so that water drops can be gathered at a preset position along a preset flow direction. The brief introduction avoids the risk of water droplets entering the interior of the heating module. Meanwhile, all parts in the whole intelligent wardrobe are reasonable in layout, convenient to use in practice, good in drying effect, simple in structure and easy for large-scale industrial production.

Drawings

Fig. 1 is a perspective view of the intelligent wardrobe of the present invention.

Fig. 2 is a partially exploded perspective view of the intelligent wardrobe showing a perspective view of the intelligent wardrobe with the wardrobe door separated from the wardrobe body.

Fig. 3 is a front view of the intelligent wardrobe shown in fig. 2.

Fig. 4 is a partially exploded perspective view of the intelligent wardrobe of the present invention, showing the exploded view of the heating module, the water guide plate and the wardrobe body inside the intelligent wardrobe after the wardrobe door is removed.

Fig. 5 is a side view of the intelligent wardrobe after the combination of the heating module and the water guide plate.

Fig. 6 is an enlarged view of a portion of fig. 5 shown in phantom.

Fig. 7 is a partially exploded perspective view of the heating module and the water deflector of fig. 6, showing the water deflector and the air deflector in an exploded perspective view after being separated from the heating module.

Fig. 8 is an exploded perspective view of the heating module and the water guide plate of the intelligent wardrobe according to the present invention.

Fig. 9 is a perspective view of fig. 8 from another angle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. For clarity and accuracy of description herein, all references to directions are made uniformly with reference to FIG. 2.

Referring to fig. 1 to 7, the invention discloses an intelligent wardrobe 100 having a function of drying clothes, wherein the intelligent wardrobe 100 comprises a rectangular wardrobe body 1 with a box opening 10, a wardrobe door 2 rotatably mounted on one side of the wardrobe body 1, a clothes hanging rod 3 mounted in the wardrobe body, a storage interlayer 4 mounted in the wardrobe body, a water guide plate 5 mounted in the wardrobe body 1, and a heating module 6 mounted on the water guide plate 5.

Referring to fig. 4 of fig. 1, the wardrobe casing 1 is formed with a left side plate 11, a right side plate 12 opposite to the left side plate 11, a top plate 13, a bottom plate 14 opposite to the top plate 13, and a rear side plate 15, and the left side plate 11, the right side plate 12, the top plate 13, the bottom plate 14, and the rear side plate 15 are integrally connected together to form a rectangular open-ended casing structure. The outer side surface of the top plate 13 is provided with a control module 131, and the control module 131 is used for intelligently controlling each function of the intelligent wardrobe 100.

Referring to fig. 1 to 3, the wardrobe door 2 is substantially rectangular plate-shaped, and one side of the wardrobe door 2 is rotatably connected to the wardrobe body 1 by a hinge structure. And a sealing strip assembly (not shown) for sealing and heat preservation is fixedly arranged at the position, attached to the wardrobe body 1, of the periphery of the inner wall of the wardrobe door 2. The outer surface of the wardrobe door 2 is provided with a control panel 21, the control panel 21 comprises a control button (not marked) and a display module (not marked), and the control panel 21 is in communication connection with the control module 131 through a circuit. The control buttons are provided with a plurality of control buttons, and the control buttons comprise a switch button, a temperature adjusting button, a wind speed adjusting button, a mode selecting button, a timing button and the like. The display module comprises a temperature display module, a humidity display module, a heating timing display module, a wind speed display module and the like. The wardrobe door 2 and the wardrobe body 1 are both made of two layers of metal plates, and heat insulation materials are filled between the two layers of metal plates.

Referring to fig. 2 to 4, a temperature sensor 151 and a humidity sensor 152 are fixedly disposed on the rear side plate 15 of the wardrobe body 1. A ventilation module 153 is further disposed on the rear side plate 15 near the upper position. The ventilation module 153 is in communication connection with the control module 131, and the temperature sensor 151 and the humidity sensor 152 are in communication connection with the control module 131. The control module 131 can control the ventilation module 153 to open and close. The ventilation module 153 includes an exhaust fan (labeled) capable of ventilating the inside and outside of the wardrobe body 1. A ventilating storage box 155 is installed at a middle position of the rear side plate 15 below the temperature sensor 151 and the humidity sensor 152, and incense and/or a desiccant and/or a plasma sterilizer (not shown) are placed in the ventilating storage box 155.

Referring to fig. 2 to 4, the clothes rail 3 is formed in a cylindrical bar shape. Comprises a first section 31 with a larger cross section, a second section 32 with a smaller cross section and an adjusting knob 33. The first section 31 is sleeved on the periphery of the second section 32, and the adjusting knob 33 is sleeved at the joint of the first section 31 and the second section 32. The wardrobe body 1 has fixing positions (not marked) corresponding to the left side plate 11 and the right side plate 12 and fixed to the clothes hanging rod 3. When the clothes hanging rod 3 is used, the two ends of the clothes hanging rod 3 are correspondingly sleeved and fixed on the fixing positions, and the adjusting knob 33 is adjusted to limit the extension and contraction of the clothes hanging rod 3, so that the clothes hanging rod 3 is installed. The clothes hanging rod 3 is used for hanging clothes.

In some preferred embodiments, a plurality of spacing members (not shown) are formed on the clothes rail 3 at intervals according to the width of the inner space of the wardrobe housing 1. In some embodiments, the limiting component is a limiting clamping groove structure which is formed by inwards sinking the periphery of the clothes hanging rod 3 and is used for limiting the clothes hanger; in some embodiments, the position-limiting member is a fixed clamping structure (e.g. a C-shaped ring) clamped on the periphery of the clothes rail 3, and a position-limiting structure (e.g. a groove structure or an integrally arranged annular ring structure) for limiting the clothes rack is formed on the position-limiting member (i.e. the fixed clamping structure). It should be noted that, when the distance between the adjacent limiting members needs to work according to the total width of the wardrobe box and by combining the intelligent wardrobe 100, the circulation speed of air at each angle and position inside the wardrobe box 1 ensures that the air at each angle and position inside the wardrobe box 1 can flow under the condition that clothes are hung on each limiting member, so as to ensure the drying efficiency. The distance between two adjacent stop members is preferably not less than 10 cm and not more than 25 cm.

In addition, in some embodiments, in order to adapt to clothes with different heights and shoulder widths and to adapt to the conditions of other fabrics (such as dolls, sheets and the like) except clothes, the fixing positions of the two ends of the clothes hanging rod 3 can be adjusted inside the wardrobe box 1, and the fixing positions can be specifically realized by arranging a plurality of fixing positions for fixing the clothes hanging rod.

Referring to fig. 2 to 4, at least a pair of fixing feet 40 is correspondingly and fixedly disposed on the left side plate 11 and the right side plate 12 of the wardrobe body 1 below the fixing positions, the storage compartment 4 is correspondingly supported on the fixing feet 40, and the storage compartment 4 is a flat grid-shaped metal plate structure.

In some embodiments, the fixing feet 40 may be designed to be provided with a plurality of pairs, which are respectively located at different heights in the height direction of the wardrobe housing 1. The storage compartment 4 is designed to be detachable and can be respectively placed on the fixed feet 40 with different heights, and in some embodiments, the storage compartment 4 can be designed to be step-shaped and have similar Z shapes with different heights. The wardrobe is used for effectively utilizing the inner space of the wardrobe body 1 and hanging clothes of different sizes, the storage interlayer 4 is used for placing the clothes, the storage interlayer 4 is a latticed metal plate or a bearing plate with through holes which are vertically communicated, and the bearing plate can be of a plastic structure or a wood structure or a metal structure.

Referring to fig. 2 to 4, a water guide plate 5 is fixedly arranged inside the wardrobe body 1 and near the bottom plate. The water guide plate 5 includes a first flat water guide plate 51 and a second flat water guide plate 52 which are connected at a certain angle. The first water guide plate 51 is inclined at a first angle along the depth direction of the wardrobe case 1. The second water guide plate 51 is inclined at a second angle along the depth direction of the wardrobe case 1, and the first angle is smaller than the second angle. Referring to fig. 2, the first water guide plate 51 is almost parallel to the horizontal plane because the first angle is small. In the present invention, it is preferable that the first angle is greater than 0 degree and less than 20 degrees, and it is preferable that the second angle is greater than 30 degrees and not greater than 90 degrees.

Referring to fig. 2 to 4, stepped portions 102 protruding toward the inside of the wardrobe case 1 are formed at positions of the left side plate 11, the right side plate 12, and the rear side plate 15 corresponding to the water guide plate 5, and edges of the water guide plate 5 are supported above the stepped portions 102 and are sealed and fixed by a sealant or welding. The inner surface of the bottom plate 14 is recessed downwards to form an accommodating cavity 141, and the edge of the second water guide plate 51 of the water guide plate 5 close to the tank opening 10 is fixed to the wall of the accommodating cavity 141 of the bottom plate 14. A plurality of through holes 53 are formed on the second water guide plate 51 of the water guide plate 5 near the edge of the tank opening 10. When in use, water drops on the clothes are guided by the water guide plate and flow into the accommodating cavity 141 through the through hole 53. The rear side plate of the wardrobe box body 1 is provided with a ventilation module 154 below the first water guide plate 51, and the ventilation module 154 is used for communicating the space of the wardrobe box body 1 below the water guide plate 5 with the external space.

Referring to fig. 2 to 6, a through hole 510 is formed through the middle position of the first water guide plate 51, the heating module 6 is mounted and fixed on the through hole 510, and the heating module 6 includes a bracket assembly 61, an air guide plate assembly 62 assembled above the bracket assembly 61, a base assembly 63 fixed below the bracket assembly 61, a heating assembly 64 assembled between the bracket assembly 61 and the base assembly 63, and a fan assembly 65 assembled at the bottom of the base assembly 63.

The bracket assembly 61 is substantially a square frame, and includes a frame-shaped bearing plate 611 extending horizontally and a frame-shaped water retaining frame 612 formed by vertically extending the middle of the bearing plate 611. The bearing plate 611 is located inside the water retaining frame 612 to form a plurality of fixing feet 613. A ventilation hole 610 penetrating in the up-down direction is formed at a middle position of the bracket assembly 61 (i.e., at a middle position of the loading plate 611). A frame-shaped limiting frame 614 is formed at the middle position of the lower surface of the bearing plate 611 in a downward vertical protruding manner, a notch-shaped line collecting groove 615 is formed in the side edge of the limiting frame 614 in a recessed manner, an installation groove 616 is formed on the side edge of the limiting frame 614 opposite to the line collecting groove 615, the installation groove 616 extends in the up-down direction, and a temperature monitoring device (not shown, for example, a temperature sensor) is assembled in the installation groove 616 for monitoring the heating temperature of the heating component 64.

Referring to fig. 7 to 9, eight evenly distributed sheet-shaped limiting portions 617 are formed in the vent holes 610 at the connection positions of the lower surface of the supporting plate 611 of the bracket assembly 61 and the limiting frame 614, and a step-shaped limiting notch 618 is formed in a portion of the limiting portion 617, which is far away from a lower corner of an end edge of the limiting frame 614, in an inward recessed manner. The limiting notch 618 is used for limiting and fixing the heating assembly 64 in the left, right, front and rear directions.

Referring to fig. 7 to 9, the base assembly 63 is substantially in the shape of a trapezoid tube, and a lower end frame opening of the base assembly 63 is smaller than an upper end frame opening of the base assembly 63. The upper end edge of the base member 63 extends outwardly to form ears 631. A sheet-shaped bearing portion 632 extends inward from the inner wall surface of the base member 63. The upper edge of the base component 63 is also formed with a matching groove 633 corresponding to the wire-receiving groove 615 of the position-limiting frame 614, and the upper edge of the base component 63 is formed with an adapting groove 634 corresponding to the position of the mounting groove 616 of the position-limiting frame 614. During assembly, the fan assembly 65 is first assembled and fixed to the lower end frame opening of the base assembly 63 (which may be fixed by bolts or welded), then the heating assembly 64 is placed and supported on the bearing portion 632, the temperature monitoring device is correspondingly inserted into the matching groove 634, a connecting cable (not shown) of the heating assembly 64 passes through the matching groove 633, then the limiting frame 614 of the bracket assembly 61 and the upper end frame opening of the base assembly 63 are relatively fixed in a sleeved manner, and finally the ear portion fixes the base assembly 63 and the bracket assembly 61 by bolts. At this time, the heating element 64 is fixed by the bearing portion 632 and the limiting portion 617, and the temperature monitoring device is limited between the matching groove 634 and the mounting groove 616.

In the invention, the heating module 6 has a stable overall structure due to the structure and the matching relationship of the heating component 64, the fan component 65, the base component 63 and the air deflector component 62, and the heating component 64 and the temperature monitoring equipment are arranged side by side, so that the temperature monitoring equipment can obtain more accurate monitoring data when the equipment works normally. Of course, the temperature monitoring device is easily damaged by high temperature when being disposed above the heating element 64, and the data monitored by the temperature monitoring device is easily inaccurate when being disposed below the heating element 64.

Referring to fig. 2 to 7, the air guiding plate assembly 62 includes an air guiding plate 621 and a mounting leg 622. Referring to fig. 6, an inclined wind-guiding bevel portion 623 is formed at the periphery of the lower surface of the wind-guiding plate 621 for guiding the blown hot wind. The air guiding plate 621 is spaced from the upper edge of the water retaining frame 612 by a specific distance in the vertical direction, and the air guiding plate 621 is fixed to the fixing leg 613 by the mounting leg 622. In actual production, the fixing foot 613 may be a threaded hole, and the mounting foot 622 may be a bolt. In other embodiments, the mounting foot 622 may be a column structure, and the mounting foot 622 may fix the air guiding plate 621 and the fixing foot 613 by welding, gluing, or the like. The bearing plate 611 of the air deflection assembly 62 is correspondingly attached to the periphery of the through hole 510 on the lower surface of the water deflector 5, and specifically, the bearing plate 611 of the air deflection assembly 62 and the water deflector 5 can be fixed by bolts, welding, or gluing, and a waterproof rubber ring can be added to prevent water at the joint of the bearing plate 611 and the water deflector 5 when necessary. The water blocking frame 612 passes through the through hole 510 and protrudes above the upper surface of the first water guide plate 51. Of course, in other embodiments, the bearing plate 611 of the air guiding plate assembly 62 may also correspondingly bear the periphery of the through hole 510 attached to the upper surface of the water guiding plate 5.

In the present invention, the outer contour of the air deflector 621 is larger than the outer contour of the water blocking frame 612, so that the air deflector 621 can completely shield the ventilation hole 610 above the water blocking frame 612, and prevent water drops from flowing into or dropping into the heating module 6 through the ventilation hole 610.

In the present invention, the heating assembly 64 and the fan assembly 65 are respectively connected to a power source and are communicatively connected to the control module 131. When the user puts wet laundry into the intelligent wardrobe 100 and closes the wardrobe door, the user activates the intelligent wardrobe 100 by manipulating the switch buttons on the control panel 21. The control module 131 controls the heating assembly 64 and the fan assembly 65 to work and generate hot air, and the hot air is blown out to the wardrobe body 1 through the ventilation hole 610 of the bracket assembly 61, the air guide plate 621 blocks the air, the periphery of the air and the gap between the air guide plate 621 and the water retaining frame 612 of the bracket assembly 61. Due to the arrangement of the air guide plate 621, on one hand, water drops on clothes can be prevented from dropping into the heating module 6, and meanwhile, the air guide plate can guide the hot air blown upwards, so that the hot air is diffused from the periphery, and the internal air flow can generate a circulating effect by combining the internal space of the wardrobe body 1, so that the drying speed of the clothes can be increased.

The following describes the manufacturing method of the intelligent wardrobe 100 in detail, including the following steps:

A. manufacturing a wardrobe body 1;

B. acquiring a control module 131, and assembling the control module 131 to the wardrobe body 1;

C. acquiring a temperature sensor 151 and a humidity sensor 152, assembling the temperature sensor 151 and the humidity sensor 152 into the wardrobe body 1, and connecting the temperature sensor 151 and the humidity sensor 152 with the control module 131 in a communication manner;

D. acquiring a ventilation module 153 and a ventilation module 154, correspondingly assembling the ventilation module 153 and the ventilation module 154 to specified positions in the wardrobe box body 1 respectively, and connecting the ventilation module 153 with the control module 131 in a communication manner;

E. acquiring a base assembly 63 and a heating assembly 64, and erecting and installing the heating assembly 64 on the base assembly 63;

F. acquiring temperature monitoring equipment, and erecting and installing the temperature monitoring equipment to one side of a base component;

G. acquiring a bracket assembly 61, fixedly sleeving the bracket assembly 61 and a base assembly 63, and locking the bracket assembly 61 and the base assembly 63 through bolts;

H. obtaining a fan assembly 65, and assembling and fixing the fan assembly 65 below a base assembly 63;

I. acquiring a water guide plate 5, and assembling and fixing the bracket assembly 61 which is provided with the base assembly 63, the heating assembly 64, the temperature monitoring device and the fan assembly 65 and is manufactured in the step E, F, G, H with the water guide plate 5;

J. acquiring an air deflector assembly 62, and fixing the air deflector assembly 62 to the bracket assembly 61 in the step I;

K. fixing the water guide plate 5 assembled with the heating module 6 and manufactured in the step E, F, G, H, I, J into the wardrobe body 1, and respectively connecting the fan assembly 65, the heating assembly 64 and the temperature monitoring device in communication with the control module 131;

l, obtaining a clothes hanging rod 3 and/or a storage interlayer 4, and assembling the clothes hanging rod 3 and/or the storage interlayer 4 into the wardrobe body 1;

m, obtaining a breathable storage box 155, and assembling the breathable storage box 155 into the wardrobe body 1;

n, obtaining a wardrobe door 2 and a control panel 21, assembling the control panel 21 on the wardrobe door 2, rotatably assembling the wardrobe door 2 assembled with the control panel 21 on a wardrobe box body through a hinge, and realizing communication connection between the control panel 21 and a control module 131;

the manufacturing method of the intelligent wardrobe 100 is simple and clear, and the intelligent wardrobe 100 manufactured by the manufacturing method of the intelligent wardrobe 100 has reasonable layout of all functional modules and long service life of the whole machine, and is suitable for large-scale industrial production.

In the working process of the intelligent wardrobe 100, the temperature sensor 151 and the humidity sensor 152 monitor the temperature and humidity changes in the wardrobe body 1 in real time and transmit the monitoring data to the control module 131 in real time, and of course, when the temperature and/or humidity in the wardrobe body 1 is higher than a preset value, the control module 131 drives the ventilation module 153 to open and synchronously drives the exhaust fan to rotate so as to exhaust the wardrobe body 1 outwards; when the temperature and/or humidity in the wardrobe body 1 is lower than a preset value, the control module 131 drives the ventilation module 153 to close, and synchronously controls the exhaust fan to stop rotating. In addition, the temperature and humidity data are transmitted to the display module on the control panel 21 for real-time display, and the preset values of the temperature and humidity are system default values of the control module 131, which are obtained by statistically considering that the drying time of the laundry is shortened as much as possible without damaging general laundry. For example, when the intelligent wardrobe 100 is in operation, the temperature inside the wardrobe case 1 is generally maintained at 50 degrees celsius and the humidity is maintained at 40%, and this is set as the default value of the system. Of course, in other embodiments, the preset value may be set in various manners, and different preset values may be set for different clothes attributes. For example, the preset values of the first mode and the second mode have different specified temperatures and humidities, and the preset values of the modes are correspondingly converted into different types of clothes drying instructions and switched through the mode selection buttons on the control panel 21. The user may select a suitable drying mode according to the kind of the laundry put into the intelligent wardrobe 100.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides an intelligence wardrobe with drainage function catchments, including the wardrobe box that is equipped with the case mouth, rotatory install in the wardrobe door of wardrobe box one side, install in hang clothing pole and/or storing interlayer in the wardrobe box, the wardrobe box includes interconnect left side board as an organic whole, right side board relative with the left side board, roof, bottom plate and posterior lateral plate relative with the roof, its characterized in that: the intelligent wardrobe also comprises a water guide plate and a heating module which are fixed in a wardrobe body, wherein the heating module comprises a bracket component, an air guide plate component assembled above the bracket component, a base component fixed below the bracket component, a heating component assembled between the bracket component and the base component and a fan component assembled at the bottom of the base component, the water guide plate comprises a first water guide plate and a second water guide plate integrally connected with the first water guide plate, the first water guide plate and the second water guide plate do not extend in the same plane, the left side plate, the right side plate, the top plate, the bottom plate, the rear side plate and the wardrobe door form a wardrobe cavity, the water guide plate divides the wardrobe cavity into an upper space and a lower space, the lower space is used for collecting water, the heating module is fixed on the water guide plate and communicates the upper space with the lower space, the first water guide plate and/or the second water guide plate are/is provided with through holes, the air guide plate assembly comprises an air guide plate and a mounting foot part, the air guide plate and the upper end edge of the water retaining frame are spaced at a specific distance in the vertical direction, and the air guide plate is fixed with the support assembly through the mounting foot part.

2. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: the side edges of the first water guide plate are correspondingly fixed with the left side plate, the right side plate and the rear side plate, and the two opposite side edges of the second water guide plate are correspondingly fixed with the left side plate and the right side plate.

3. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: the heating module is assembled and fixed in the middle of the first water guide plate.

4. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: the left side plate, the right side plate and the rear side plate are provided with step parts protruding towards the wardrobe body at positions corresponding to the water guide plates, and the edges of the first water guide plate and the second water guide plate are correspondingly born above the step parts and sealed and fixed through sealant or welding.

5. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: the inner surface of the bottom plate is downwards sunken to form an accommodating cavity, and the edge of the second water guide plate close to the box opening side is fixed with the groove wall of the accommodating cavity of the bottom plate.

6. The intelligent wardrobe with water collecting and draining functions as claimed in claim 5, wherein: and a plurality of through holes are formed in the edge position, close to the box opening, of the second water guide plate, and the through holes are used for communicating the upper position and the lower position of the water guide plate in space.

7. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: and a ventilation module communicated with the outside is arranged below the first water guide plate on the rear side plate of the wardrobe body in a group mode.

8. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: the first water guide plate inclines at a first angle along the depth direction of the wardrobe box body, the second water guide plate inclines at a second angle along the depth direction of the wardrobe box body, and the first angle is smaller than the second angle.

9. The intelligent wardrobe with water collecting and draining functions as claimed in claim 8, wherein: the first angle is greater than 0 degrees and less than 20 degrees, and the second angle is greater than 30 degrees and not greater than 90 degrees.

10. The intelligent wardrobe with water collecting and draining functions as claimed in claim 1, wherein: the intelligent wardrobe further comprises a control module assembled on the wardrobe box body, a control panel installed on the wardrobe door, and a temperature sensor and a humidity sensor assembled in the wardrobe box body, wherein a ventilation module is formed on the left side plate and/or the right side plate and/or the rear side plate of the wardrobe box body, the control module is in communication connection with the heating assembly and the fan assembly, the control panel is in communication connection with the control module, the ventilation module is in communication connection with the control module, and the temperature sensor and the humidity sensor are correspondingly in communication connection with the control panel.

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