CN114875641B

CN114875641B - Photovoltaic power supply's track-type intelligence clothes hanger that dries in air

Info

Publication number: CN114875641B
Application number: CN202210516909.7A
Authority: CN
Inventors: 郭远晶; 鲍雨梅; 林勇; 钱少明
Original assignee: Zhijiang College of ZJUT
Current assignee: Zhijiang College of ZJUT
Priority date: 2022-05-12
Filing date: 2022-05-12
Publication date: 2023-11-21
Anticipated expiration: 2042-05-12
Also published as: CN114875641A

Abstract

A photovoltaic power supply track type intelligent clothes hanger comprises a track, a traction device, a plurality of hook devices, a raindrop sensor and a photovoltaic assembly, wherein the track is hoisted below a ceiling of an indoor balcony, the traction device and the plurality of hook devices are glidingly hoisted on the track, and the raindrop sensor and the photovoltaic assembly are arranged outdoors; the traction device comprises a traction bracket parallel to the bottom surface of the track, a guide roller and a support roller are rotatably arranged in the middle of the traction bracket, a first motor and a second motor are respectively and electrically connected with a motor driver, the motor driver, a storage battery and a wireless communication module are respectively and electrically connected with a master controller, the storage battery and the master controller are electrically connected with a first cable through a wiring port, the first cable is connected to an adapter, a plurality of hook devices are sequentially arranged along the front-back direction, and the traction device is connected with the hook devices through a first connecting rod; the raindrop sensor and the photovoltaic module are electrically connected with the adapter through a second cable. The invention can conveniently adjust the position of clothes on the track, and can achieve the purposes of convenient power supply and energy saving by adopting photovoltaic power supply.

Description

Photovoltaic power supply's track-type intelligence clothes hanger that dries in air

Technical Field

The invention relates to the technical field of clothes hangers, in particular to a photovoltaic power supply track type intelligent clothes hanger.

Background

The clothes hanger is an essential article in daily life of people, and has the main function of hanging clothes and facilitating airing of the clothes. The clothes horses are usually hung on the ceilings of indoor balconies or windowsills, and are arranged on two sides, one side is close to the outside, and the other side goes deep into the room. The side close to the outside is easy to receive the irradiation of the sunny side, and the clothes are easier to dry, but are easier to be beaten by wind and rain. Most of the existing clothes hangers cannot adjust the positions of clothes on the inner side and the outer side. When the number of the clothes to be dried is large, particularly in winter, the outer clothes are easy to dry, and the inner clothes are difficult to dry. If the clothes are windy and rainy, the clothes on the outer side can be easily wetted by the rainwater. In addition, in many households or dormitories, a convenient, accessible and easy-to-use power supply is still lacking on a balcony or a windowsill, and if the intelligent clothes hanger is to be used, a power supply circuit needs to be modified, which is a troublesome matter.

Disclosure of Invention

In order to overcome the problems, the invention provides a photovoltaic power supply track type intelligent clothes hanger.

The technical scheme adopted by the invention is as follows: a photovoltaic power supply track type intelligent clothes hanger comprises a track, a traction device, a plurality of hook devices, a raindrop sensor and a photovoltaic assembly, wherein the track is hoisted below a ceiling of an indoor balcony, the traction device and the plurality of hook devices are glidingly hoisted on the track, and the raindrop sensor and the photovoltaic assembly are arranged outdoors; taking the walking direction of the traction device as the front-back direction, and taking the direction vertical to the front-back direction in the horizontal plane as the left-right direction;

the rail is elliptical as a whole and comprises two sections of mutually parallel linear rails, the ends of adjacent linear rails are connected in a smooth manner through circular arc rails to form a closed structure, and the two linear rails and the two circular arc rails are symmetrically arranged; the cross section of the rail is I-shaped, a left groove rail is formed on the left side of the rail, and a right groove rail is formed on the right side of the rail;

the traction device comprises a traction bracket parallel to the bottom surface of the track, a guide roller and a support roller are rotatably arranged in the middle of the traction bracket, the guide roller and the support roller are sequentially arranged along the front-back direction, and the guide roller and the support roller are both abutted with the bottom surface of the track; the bottom of the traction bracket is provided with a loading cabin, a motor driver, a storage battery, a master controller and a wireless communication module are arranged in the loading cabin, and the wall surface of the loading cabin is provided with a wiring port; the upper surface of the left side of the traction bracket is provided with a first bracket, and the first bracket is provided with a first vertical surface which is vertical to the upper surface of the left side of the traction bracket; the left side of the first vertical surface is provided with a first motor, an output shaft of the first motor horizontally passes through the first vertical surface right and then is connected with a first driving wheel, and the first driving wheel is arranged in a left groove track of the track in a rolling way; the upper surface of the right side of the traction bracket is provided with a second bracket, and the second bracket is provided with a second vertical surface which is vertical to the upper surface of the right side of the traction bracket; the right side of the second vertical surface is provided with a second motor, an output shaft of the second motor horizontally penetrates through the second vertical surface leftwards and then is connected with a second driving wheel, and the second driving wheel is arranged in a right groove track of the track in a rolling way; the rear side of the traction bracket is provided with a lifting lug, and the lifting lug is provided with a round hole for being connected with a hook device;

the first motor and the second motor are respectively and electrically connected with a motor driver, the storage battery and the wireless communication module are respectively and electrically connected with the master controller, the storage battery and the master controller are electrically connected with a first cable through a wiring port, the first cable is connected to an adapter, and the adapter is arranged on the ceiling of an indoor balcony; the storage battery supplies power for the first motor, the second motor, the motor driver, the wireless communication module and the master controller; the master controller receives a user instruction through the wireless communication module and controls the motor driver to drive the first motor and the second motor to work according to the user instruction;

the hook device comprises a U-shaped hook body, wherein a first hook roller and a second hook roller are respectively and rotatably connected to the inner side of an opening of the hook body, the first hook roller is arranged in a left groove track of the track in a rolling way, and the second hook roller is arranged in a right groove track of the track in a rolling way; the bottom surface of the hook body is connected with a hook which extends downwards, the front side of the bottom surface of the hook body is provided with a front connecting hole, and the rear side of the bottom surface of the hook body is provided with a rear connecting hole; the plurality of hook devices are sequentially arranged along the front-back direction, wherein a first connecting rod is connected between a front connecting hole of the first hook device and a round hole on the lifting lug of the traction bracket, and a second connecting rod is connected between front connecting holes of the other hook devices and a rear connecting hole of the hook device arranged in the front position;

the raindrop sensor and the photovoltaic module are arranged on the vertical rod, the vertical rod is arranged outdoors, and the raindrop sensor and the photovoltaic module are electrically connected with the adapter through a second cable; the photovoltaic module charges a storage battery; the raindrop sensor sends detected raindrop signals to the master controller, and the master controller controls the first motor and the second motor to work so as to pull the hook device positioned on the outer side of the track into the inner side of the track.

Further, the upper surface of track is equipped with a plurality of jib, and the bottom of jib is fixed on the upper surface of track perpendicularly, and the top of jib upwards extends and is connected with indoor balcony ceiling fixed along vertical direction.

Further, the guide roller consists of two large-diameter cylindrical sections and a small-diameter cylindrical section, the two large-diameter cylindrical sections are respectively arranged at two ends of the small-diameter cylindrical section, and a transitional surface between the large-diameter cylindrical section and the small-diameter cylindrical section is a conical surface; the supporting roller is in a constant diameter cylinder shape.

Further, the top of the hook is rotationally connected with the bottom of the hook body through a pin shaft.

Further, the wireless communication module is in communication connection with the remote controller through infrared rays or in communication connection with the mobile phone through Bluetooth signals.

The beneficial effects of the invention are as follows: the traction device drives the plurality of hook devices to move on the track, so that the position of clothes on the track can be conveniently adjusted, when the clothes on the outer side are dried in the sun, the traction device can be controlled to pull the clothes on the outer side to the inner side in a timing mode or in a remote control mode of a remote controller and a mobile phone, and meanwhile, the clothes on the inner side are pulled out to the outer side, so that the drying efficiency is improved; when rainy days are met, the raindrop sensor can detect the existence of raindrops and send signals to the traction device, and the traction device can automatically push the clothes aired on the outer side back to the inner side, so that the clothes can be prevented from being wetted by rainwater; the photovoltaic power supply is adopted, so that the problem of transformation of a balcony or windowsill power supply circuit is avoided, the intelligent clothes hanger is convenient to use, and the aim of saving energy is fulfilled.

Drawings

FIG. 1 is a general schematic of the present invention;

FIG. 2 is a front view of the traction device of the present invention;

FIG. 3 is a top view of the traction device of the present invention;

FIG. 4 is a schematic view of a hook assembly of the present invention;

FIG. 5 is a side view of the traction device and hitch installation of the present invention;

fig. 6 is a front view of the installation of the traction device and the hitch of the present invention.

Reference numerals illustrate: 1. a track; 2. a boom; 3. a traction device; 301. a traction bracket; 302. a first motor; 303. a first bracket; 304. a first drive wheel; 305. a second motor; 306. a second bracket; 307. a second drive wheel; 308. a guide roller; 309. supporting rollers; 310. a loading compartment; 311. a motor driver; 312. a storage battery; 313. a master controller; 314. a wireless communication module; 315. a wiring port; 316. lifting lugs; 4. a hooking device; 41. a hook body; 42. a front connection hole; 43. a rear connection hole; 44. a first hook roller; 45. a second hook roller; 46. a hook; 5. a first connecting rod; 6. a second connecting rod; 7. a first cable; 8. an adapter; 9. a raindrop sensor; 10. a photovoltaic module; 11. a vertical rod; 12. and a second cable.

Detailed Description

The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that, as the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used for convenience in describing the present invention and simplifying the description based on the azimuth or positional relationship shown in the drawings, it should not be construed as limiting the present invention, but rather should indicate or imply that the devices or elements referred to must have a specific azimuth, be constructed and operated in a specific azimuth. Furthermore, the terms "first," "second," "third," and the like, as used herein, are used for descriptive purposes only and are not to be construed as indicating or implying any relative importance.

In the description of the present invention, it should be noted that unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to the attached drawings, the photovoltaic power supply track type intelligent clothes hanger comprises a track 1, a traction device 3, a plurality of hook devices 4, a raindrop sensor 9 and a photovoltaic module 10, wherein the track 1 is hoisted below an indoor balcony ceiling, the traction device 3 and the plurality of hook devices 4 are glidingly hoisted on the track 1, and the raindrop sensor 9 and the photovoltaic module 10 are arranged outdoors; taking the walking direction of the traction device 3 as the front-back direction, and taking the direction vertical to the front-back direction in the horizontal plane as the left-right direction;

in order to enable the traction device 3 and the hook device 4 to smoothly walk on the track 1, the whole track 1 is elliptical and comprises two sections of straight-line tracks which are parallel to each other, the ends of the adjacent straight-line tracks are connected smoothly through circular-arc tracks to form a closed structure, and the two straight-line tracks and the two circular-arc tracks are symmetrically distributed; the cross section of the track 1 is I-shaped, a left groove track is formed on the left side of the track 1, and a right groove track is formed on the right side of the track 1;

the traction device 3 comprises a traction bracket 301 parallel to the bottom surface of the track 1, a guide roller 308 and a support roller 309 are rotatably arranged in the middle of the traction bracket 301, the guide roller 308 and the support roller 309 are sequentially arranged along the front-back direction, and the guide roller 308 and the support roller 309 are respectively abutted against the bottom surface of the track 1; the guide roller 308 and the support roller 309 are hung on the track 1, so as to guide the traction device 3, prevent the traction device 3 from being caught while the semicircular section of the track 1 is walking, and stably support the traction device 3;

the bottom of the traction bracket 301 is provided with a loading cabin 310, a motor driver 311, a storage battery 312, a master controller 313 and a wireless communication module 314 are arranged in the loading cabin 310, and a wiring port 315 is formed in the wall surface of the loading cabin 310; the left upper surface of the traction bracket 301 is provided with a first bracket 303, and the first bracket 303 is provided with a first vertical surface which is vertical to the left upper surface of the traction bracket 301; a first motor 302 is arranged on the left side of the first vertical surface, an output shaft of the first motor 302 horizontally passes through the first vertical surface right and then is connected with a first driving wheel 304, and the first driving wheel 304 is arranged in a left groove track of the track 1 in a rolling way; the upper right surface of the traction bracket 301 is provided with a second bracket 306, and the second bracket 306 is provided with a second vertical surface which is vertical to the upper right surface of the traction bracket 301; a second motor 305 is arranged on the right side of the second vertical surface, an output shaft of the second motor 305 horizontally passes through the second vertical surface leftwards and is connected with a second driving wheel 307, and the second driving wheel 307 is arranged in a right groove track of the track 1 in a rolling way; a lifting lug 316 is arranged on the rear side of the traction bracket 301, and a round hole for connecting with the hook device 4 is formed in the lifting lug 316;

the first motor 302 and the second motor 305 are respectively and electrically connected with a motor driver 311, the motor driver 311, a storage battery 312 and a wireless communication module 314 are respectively and electrically connected with a master controller 313, the storage battery 312 and the master controller 313 are electrically connected with a first cable 7 through a wiring port 315, the first cable 7 is connected to an adapter 8, and the adapter 8 is installed on an indoor balcony ceiling; the battery 312 powers the first motor 302, the second motor 305, the motor driver 311, the wireless communication module 314, and the overall controller 313; the master controller 313 receives a user command through the wireless communication module 314 and controls the motor driver 311 to drive the first motor 302 and the second motor 305 to work according to the user command; when the outer clothes of the whole clothes hanger are dried, the traction device 3 can be controlled to pull the outer clothes into the inner side in a timing mode or by using a remote controller and a mobile phone, and meanwhile, the inner clothes are pulled out to the outer side for drying, so that the drying efficiency of the clothes is improved;

the hook device 4 comprises a U-shaped hook body 41, wherein a first hook roller 44 and a second hook roller 45 are respectively and rotatably connected to the inner side of an opening of the hook body 41, the first hook roller 44 is arranged in a left groove track of the track 1 in a rolling way, and the second hook roller 45 is arranged in a right groove track of the track 1 in a rolling way; the bottom surface of the hook body 41 is connected with a hook 46 extending downwards, the front side of the bottom surface of the hook body 41 is provided with a front connecting hole 42, and the rear side of the bottom surface of the hook body 41 is provided with a rear connecting hole 43; the plurality of hook devices 4 are sequentially arranged along the front-back direction, wherein a first connecting rod 5 is connected between a front connecting hole 42 of the first hook device 4 and a round hole on a lifting lug 316 of the traction bracket 301, and a second connecting rod 6 is connected between front connecting holes 42 of the rest hook devices 4 and a rear connecting hole 43 of the hook device 4 arranged in front of the rest hook devices;

the raindrop sensor 9 and the photovoltaic module 10 are arranged on the vertical rod 11, the vertical rod 11 is arranged outdoors, and the raindrop sensor 9 and the photovoltaic module 10 are electrically connected with the adapter 8 through the second cable 12; the photovoltaic module 10 charges the storage battery 312; the raindrop sensor 9 sends detected raindrop signals to the overall controller 313, and the overall controller 313 controls the first motor 302 and the second motor 305 to work so as to push the hook device 4 positioned on the outer side of the track 1 back to the inner side of the track 1, and clothes are prevented from being wetted by rainwater.

In the embodiment of the invention, the rail 1 is arranged on the ceiling of an indoor balcony through four suspenders 2, the bottom end of each suspender 2 is vertically fixed on the upper surface of the rail 1, and the top end of each suspender 2 extends upwards along the vertical direction and is fixedly connected with the ceiling of the indoor balcony.

In the embodiment of the present invention, the guide roller 308 is composed of two large-diameter cylindrical sections and one small-diameter cylindrical section, the two large-diameter cylindrical sections are respectively disposed at two ends of the small-diameter cylindrical section, and a transition surface between the large-diameter cylindrical section and the small-diameter cylindrical section is a conical surface; the support roller 309 has a constant diameter cylindrical shape.

In some embodiments of the present invention, the top of the hook 46 is rotatably connected to the bottom of the hook body 41 by a pin. To facilitate hanging of clothing, the hook 46 may be rotated freely through 360 °.

In some embodiments of the present invention, the wireless communication module 314 is connected to the remote controller through infrared rays or connected to the mobile phone through bluetooth signals, so that the remote controller or the mobile phone can be used to remotely control the traction device, so as to realize the adjustment of the airing position of the clothes.

The embodiments described in the present specification are merely examples of implementation forms of the inventive concept, and the scope of protection of the present invention should not be construed as being limited to the specific forms set forth in the embodiments, and the scope of protection of the present invention and equivalent technical means that can be conceived by those skilled in the art based on the inventive concept.

Claims

1. A photovoltaic power supply's track formula intelligence clothes hanger that dries in air, its characterized in that: the device comprises a track (1) hung below a ceiling of an indoor balcony, a traction device (3) and a plurality of hook devices (4) which are hung on the track (1) in a sliding manner, and a raindrop sensor (9) and a photovoltaic module (10) which are arranged outdoors; taking the walking direction of the traction device (3) as the front-back direction, and taking the direction vertical to the front-back direction in the horizontal plane as the left-right direction;

the rail (1) is in an oval shape as a whole and comprises two sections of mutually parallel linear rails, the ends of the adjacent linear rails are connected in a smooth manner through circular arc rails to form a closed structure, and the two linear rails and the two circular arc rails are symmetrically arranged; the cross section of the track (1) is I-shaped, a left groove track is formed on the left side of the track (1), and a right groove track is formed on the right side of the track (1);

the traction device (3) comprises a traction bracket (301) parallel to the bottom surface of the track (1), a guide roller (308) and a support roller (309) are rotatably arranged in the middle of the traction bracket (301), the guide roller (308) and the support roller (309) are sequentially arranged along the front-back direction, and the guide roller (308) and the support roller (309) are both abutted to the bottom surface of the track (1); the bottom of the traction bracket (301) is provided with a loading cabin (310), a motor driver (311), a storage battery (312), a master controller (313) and a wireless communication module (314) are arranged in the loading cabin (310), and a wiring port (315) is formed in the wall surface of the loading cabin (310); the left upper surface of the traction bracket (301) is provided with a first bracket (303), and the first bracket (303) is provided with a first vertical surface which is vertical to the left upper surface of the traction bracket (301); the left side of the first vertical surface is provided with a first motor (302), an output shaft of the first motor (302) horizontally passes through the first vertical surface right and then is connected with a first driving wheel (304), and the first driving wheel (304) is arranged in a left groove track of the track (1) in a rolling way; the upper surface of the right side of the traction bracket (301) is provided with a second bracket (306), and the second bracket (306) is provided with a second vertical surface which is vertical to the upper surface of the right side of the traction bracket (301); a second motor (305) is arranged on the right side of the second vertical surface, an output shaft of the second motor (305) horizontally penetrates through the second vertical surface to the left and then is connected with a second driving wheel (307), and the second driving wheel (307) is arranged in a right groove track of the track (1) in a rolling way; a lifting lug (316) is arranged at the rear side of the traction bracket (301), and a round hole for connecting with the hook device (4) is formed in the lifting lug (316);

the first motor (302) and the second motor (305) are respectively and electrically connected with a motor driver (311), the motor driver (311), a storage battery (312) and a wireless communication module (314) are respectively and electrically connected with a master controller (313), the storage battery (312) and the master controller (313) are electrically connected with a first cable (7) through a wiring port (315), the first cable (7) is connected to an adapter (8), and the adapter (8) is installed on an indoor balcony ceiling; the storage battery (312) supplies power to the first motor (302), the second motor (305), the motor driver (311), the wireless communication module (314) and the overall controller (313); the master controller (313) receives a user instruction through the wireless communication module (314) and controls the motor driver (311) to drive the first motor (302) and the second motor (305) to work according to the user instruction;

the hook device (4) comprises a U-shaped hook body (41), a first hook roller (44) and a second hook roller (45) are respectively and rotatably connected to the inner side of an opening of the hook body (41), the first hook roller (44) is arranged in a left groove track of the track (1) in a rolling mode, and the second hook roller (45) is arranged in a right groove track of the track (1) in a rolling mode; the bottom surface of the hook body (41) is connected with a hook (46) which extends downwards, the front side of the bottom surface of the hook body (41) is provided with a front connecting hole (42), and the rear side of the bottom surface of the hook body (41) is provided with a rear connecting hole (43); the plurality of hook devices (4) are sequentially arranged along the front-back direction, wherein a first connecting rod (5) is connected between a front connecting hole (42) of the first hook device (4) and a round hole on a lifting lug (316) of the traction bracket (301), and a second connecting rod (6) is connected between front connecting holes (42) of the rest hook devices (4) and a rear connecting hole (43) of the hook device (4) arranged in the front position;

the raindrop sensor (9) and the photovoltaic module (10) are arranged on the vertical rod (11), the vertical rod (11) is arranged outdoors, and the raindrop sensor (9) and the photovoltaic module (10) are electrically connected with the adapter (8) through a second cable (12); the photovoltaic module (10) charges a battery (312); the raindrop sensor (9) sends detected raindrop signals to the master controller (313), and the master controller (313) controls the first motor (302) and the second motor (305) to work so as to pull the hook device (4) positioned on the outer side of the track (1) into the inner side of the track (1).

2. A photovoltaic powered track-mounted intelligent laundry rack as defined in claim 1, wherein: the upper surface of track (1) is equipped with a plurality of jib (2), and the bottom of jib (2) is fixed on the upper surface of track (1) perpendicularly, and the top of jib (2) is along vertical orientation upwards extension and with indoor balcony ceiling fixed connection.

3. A photovoltaic powered track-mounted intelligent laundry rack as defined in claim 1, wherein: the guide roller (308) consists of two large-diameter cylindrical sections and a small-diameter cylindrical section, the two large-diameter cylindrical sections are respectively arranged at two ends of the small-diameter cylindrical section, and a transitional surface between the large-diameter cylindrical section and the small-diameter cylindrical section is a conical surface; the support roller (309) is in the shape of an equal diameter cylinder.

4. A photovoltaic powered track-mounted intelligent laundry rack as defined in claim 1, wherein: the top of the hook (46) is rotationally connected with the bottom of the hook body (41) through a pin shaft.

5. A photovoltaic powered track-mounted intelligent laundry rack as defined in claim 1, wherein: the wireless communication module (314) is in communication connection with the remote controller through infrared rays or in communication connection with the mobile phone through Bluetooth signals.