CN113430797A

CN113430797A - Self-powered outdoor intelligent clothes hanger

Info

Publication number: CN113430797A
Application number: CN202110760714.2A
Authority: CN
Inventors: 孙永元; 陈思栋; 张江湖; 安妮; 张善文; 董嘉辰; 高吉成
Original assignee: Yangzhou University
Current assignee: Yangzhou University
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2021-09-24
Anticipated expiration: 2041-07-02
Also published as: CN113430797B

Abstract

A self-powered outdoor intelligent clothes hanger belongs to the technical field of articles for daily use, and comprises a supporting module (100) for supporting the whole intelligent clothes hanger, a drying module (200) for drying clothes, a first solar cell panel module (300) for collecting solar energy, a second solar cell panel module (400) for collecting solar energy, an upper solar cell panel module (500) for collecting solar energy and a clothes drying module (600) for sending out and withdrawing clothes, wherein the intelligent clothes hanger device monitors the current transmitted by the solar cell panel through a controller, a humidity sensor is used for judging the sunlight and the weather conditions, an electric push rod is used for starting and stopping the solar cell panel, a solar cell panel collects solar energy and stores the solar energy in a battery, a belt transmission device sends out and withdraws the clothes, a gravity sensor is used for judging whether the clothes are dried or not, and the working principle of the whole device is clear, compact structure, the accessible self-power carries out intelligence and dries in the air, shines, dries by fire the clothes.

Description

Self-powered outdoor intelligent clothes hanger

Technical Field

The invention belongs to the technical field of articles for daily use, relates to a self-powered outdoor intelligent clothes hanger, and particularly relates to a self-powered outdoor intelligent clothes hanger which can judge the environment and execute corresponding actions according to the corresponding environment.

Background

The clothes hanger is a necessity in our life. The electric clothes hangers sold in the market are generally used indoors or on balconies, the sunlight is insufficient, the space of clothes airing is limited, the electric clothes hangers are mainly powered by a power grid, and the electric clothes hangers cannot be automatically retracted in rainy days or clothes airing.

In order to realize outdoor clothes drying, the Chinese utility model 'an outdoor automatic clothes drying rod' (application number: 201821744653.0, published as 2018.10.25) discloses an outdoor automatic clothes drying rod, which comprises a windowsill, two driving mechanisms, a telescopic clothes drying rack, two outer supporting frames, two inner supporting frames and a water receiving mechanism, wherein the two driving mechanisms and the two inner supporting frames are arranged at two sides of the inner wall of the windowsill, and the telescopic clothes drying rack is connected at one side of the driving mechanism. The utility model discloses an at the interior wall mounting electric putter of windowsill, the clothes hanger that dries in the air that will stretch out and draw back fixes in one side of first electric putter, and utilize the telescopic link to connect the horizontal pole, make can drive the flexible of the clothes hanger that dries in the air that stretches out and draws back through controlling the flexible of first electric putter thereby save the manpower, and adopt step motor to connect first electric putter chamber, can be through controlling step motor rotation one hundred eighty degrees, the clothes hanger that dries in the air that will stretch out and draw back is taken in from outdoor upset to indoor, and open inner support frame and can use the clothes hanger that dries in the air that stretches out and draws back at indoor.

Therefore, the prior art has the problems that: the clothes hanger can not automatically take back clothes in rainy days or when the clothes are dried, and can not be aired in sunny days or when the clothes are wet; an external power supply is needed, and self-power supply cannot be realized; it is impossible to perform the drying operation of the laundry in rainy weather.

Disclosure of Invention

The invention aims to provide a self-powered outdoor intelligent clothes rack which can judge the environment, can execute corresponding actions according to the corresponding environment and can be self-powered by solar energy.

The technical solution for realizing the purpose of the invention is as follows: the self-powered outdoor intelligent clothes hanger is composed of a supporting module, a drying module, a first solar cell panel module, a second solar cell panel module, an upper solar cell panel module and a clothes drying module.

The supporting module comprises a wheel, a wheel connecting frame, a first supporting rod, a fixed pin guide groove, a fixed pin, a second supporting rod, a third supporting rod, a fourth supporting rod, a first cross beam, a second cross beam, a third cross beam, a fourth cross beam, a first side plate supporting frame, a fifth cross beam, a connecting rod, a second side plate supporting frame, a sixth cross beam, a seventh cross beam, an eighth cross beam and a ninth cross beam. The wheel connecting frame is arranged above the wheel, the first supporting rod is arranged above the wheel connecting frame, the fixed pin guide groove is arranged on the side surface of the first supporting rod through a bolt, the fixed pin is arranged in the fixed pin guide groove, the second supporting rod, the third supporting rod and the fourth supporting rod are respectively arranged above the wheel connecting frame, the first beam is arranged between the first supporting rod and the second supporting rod, the second beam is arranged between the third supporting rod and the fourth supporting rod, the third beam and the fourth beam are arranged between the first beam and the second beam, the 4 first side plate supporting frames are formed by welding four steel materials and are respectively arranged on the 4 supporting rods, the fifth beam is arranged between the first supporting rod and the second supporting rod, and the sixth beam is arranged between the third supporting rod and the fourth supporting rod, 2 individual connecting rod is installed at the fifth crossbeam side, second curb plate carriage is formed by four steel welding, installs on the connecting rod, seventh crossbeam, eighth crossbeam and ninth crossbeam are installed between fifth crossbeam and sixth crossbeam.

The drying module consists of a dryer, a battery, a controller, bottom cloth of the dryer and side cloth of the dryer. The dryer, the battery and the controller are arranged on a third cross beam and a fourth cross beam, the bottom cloth of the dryer is arranged above the dryer, and the side cloth of the dryer is arranged around the bottom cloth of the dryer and supported by the first support rod, the second support rod, the third support rod and the fourth support rod.

The first solar cell panel module is composed of a first solar cell panel supporting frame, a first solar cell panel electric push rod, a first connecting rod and a second connecting rod. First solar cell panel carriage is formed by four steel welding, and the top is installed on eighth crossbeam or ninth crossbeam through articulated seat, first solar cell panel installs on first solar cell panel carriage, first connecting rod is through articulated side of installing at the fifth crossbeam, first solar cell panel electric putter one end is through articulated side of installing at the fifth crossbeam, the other end is articulated mutually with first connecting rod, second connecting rod both ends are articulated with first connecting rod and first solar cell panel carriage respectively.

The second solar cell panel module is composed of a second solar cell panel supporting frame, a second solar cell panel and a second solar cell panel electric push rod. The second solar cell panel support frame is formed by four steel welding, and one side is installed on first curb plate support frame through articulated seat, second solar cell panel installs on the second solar cell panel support frame, second solar cell panel electric putter one end is installed on the second solar cell panel support frame through articulated seat, and the other end links to each other with the articulated seat in second solar cell panel support frame bottom.

The upper solar cell panel module is composed of an upper solar cell panel supporting frame, an upper solar cell panel and an upper solar cell panel electric push rod. The upper portion solar cell panel carriage is formed by four steel welding, and one side is installed in the top of seventh crossbeam through articulated seat, upper portion solar cell panel installs on upper portion solar cell panel carriage, upper portion solar cell panel electric putter's one end is installed on third bracing piece or fourth bracing piece through articulated seat, and the other end links to each other with the articulated seat of upper portion solar cell panel carriage one side.

The clothes drying module consists of a gravity sensor, a fixed side plate, a humidity sensor, a clothes drying rod shell, a camera, a driving motor, a driving wheel, a driven wheel, a belt and a clothes hanger seat. The clothes hanger comprises a clothes hanger shell, a humidity sensor, a gravity sensor, a camera, a driving motor, a belt, a driving wheel, a driven wheel, a belt, a driving wheel, a clothes hanger seat and a humidity sensor, wherein the gravity sensor is arranged below a second side plate supporting frame, a fixed side plate is arranged on the second side plate supporting frame, the humidity sensor is arranged on the fixed side plate, the clothes hanger shell is arranged below the gravity sensor, the camera is arranged at one end of the clothes hanger shell, the driving motor is arranged on the clothes hanger shell, a motor shaft of the driving motor is connected with the driving wheel, the driven wheel is arranged inside the other end of the clothes hanger shell, the belt is connected with the driving wheel and the driven wheel, and the clothes hanger seat is arranged on the belt.

And the supporting rods and the cross beams in the supporting modules are made of profile steel.

The number of the first solar cell panel modules is 2, and the first solar cell panel modules are respectively arranged on two sides of the supporting module.

The number of the second solar cell panel modules is 4, and 2 solar cell panel modules are distributed on two sides of the supporting module respectively.

The number of the upper solar cell panel modules is 2, and the upper solar cell panel modules are arranged above the supporting modules.

The number of the gravity sensors is 4, the gravity sensors are connected with the clothes-horse shell, the number of the fixed side plates is 2, the gravity sensors are respectively installed on two sides of the supporting module, the number of the cameras is 2, the cameras are respectively installed on one side of the 2 clothes-horse shells, the number of the driving motors, the driving wheels, the driven wheels and the belt is 4, the gravity sensors are installed inside the clothes-horse shell, the number of the clothes-horse seats can be determined as required, and the clothes-horse seats are uniformly fixed on the belt.

Compared with the prior art, the invention has the following remarkable advantages:

1. weather and sunshine states can be identified: utilizing sensors such as humidity, gravity, solar cell panels and the like to identify the environment state and execute corresponding actions;

2. can be self-powered: the solar panel is utilized to convert solar energy into electric energy to be stored in the battery, and the electric energy is used as the energy source of the clothes hanger device;

3. clothes can be dried in rainy days: and drying the wet clothes by using a drying device in rainy days.

The invention is described in further detail below with reference to the figures and the detailed description.

Drawings

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

Fig. 2 is a schematic view of a support module of the present invention.

Fig. 3 is a schematic view of the moving wheel in the support module according to the present invention.

Fig. 4 is a schematic view of a drying module according to the present invention.

Fig. 5 is a schematic view of a first solar panel module according to the present invention.

Fig. 6 is a schematic view of a second solar panel module according to the present invention.

Fig. 7 is a schematic view of an upper solar panel module of the present invention.

Figure 8 is a schematic view of a clothes drying module of the present invention.

Figure 9 is a schematic view of the interior of the clothes drying module of the present invention.

In the drawing, a support module 100, a drying module 200, a first solar cell panel module 300, a second solar cell panel module 400, an upper solar cell panel module 500, a clothes drying module 600, wheels 101, a wheel connecting frame 102, a first support bar 103, a fixing pin guide groove 104, a fixing pin 105, a second support bar 106, a third support bar 107, a fourth support bar 108, a first beam 109, a second beam 110, a third beam 111, a fourth beam 112, a first side plate support frame 113, a fifth beam 114, a connecting bar 115, a second side plate support frame 116, a sixth beam 117, a seventh beam 118, an eighth beam 119, a ninth beam 120, a dryer 201, a battery 202, a controller 203, a dryer bottom cloth 204, a dryer side cloth 205, a first solar cell panel support frame 301, a first solar cell panel 302, a first solar cell panel electric push bar 303, a first connecting bar 304, a second connecting bar, a third connecting bar 110, a fourth connecting bar 112, a fourth connecting, The solar clothes hanger comprises a second connecting rod 305, a second solar cell panel supporting frame 401, a side plate 402, a second solar cell panel electric push rod 403, an upper solar cell panel supporting frame 501, an upper solar cell panel 502, an upper solar cell panel electric push rod 503, a gravity sensor 601, a fixed side plate 602, a humidity sensor 603, a clothes airing rod shell 604, a camera 605, a driving motor 606, a driving wheel 607, a driven wheel (608), a belt (609) and a clothes hanger seat (610).

Detailed Description

As shown in fig. 1, a self-powered outdoor intelligent clothes hanger is composed of a support module 100, a drying module 200, a first solar panel module 300, a second solar panel module 400, an upper solar panel module 500 and a clothes drying module 600.

As shown in fig. 2-3, a self-powered outdoor intelligent clothes hanger, a support module 100 is composed of wheels 101, a wheel connecting frame 102, a first support rod 103, a fixed pin guide slot 104, a fixed pin 105, a second support rod 106, a third support rod 107, a fourth support rod 108, a first beam 109, a second beam 110, a third beam 111, a fourth beam 112, a first side plate support frame 113, a fifth beam 114, a connecting rod 115, a second side plate support frame 116, a sixth beam 117, a seventh beam 118, an eighth beam 119 and a ninth beam 120. The wheel connecting frame 102 is arranged above the wheel 101, the first supporting rod 103 is arranged above the wheel connecting frame 102, the fixed pin guide groove 104 is arranged on the side surface of the first supporting rod 103 through a bolt, the fixed pin 105 is arranged in the fixed pin guide groove 104, the second supporting rod 106, the third supporting rod 107 and the fourth supporting rod 108 are respectively arranged above the wheel connecting frame 102, the first cross beam 109 is arranged between the first supporting rod 103 and the second supporting rod 106, the second cross beam 110 is arranged between the third supporting rod 107 and the fourth supporting rod 108, the third cross beam 111 and the fourth cross beam 112 are arranged between the first cross beam 109 and the second cross beam 110, 4 first side plate supporting frames 113 are formed by welding four steel materials and are respectively arranged on the 4 supporting rods, the fifth cross beam 114 is arranged between the first supporting rod 103 and the second supporting rod 106, and the sixth cross beam 117 is arranged between the third supporting rod 107 and the fourth supporting rod 108, 2 connecting rods 115 are arranged on the side edge of the fifth cross beam 114, the second side plate supporting frame 116 is formed by welding four steel materials and is arranged on the connecting rods 115, and the seventh cross beam 118, the eighth cross beam 119 and the ninth cross beam 120 are arranged between the fifth cross beam 114 and the sixth cross beam 117. The support rods and the cross beams in the support module 100 are all made of steel.

As shown in fig. 4, a self-powered outdoor intelligent clothes rack, a drying module 200 is composed of a dryer 201, a battery 202, a controller 203, a dryer bottom cloth 204 and a dryer side cloth 205. The dryer 201, the battery 202 and the controller 203 are installed above the third and

fourth beams

111 and 112, the dryer bottom cloth 204 is installed above the dryer 201, and the dryer side cloth 205 is installed around the dryer bottom cloth 204 and supported by the first support bar 103, the second support bar 106, the third support bar 107 and the fourth support bar 108.

The drying device can dry wet clothes in rainy days.

As shown in fig. 5, a self-powered outdoor intelligent clothes rack, a first solar panel module 300 is composed of a first solar panel supporting frame 301, a first solar panel 302, a first solar panel electric push rod 303, a first connecting rod 304 and a second connecting rod 305. First solar cell panel braced frame 301 is formed by four steel welding, the top is installed on eighth crossbeam 119 or ninth crossbeam 120 through articulated seat, first solar cell panel 302 is installed on first solar cell panel braced frame 301, first connecting rod 304 is installed in the side of fifth crossbeam 114 through articulated, first solar cell panel electric putter 303 one end is installed in the side of fifth crossbeam 114 through articulated, the other end is articulated mutually with first connecting rod 304, second connecting rod 305 both ends are articulated with first connecting rod 304 and first solar cell panel braced frame 301 respectively. The number of the first solar cell panel modules is 2, and the first solar cell panel modules are respectively installed at both sides of the support module 100.

Monitoring the current of the solar cell panel by using a controller, and judging the sunlight state; solar energy is collected by the solar cell panel and stored in the battery, so that the self-power supply of the clothes hanger device is realized.

As shown in fig. 6, a self-powered outdoor intelligent clothes rack, a second solar panel module 400 is composed of a second solar panel supporting frame 401, a side plate 402 and a second solar panel electric push rod 403. Second solar cell panel carriage 401 is formed by four steel welding, and one side is installed on first curb plate carriage 113 through articulated seat, and curb plate 402 is installed on second solar cell panel carriage 401, and second solar cell panel electric putter 403 one end is installed at second solar cell panel carriage 401 through articulated seat, and the other end links to each other with the articulated seat in second solar cell panel carriage 401 bottom. The number of the second solar cell panel modules is 4, and 2 solar cell panel modules are respectively distributed on two sides of the support module 100.

As shown in fig. 7, the upper solar panel module 500 of the self-powered outdoor intelligent clothes rack is composed of an upper solar panel supporting frame 501, an upper solar panel 502 and an upper solar panel electric push rod 503. Upper portion solar cell panel braced frame 501 is formed by four steel welding, and one side is installed in the top of seventh crossbeam 118 through articulated seat, and upper portion solar cell panel 502 is installed on upper portion solar cell panel braced frame 501, and the one end of upper portion solar cell panel electric putter 503 is installed on 107 third bracing piece or 108 fourth bracing pieces through articulated seat, and the other end links to each other with the articulated seat of upper portion solar cell panel braced frame 501 one side. The number of the upper solar cell panel modules is 2, and is installed above the support module 100.

As shown in fig. 8-9, a self-powered outdoor intelligent clothes hanger, a clothes drying module 600 is composed of a gravity sensor 601, a fixed side plate 602, a humidity sensor 603, a clothes drying rod housing 604, a camera 605, a driving motor 606, a driving wheel 607, a driven wheel 608, a belt 609 and a clothes hanger seat 610. The gravity sensor 601 is installed below the second side plate supporting frame 116, the fixed side plate 602 is installed below the second side plate supporting frame 116, the humidity sensor 603 is installed on the fixed side plate 602, the clothes drying rod housing 604 is installed below the gravity sensor 601, the image pickup head 605 is installed at one end of the clothes drying rod housing 604, the driving motor 606 is installed on the clothes drying rod housing 604, a motor shaft of the driving motor 606 is connected with the driving wheel 607, the driven wheel 608 is installed inside the other end of the clothes drying rack housing 604, the belt 609 is connected with the driving wheel 607 and the driven wheel 608, and the clothes hanger 610 is installed on the belt 609. The number of the gravity sensors 601 is 4, the gravity sensors are connected with a clothes-horse housing 604, the number of the fixed side plates 602 is 2, the fixed side plates are respectively installed on two sides of the support module 100, the number of the cameras 605 is 2, the cameras are respectively installed on one side of 2 clothes-horse housings 604, the number of the driving motors 606, the driving wheels 607, the driven wheels 608 and the belts 609 is 4, the driving motors are installed inside the clothes-horse housings 604, the number of the clothes-horse seats 610 can be determined according to requirements, and the clothes-horse seats 610 are uniformly fixed on the belts 609.

And identifying the clothes state and the weather state by using a gravity sensor and a humidity sensor and executing corresponding actions.

As shown in fig. 1-9, a self-powered outdoor intelligent clothes hanger, the current environment condition is judged by monitoring the current transmitted by a solar panel through a controller 203, when the sunshine is sufficient in sunny days, the solar panel is opened by an electric push rod, clothes in the clothes hanger are sent out by a belt transmission device, airing is carried out, solar energy is collected through the solar panel and stored in a battery 202; when the humidity sensor 603 arranged on the clothes hanger device judges whether the weather is rainy, clothes are fed into the clothes hanger device by the belt transmission device, and meanwhile, the solar cell panel is closed by the electric push rod; when the weather is not suitable for airing, the clothes are dried and disinfected through the drying module 200; in addition, the gravity sensor 601 arranged on the clothes-horse judges whether the clothes are dried. The whole device has clear working principle and compact structure, and can intelligently dry, sun and dry clothes through self power supply.

Claims

1. A self-powered outdoor intelligent clothes rack is characterized in that: the self-powered outdoor intelligent clothes hanger is composed of a supporting module (100), a drying module (200), a first solar panel module (300), a second solar panel module (400), an upper solar panel module (500) and a clothes drying module (600);

the supporting module (100) is composed of wheels (101), a wheel connecting frame (102), a first supporting rod (103), a fixing pin guide groove (104), a fixing pin (105), a second supporting rod (106), a third supporting rod (107), a fourth supporting rod (108), a first beam (109), a second beam (110), a third beam (111), a fourth beam (112), a first side plate supporting frame (113), a fifth beam (114), a connecting rod (115), a second side plate supporting frame (116), a sixth beam (117), a seventh beam (118), an eighth beam (119) and a ninth beam (120), the wheel connecting frame (102) is installed above the wheels (101), the first supporting rod (103) is installed above the wheel connecting frame (102), the fixing pin guide groove (104) is installed on the side surface of the first supporting rod (103) through bolts, the fixing pin (105) is installed in the fixing pin guide groove (104), the second supporting rod (106), the third supporting rod (107) and the fourth supporting rod (108) are respectively installed above the wheel connecting frame (102), the first beam (109) is installed between the first supporting rod (103) and the second supporting rod (106), the second beam (110) is installed between the third supporting rod (107) and the fourth supporting rod (108), the third beam (111) and the fourth beam (112) are installed between the first beam (109) and the second beam (110), the 4 first side plate supporting frames (113) are formed by welding four steel materials and are respectively installed on the 4 supporting rods, the fifth beam (114) is installed between the first supporting rod (103) and the second supporting rod (106), the sixth beam (117) is installed between the third supporting rod (107) and the fourth supporting rod (108), and the 2 connecting rods (115) are installed on the side of the fifth beam (114), the second side plate supporting frame (116) is formed by welding four steel materials and is installed on a connecting rod (115), and the seventh cross beam (118), the eighth cross beam (119) and the ninth cross beam (120) are installed between the fifth cross beam (114) and the sixth cross beam (117);

the drying module (200) consists of a dryer (201), a battery (202), a controller (203), dryer bottom cloth (204) and dryer side cloth (205), the dryer (201), the battery (202) and the controller (203) are arranged above a third cross beam (111) and a fourth cross beam (112), the dryer bottom cloth (204) is arranged above the dryer (201), and the dryer side cloth (205) is arranged around the dryer bottom cloth (204) and supported by a first support rod (103), a second support rod (106), a third support rod (107) and a fourth support rod (108);

the first solar cell panel module (300) consists of a first solar cell panel supporting frame (301), a first solar cell panel (302), a first solar cell panel electric push rod (303), a first connecting rod (304) and a second connecting rod (305), the first solar cell panel supporting frame (301) is formed by welding four steel materials, the top of the first solar cell panel supporting frame is arranged on the eighth cross beam (119) or the ninth cross beam (120) through a hinged seat, the first solar cell panel (302) is arranged on the first solar cell panel supporting frame (301), the first connecting rod (304) is installed on the side surface of the fifth cross beam (114) through hinging, one end of the first solar cell panel electric push rod (303) is hinged to the side surface of the fifth beam (114), the other end of the second connecting rod (305) is hinged with the first connecting rod (304), and two ends of the second connecting rod (305) are respectively hinged with the first connecting rod (304) and the first solar panel supporting frame (301);

the second solar cell panel module (400) is composed of a second solar cell panel supporting frame (401), a second solar cell panel (402) and a second solar cell panel electric push rod (403), the second solar cell panel supporting frame (401) is formed by welding four steel materials, one side of the second solar cell panel supporting frame is installed on the first side plate supporting frame (113) through a hinged seat, the second solar cell panel (402) is installed on the second solar cell panel supporting frame (401), one end of the second solar cell panel electric push rod (403) is installed on the second solar cell panel supporting frame (401) through the hinged seat, and the other end of the second solar cell panel electric push rod is connected with the hinged seat at the bottom of the second solar cell panel supporting frame (401);

the upper solar cell panel module (500) is composed of an upper solar cell panel supporting frame (501), an upper solar cell panel (502) and an upper solar cell panel electric push rod (503), the upper solar cell panel supporting frame (501) is formed by welding four steel materials, one side of the upper solar cell panel supporting frame is installed above the seventh cross beam (118) through a hinged seat, the upper solar cell panel (502) is installed on the upper solar cell panel supporting frame (501), one end of the upper solar cell panel electric push rod (503) is installed on a third supporting rod (107) or a fourth supporting rod (108) through a hinged seat, and the other end of the upper solar cell panel electric push rod is connected with the hinged seat on one side of the upper solar cell panel supporting frame (501);

the clothes drying module (600) consists of a gravity sensor (601), a fixed side plate (602), a humidity sensor (603), a clothes drying rod shell (604), a camera (605), a driving motor (606), a driving wheel (607), a driven wheel (608), a belt (609) and a clothes hanger seat (610), wherein the gravity sensor (601) is installed below a second side plate supporting frame (116), the fixed side plate (602) is installed on the second side plate supporting frame (116), the humidity sensor (603) is installed on the fixed side plate (602), the clothes drying rod shell (604) is installed below the gravity sensor (601), the camera (605) is installed at one end of the clothes drying rod shell (604), the driving motor (606) is installed on the clothes drying rod shell (604), a motor shaft of the driving motor (606) is connected with the driving wheel (607), and the driven wheel (608) is installed at the other end inside the clothes drying rod shell (604), the belt (609) connects the drive wheel (607) and the driven wheel (608), and the hanger bracket (610) is mounted on the belt (609).

2. A self-powered outdoor intelligent clothes rack is characterized in that: and the supporting rods and the cross beams in the supporting module (100) are all made of profile steel.

3. A self-powered outdoor intelligent clothes rack is characterized in that: the number of the first solar cell panel modules (300) is 2, and the first solar cell panel modules are respectively arranged on two sides of the support module (100).

4. A self-powered outdoor intelligent clothes rack is characterized in that: the number of the second solar cell panel modules (400) is 4, and 2 second solar cell panel modules are distributed on two sides of the support module (100).

5. A self-powered outdoor intelligent clothes rack is characterized in that: the number of the upper solar cell panel modules (500) is 2, and the upper solar cell panel modules are arranged above the support modules (100).

6. A self-powered outdoor intelligent clothes rack is characterized in that: the number of the gravity sensors (601) is 4, the gravity sensors are connected with a clothes-horse housing (604), the number of the fixed side plates (602) is 2, the fixed side plates are respectively installed on two sides of the support module (100), the number of the cameras (605) is 2, the cameras are respectively installed on one side of 2 clothes-horse housings (604), the number of the driving motors (606), the number of the driving wheels (607), the number of the driven wheels (608) and the number of the belts (609) are 4, the cameras are installed inside the clothes-horse housing (604), the number of the clothes-horse seats (610) can be determined according to needs, and the clothes-horse seats (610) are uniformly fixed on the belts (609).