CN117306212B - Clothes hanger device capable of preventing clothes from falling off - Google Patents

Abstract

The invention relates to the technical field of daily articles of daily use and provides a clothes hanger device for preventing clothes from falling, which comprises a device shell, wherein a wind speed monitoring device is arranged on the device shell, a plurality of fastening rods capable of being used for airing the clothes are coupled and connected to the side wall of the device shell, a semi-conductor is arranged on each fastening rod, the wind speed monitoring device monitors the wind power level outside the device shell in real time, the magnetic poles of the semi-conductor are changed according to the wind power level, and then the fastening rods are controlled to be opened or closed, when the fastening rods are opened, the fastening rods enter different working modes according to different signals transmitted by the wind speed monitoring device, and when the fastening rods are closed, the fastening rods clamp the clothes. The full-time clothes airing machine is provided with three working modes, namely a undetermined mode, a pre-fastening mode and a fastening mode, is suitable for various environments, can clamp clothes in strong wind weather, and ensures the airing effect of the clothes.

Description

Clothes hanger device capable of preventing clothes from falling off

Technical Field

The invention relates to the technical field of daily living goods, in particular to a clothes hanger device for preventing clothes from falling off.

Background

At present, in the process of airing clothes, the clothes are generally aired by hanging the clothes on a clothes airing rod through a clothes hanger, and the aim of drying and dehydrating the clothes is fulfilled under the action of sunlight and wind force. However, in the face of sudden thunderstorm extremes, it is often difficult for people to retract the clothes that are being aired on the balcony in a timely manner.

Most of the extreme cases of thunderstorms are accompanied by strong wind, and when the wind force is suddenly increased, the clothes which cannot be recovered in time are at risk of falling off.

And when encountering heavy wind and rainy days, people often choose to wait for the wind to stop and then wash and dry the clothes because of worrying that the clothes fall off and the drying effect is not ideal, if encountering continuous strong convection weather, the duration of wind and rain is overlong, people can not dry the clothes for a long time, the problem of clothes accumulation is caused, and great trouble is brought to the daily life of people.

Regarding the above problems, there have been many related arts and improvements regarding the laundry rack: the connection mode of the clothes hanger and the clothes hanger is improved to increase the positioning degree of the clothes hanger and the clothes hanger, so that the clothes hanger and the clothes hanger are combined more tightly, and therefore wind and rain are resisted, or the structure of the clothes hanger is changed to try to better fit and fasten clothes, and the clothes are clamped at any time. However, the risk of falling of clothes can only be reduced to a certain extent by the measures, and the falling phenomenon cannot be completely eradicated.

However, in the actual use process, the above measures still have some disadvantages:

1. the positioning degree of the clothes hanger and the clothes hanger is increased by improving the connection mode of the clothes hanger and the clothes hanger, but the clothes are not protected, and the clothes still fall off in the weather of strong wind and heavy rain.

2. The clothes are clamped at any time by changing the structure of the clothes hanger in an attempt of better fitting and fastening, but in order to pursue a firm effect, the improved clothes hanger is complex in structure and complex in use, and the size is enlarged due to the fact that the structure is large, light irradiating the clothes is blocked, and the clothes cannot be fully aired.

In view of the above, the present invention provides a clothes hanger device for preventing clothes from falling off, so as to solve the above-mentioned problems.

Disclosure of Invention

The invention provides a clothes hanger device for preventing clothes from falling, which is used for solving the problems that the clothes fall under the influence of strong wind in a windy and rainy day and the clothes cannot be fully dried.

The invention relates to a clothes hanger device for preventing clothes from falling off, which comprises a device shell,

a wind speed monitoring device is arranged on the device shell;

the side wall of the device shell is connected with a plurality of fastening rods capable of being used for airing clothes in a coupling mode, and each fastening rod is provided with a semiconductor magnet;

the wind speed monitoring device monitors the wind power level outside the device shell in real time, and changes the magnetic poles of the semi-conductor according to the wind power level, so as to control the plurality of fastening rods to be opened or closed, when the fastening rods are opened, the fastening rods enter different working modes according to different signals transmitted by the wind speed monitoring device, and when the fastening rods are closed, the fastening rods clamp clothes.

The wind speed monitoring device comprises a wind speed monitoring controller and a wind speed sensor, the wind speed sensor is arranged outside a shell of the device shell, the wind speed monitoring controller is electrically connected with the wind speed sensor, the wind speed monitoring device monitors the external wind power grade value of the device shell in real time, obtains the wind power grade average value in the preset time according to calculation, and adjusts all parts of the clothes hanger device to enter different working modes according to different wind power grade average values.

The wind speed monitoring controller is characterized in that a first motor is arranged on one side of the wind speed monitoring controller, the output end of the first motor is connected with one end of a telescopic rod, the other end of the telescopic rod is connected with a fastening rod, the first motor controls the telescopic rod to rotate along the side wall of the device shell, and the telescopic rod drives the fastening rod connected with the telescopic rod to rotate when rotating.

The number of the fastening rods is two, and similarly, the number of the telescopic rods is two, the output end of the first motor is connected with the two groups of telescopic rods, the two groups of telescopic rods synchronously rotate, and the two groups of fastening rods synchronously follow the telescopic rods to rotate.

The first touch device comprises a touch cavity, two groups of small semi-conductors are arranged above the inside of the touch cavity, springs are arranged between the two groups of small semi-conductors, a magnetic insulation gasket is arranged below the two groups of small semi-conductors, a baffle is arranged below the magnetic insulation gasket, one surface of the baffle is fixedly connected to the springs, a first touch switch is arranged below the baffle, and the telescopic rod stops rotating after rotating and touching the first touch device.

The baffle blocks the telescopic rod from moving, the baffle does not contact the first touch switch in the initial state, the baffle contacts the first touch switch after being collided by the telescopic rod, and at the moment, the first touch switch transmits an electric signal to the wind speed monitoring device.

The wind speed monitoring device transmits an electric signal to the first motor, and the first motor stops working.

The wind speed monitoring controller, the first motor, the first touch device and one end of the telescopic rod are all arranged in the device shell.

The telescopic rod comprises a fastening rod, a telescopic rod body, a telescopic rod shell, a telescopic rod control device and a telescopic rod, wherein the telescopic rod body is arranged at one end of the fastening rod, which is close to the device shell, a second touch device is arranged in the telescopic rod body, the second touch device comprises a push-pull controller arranged at the top end inside the telescopic rod body, the push-pull controller is electrically connected with a second motor, the output end of the second motor is connected with a push-pull rod, the other end of the telescopic rod is arranged below the push-pull rod, and a second touch switch is arranged at the bottom end inside the telescopic rod body.

The push-pull rod pushes the telescopic rod to extend, the telescopic rod touches the second touch switch when extending to a preset maximum value, and the second touch switch transmits an electric signal to the wind speed monitoring device.

The wind speed monitoring device transmits an electric signal to the two groups of small-sized semi-conductors, the magnetic poles of the two groups of small-sized semi-conductors are changed, so that the spring is contracted, the spring is contracted to drive the baffle to be contracted, the baffle is far away from the first touch switch, after the first touch switch transmits the electric signal to the wind speed monitoring device, the first motor works, the telescopic rod is not blocked at the moment, and the telescopic rod continues to rotate.

The number of the fastening rods is two, the other ends of the two fastening rods are provided with semi-magnetic conductor cavities, and the semi-magnetic conductors are arranged in the semi-conductor cavities.

The device comprises a device shell, wherein a solar power supply module is arranged on the device shell, the solar power supply module, the push-pull controller, the first motor, the two groups of small semi-conductors and the semi-conductors are electrically connected with the wind speed monitoring device, and the solar power supply module is used for supplying power to all structures.

A method of operating a laundry stand apparatus based on preventing laundry from falling, the method comprising:

the working modes of the clothes hanger are divided into a waiting mode, a prefastening mode and a fastening mode;

when the clothes hanger device is in a pending mode, the fastening rod is positioned above the device shell, the semi-conductor magnets in the semi-conductor magnet cavities are in opposite attraction states, and the first motor does not rotate;

when the clothes hanger device is changed from a pending mode to a pre-fastening mode, the wind speed monitoring device controls a first motor to work, the first motor drives a telescopic rod to rotate towards two sides of a shell of the device, the telescopic rod touches a first touch device after rotating to a preset angle, the blocking piece blocks the telescopic rod from rotating, the first motor stops working, and the device enters the pre-fastening mode;

when the clothes hanger device is in a pre-fastening mode, the semi-conductive magnets are in a homopolar repulsion state, the telescopic rods are released from being closed, and the telescopic rods rotate to two sides of the device shell to a preset angle and then stop rotating;

when the clothes hanger enters a fastening mode from a pre-fastening mode, the second motor works to drive the push-pull rod to push the telescopic rod to extend, the telescopic rod extends to touch the second touch switch, the baffle sheet contracts, the first motor works, and after the telescopic rod continues to rotate to a preset maximum angle, the first motor stops working;

when the clothes hanger device is in a fastening mode, the telescopic rods continue to rotate to a preset maximum angle, the telescopic rods stretch, the semi-conductor is in a different-phase attraction state, and the two fastening rods are closed again and used for clamping clothes between the two fastening rods.

The wind speed monitoring device is provided with a wind power grade value preset value and a wind power grade value early-warning value, and the wind speed monitoring device carries out comparison judgment according to a wind power grade average value in a preset time obtained by monitoring and the wind power grade value preset value and the wind power grade value early-warning value in a program to control the clothes hanger device to enter different working modes;

s1, in a state of a undetermined mode, the wind speed monitoring device monitors an external wind power value, and when the average value of wind power levels in external preset time is larger than the preset value of the wind power level value, the clothes hanger device enters a pre-fastening mode;

s2, in a state of a pending mode, when the average value of the wind power level in the set time monitored by the wind speed monitoring device is smaller than a preset value of the wind power level value, the clothes hanger device keeps the pending mode;

s3, in a pre-fastening mode state, when the average value of the wind power level in the set time monitored by the wind speed monitoring device is larger than the early warning value of the wind power level value, the clothes hanger enters a fastening mode;

s4, in a pre-fastening mode state, when the average value of the wind power grade in the set time monitored by the wind speed monitoring device is smaller than the early warning value of the wind power grade value but larger than the preset value of the wind power grade value, the clothes hanger device keeps a pre-fastening mode;

s5, in a fastening mode state, when the average value of the wind power grade in the set time monitored by the wind speed monitoring device is smaller than the early warning value of the wind power grade value and smaller than the preset value of the wind power grade value, the clothes hanger enters a pending mode;

and S6, in a fastening mode state, the average value of the wind power grade in the set time monitored by the wind speed monitoring device is larger than the early warning value of the wind power grade, and the clothes hanger device is kept in the fastening mode.

Compared with the prior art, the invention has the advantages that:

1. the device is provided with a plurality of working modes which are suitable for various weather environments, when the clothes hanger device is in a pending mode, clothes are normally placed on the clothes hanger, when the clothes hanger device is in a pre-fastening mode, the clothes hanger is deformed for the first time, the clothes hanger device can quickly enter the next working mode by judging conditions such as wind speed, and when the clothes hanger device is in the fastening mode, the clothes hanger is deformed for the last time, the clothes are clamped in the parts of the clothes hanger at the moment, the risk of falling does not exist, and the universality of the device is ensured by arranging the plurality of working modes.

2. The invention adopts the mode that the fastening rod, the telescopic rod and the semi-conductor are mutually matched, changes the switch closing state of the fastening rod by controlling the magnetic pole of the semi-conductor, and simultaneously drives the fastening rod to rotate to enter different working modes by the rotation of the telescopic rod, thereby ensuring the structural integrity of the device.

3. The wind speed monitoring device can monitor the external wind power grade value of the device shell in real time, obtain the wind power grade average value in the preset time according to calculation, adjust all parts of the clothes hanger device to enter different working modes according to different wind power grade average values, and can acquire weather data of the same day in a networking way, when the external wind power is overlarge, skip a judging stage, and the control device directly enters a fastening mode, so that the practicability of the device is ensured.

Drawings

The invention will be described in more detail hereinafter on the basis of embodiments and with reference to the accompanying drawings.

FIG. 1 is a general structural view in an embodiment of the present invention;

FIG. 2 is a schematic view of a first actuator and device housing in an embodiment of the invention;

FIG. 3 is a schematic illustration of a specific configuration of a first actuator in an embodiment of the present invention;

FIG. 4 is a schematic view of a second actuator and a telescoping rod chamber in an embodiment of the present invention;

FIG. 5 is a schematic illustration of a specific construction of a second actuator in an embodiment of the present invention;

FIG. 6 is a schematic diagram of the movement of a second actuator in an embodiment of the invention;

FIG. 7 is a schematic view of a stand-by mode of a laundry stand apparatus in an embodiment of the present invention;

FIG. 8 is a schematic view of the laundry stand apparatus according to the embodiment of the present invention, from a standby mode to a prefastening mode;

FIG. 9 is a schematic view of a pre-fastening mode of a laundry stand apparatus in an embodiment of the present invention;

FIG. 10 is a schematic view of the pre-tightening mode of the laundry rack apparatus in the embodiment of the present invention being changed to the tightening mode;

FIG. 11 is a schematic view of a fastening mode of a laundry stand apparatus in an embodiment of the present invention;

fig. 12 is a flow chart of an operational mode in an embodiment of the invention.

Reference numerals:

1. a device housing;

2. a fastening rod; 21. a semi-magnetic conductive body cavity; 22. a telescopic rod cavity;

3. a wind speed monitoring device; 31. a wind speed monitoring controller; 32. a wind speed sensor;

4. a first motor;

5. a semiconductor body;

6. a solar power supply module;

7. a first trigger device; 71. a touch cavity; 72. a small-sized semiconductor body; 73. a spring; 74. a magnetic isolation gasket; 75. a baffle; 76. a first touch switch;

8. a second trigger device; 81. a push-pull controller; 82. a second motor; 83. a push-pull rod; 84. a second touch switch;

9. a telescopic rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. 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. It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present invention, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Various embodiments of the invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

Example 1

Fig. 1 is a general structural view of the present invention, including a device housing 1, a fastening rod 2, a wind speed monitoring device 3, a semiconductor 5, and a solar power module 6.

Wherein, the invention is a clothes hanger device for preventing clothes from falling off, comprising a device shell 1,

a wind speed monitoring device 3 is arranged on the device shell 1;

the side wall of the device shell 1 is coupled and connected with a plurality of fastening rods 2 which can be used for airing clothes, and each fastening rod 2 is provided with a semi-conductor 5;

the wind speed monitoring device 3 monitors the wind power level outside the device shell 1 in real time, and changes the magnetic poles of the semi-conductor 5 according to the wind power level, so as to control the fastening rods 2 to be opened or closed, when the fastening rods 2 are opened, the fastening rods 2 enter different working modes according to different signals transmitted by the wind speed monitoring device 3, and when the fastening rods 2 clamp clothes.

The wind speed monitoring device 3 comprises a wind speed monitoring controller 31 and a wind speed sensor 32, the wind speed sensor 32 is arranged outside the shell of the device shell 1, the wind speed monitoring controller 31 is electrically connected with the wind speed sensor 32, the wind speed monitoring device 3 monitors the wind power grade value outside the device shell 1 in real time, obtains the wind power grade average value in the preset time according to calculation, and adjusts each part of the clothes hanger device to enter different working modes according to different wind power grade average values.

The wind speed monitoring controller 31 one side is provided with first motor 4, the one end that first motor 4 output was connected with telescopic link 9, the telescopic link 9 other end with fastening rod 2 links to each other, first motor 4 control telescopic link 9 is rotatory along device shell 1 lateral wall, telescopic link 9 drives when rotatory and link to each other fastening rod 2 rotates.

It should be noted that the number of the fastening rods 2 is two, and similarly, the number of the telescopic rods 9 is two, the output end of the first motor 4 is connected with the two groups of telescopic rods 9, the two groups of telescopic rods 9 synchronously rotate, and the two groups of fastening rods 2 synchronously follow the telescopic rods 9 to rotate.

It should be noted that the number is used by way of example only, and the actual number is determined according to the actual requirement, without limitation.

Example two

Referring to fig. 2 to 3, the device comprises a first trigger 7, a trigger cavity 71, a small semiconductor 72, a spring 73, a magnetic insulation pad 74, a blocking piece 75, a first trigger switch 76 and a telescopic rod 9.

The first touch device 7 is arranged below the first motor 4, the first touch device 7 comprises a touch cavity 71, two groups of small semi-conductors 72 are arranged above the inside of the touch cavity 71, springs 73 are arranged between the two groups of small semi-conductors 72, a magnetic isolation gasket 74 is arranged below the two groups of small semi-conductors 72, a baffle 75 is arranged below the magnetic isolation gasket 74, one surface of the baffle 75 is fixedly connected to the springs 73, a first touch switch 76 is arranged below the baffle 75, and the telescopic rod 9 stops rotating after rotating and touching the first touch device 7.

The first motor 4 receives the electric signal transmitted by the wind speed monitoring device 3 to drive the telescopic rod 9 to rotate along two sides of the device housing 1, the magnetic poles of the two groups of small-sized semi-conductors 72 are in the same state, the two groups of semi-conductors repel each other to enable the springs 73 to open, the baffle 75 stretches out, after the telescopic rod 9 rotates to a preset angle, the baffle 75 is contacted with the telescopic rod 9, and the baffle 75 is in an extension state at the moment to prevent the telescopic rod 9 from moving.

And the baffle 75 is not contacted with the first touch switch 76 in the initial state, after the baffle 75 is collided by the telescopic rod 9, the baffle 75 is displaced to touch the first touch switch 76, and at the moment, the first touch switch 76 transmits an electric signal to the wind speed monitoring device 3.

The wind speed monitoring device 3 transmits an electric signal to the first motor 4 to stop the first motor 4, i.e. the telescopic rod 9 stops rotating.

Example III

Referring to fig. 4, 5 and 6, the telescopic rod comprises a second trigger 8, a push-pull controller 81, a second motor 82, a push-pull rod 83, a second trigger switch 84 and a telescopic rod cavity 22.

The fastening rod 2 is provided with a telescopic rod cavity 22 near one end of the device housing 1, a second touch device 8 is arranged in the telescopic rod cavity 22, the second touch device 8 comprises a push-pull controller 81 arranged at the top end inside the telescopic rod cavity 22, the push-pull controller 81 is electrically connected with a second motor 82, the output end of the second motor 82 is connected with a push-pull rod 83, the other end of the telescopic rod 9 is arranged below the push-pull rod 83, and a second touch switch 84 is arranged at the bottom end inside the telescopic rod cavity 22.

It should be noted that, the push-pull controller 81 receives the electric signal transmitted by the wind speed monitoring device 3, controls the second motor 82 to work, pushes the push-pull rod 83, and the push-pull rod 83 pushes the telescopic rod 9 to extend out of the telescopic rod cavity 22, i.e. the telescopic rod 9 extends.

When the telescopic rod 9 extends to the lower end of the telescopic rod cavity 22, the second touch switch 84 is touched, and the second touch switch 84 transmits an electric signal to the wind speed monitoring device 3.

Example IV

Referring to fig. 2 to 6, the wind speed monitoring device comprises a first trigger 7, a second trigger 8 and a wind speed monitoring device 3.

The first touch device 7 is arranged below the first motor 4, the first touch device 7 comprises a touch cavity 71, two groups of small semi-conductors 72 are arranged above the inside of the touch cavity 71, springs 73 are arranged between the two groups of small semi-conductors 72, a magnetic isolation gasket 74 is arranged below the two groups of small semi-conductors 72, a baffle 75 is arranged below the magnetic isolation gasket 74, one surface of the baffle 75 is fixedly connected to the springs 73, a first touch switch 76 is arranged below the baffle 75, and the telescopic rod 9 stops rotating after rotating and touching the first touch device 7.

The wind speed monitoring controller 31, the first motor 4, the first trigger device 7 and one end of the telescopic rod 9 are all arranged in the device shell 1.

The telescopic rod cavity 22 is formed in one end, close to the device shell 1, of the fastening rod 2, the second touch device 8 is arranged in the telescopic rod cavity 22, the second touch device 8 comprises a push-pull controller 81 arranged at the top end inside the telescopic rod cavity 22, the push-pull controller 81 is electrically connected with a second motor 82, the output end of the second motor 82 is connected with a push-pull rod 83, the other end of the telescopic rod 9 is arranged below the push-pull rod 83, and a second touch switch 84 is arranged at the bottom end inside the telescopic rod cavity 22.

It should be noted that, after the third embodiment occurs, the wind speed monitoring device 3 transmits the electrical signal to the two groups of the small semi-conductive magnets 72, and changes the magnetic poles of the two groups of the small semi-conductive magnets 72 to make the spring 73 contract, the spring 73 contracts to drive the blocking piece 75 to contract, at this time, the blocking piece 75 is far away from the first touch switch 76, the first touch switch 76 transmits the electrical signal to the wind speed monitoring device 3, the first motor 4 works, and the telescopic rod 9 is not blocked by the blocking piece 75 from rotating along the rotating path, and the telescopic rod 9 continues to rotate under the driving of the first motor 4.

In a fifth embodiment, please refer to fig. 7 to 11, which include three operation modes of the clothes hanger device, namely, a pending mode, a prefastening mode and a fastening mode.

Wherein, based on the working method of the clothes hanger device for preventing clothes from falling off, the method comprises the following steps:

the working modes of the clothes hanger are divided into a waiting mode, a prefastening mode and a fastening mode;

when the clothes hanger device is in a pending mode, the fastening rod 2 is positioned above the device shell 1, the semi-conductor 5 in the semi-conductor cavity 21 is in a different attraction state, and the first motor 4 does not rotate;

when the clothes hanger device is changed from a pending mode to a pre-fastening mode, the wind speed monitoring device 3 controls the first motor 4 to work, the first motor 4 drives the telescopic rods 9 to rotate towards two sides of the device shell 1, the telescopic rods 9 touch the first touch device 7 after rotating to a preset angle, the blocking sheets 75 block the telescopic rods 9 from rotating, the first motor 4 stops working, and the device enters the pre-fastening mode;

when the clothes hanger device is in a pre-fastening mode, the semi-conductive magnets 5 are in a state of like poles repel each other, the telescopic rods 9 are released from being closed, and the telescopic rods 9 rotate to the two sides of the device shell 1 to a preset angle and then stop rotating;

when the clothes hanger enters a fastening mode from a pre-fastening mode, the second motor 82 works to drive the push-pull rod 83 to push the telescopic rod 9 to extend, the telescopic rod 9 extends to touch the second touch switch 84, the baffle sheet 75 contracts, the first motor 4 works, and after the telescopic rod 9 continues to rotate to a preset maximum angle, the first motor 4 stops working;

when the clothes hanger device is in a fastening mode, the telescopic rods 9 continue to rotate to a preset maximum angle, the telescopic rods 9 stretch, the semi-conductor magnets 5 are in opposite attraction states, and the two groups of fastening rods 2 are closed again and used for clamping clothes between the two groups of fastening rods 2.

It should be noted that, when the laundry rack is in the undetermined mode, the first motor 4 and the second motor 82 do not work, the magnetic poles of the semi-conductive magnets 5 on the fastening rods 2 are opposite, so that the two groups of fastening rods 2 are driven to adsorb each other, and the positional relationship state of each component is shown in fig. 7.

When the clothes hanger is converted into a pre-fastening mode from a pending mode, the semi-conductor 5 on the fastening rod 2 receives the electric signal transmitted by the wind speed monitoring device 3 and converts the electric signal into the same magnetic pole, the two groups of fastening rods 2 are separated, at the moment, the first motor 4 starts to work after receiving the electric signal transmitted by the wind speed monitoring device 3, and drives the telescopic rod 9 to rotate towards two sides of the device shell 1, and the position relation state of each part is shown in figure 8.

When the clothes hanger enters the pre-fastening mode, the magnetic poles of the two groups of small semi-conductors 72 are in the same state, the two groups of semi-conductors repel each other to enable the springs 73 to open, the baffle plates 75 extend out, the telescopic rods 9 touch the baffle plates 75, the baffle plates 75 are in an extending state at the moment, and the telescopic rods 9 are prevented from moving.

And the baffle 75 is not contacted with the first touch switch 76 in the initial state, after the baffle 75 is collided by the telescopic rod 9, the baffle 75 is displaced to touch the first touch switch 76, and at the moment, the first touch switch 76 transmits an electric signal to the wind speed monitoring device 3.

The wind speed monitoring device 3 transmits an electric signal to the first motor 4, and stops the operation of the first motor 4, that is, the telescopic rod 9 stops rotating, and the positional relationship state of each component is shown in fig. 9.

When the clothes hanger is converted from the pre-fastening mode to the fastening mode, the push-pull controller 81 receives an electric signal transmitted by the wind speed monitoring device 3, controls the second motor 82 to work, pushes the push-pull rod 83, and the push-pull rod 83 pushes the telescopic rod 9 to extend out of the telescopic rod cavity 22, namely the telescopic rod 9 is extended.

When the telescopic rod 9 extends to the lower end of the telescopic rod cavity 22, the second touch switch 84 is touched, and the second touch switch 84 transmits an electric signal to the wind speed monitoring device 3.

The wind speed monitoring device 3 transmits an electric signal to the two groups of small-sized semi-conductors 72, the magnetic poles of the two groups of small-sized semi-conductors 72 are changed into opposite states, the spring 73 is contracted to drive the baffle plate 75 to be contracted, the baffle plate 75 is far away from the first touch switch 76 at this time, after the first touch switch 76 transmits the electric signal to the wind speed monitoring device 3, the first motor 4 works, the telescopic rod 9 is not blocked by the baffle plate 75 at this time, the telescopic rod 9 continues to rotate under the drive of the first motor 4, and the position relation state of each part is shown in fig. 10.

When the clothes hanger enters a fastening state, the telescopic rods 9 rotate to a preset maximum value, the semi-conductive magnets 5 on the two groups of fastening rods 2 receive the electric signals transmitted by the wind speed monitoring device 3, the opposite attraction state of the magnetic poles is converted, and the two groups of fastening rods 2 are driven to be closed to clamp clothes.

It should be noted that the number is used only as an example, the actual number is determined according to the actual requirement, and the method is not limited

In a sixth embodiment, please refer to fig. 12, which is a flowchart of an operation mode of the present invention.

The wind speed monitoring device 3 is provided with a wind power grade value preset value and a wind power grade value early-warning value, and the wind speed monitoring device 3 carries out comparison judgment according to a wind power grade average value obtained by monitoring in preset time and the wind power grade value preset value and the wind power grade value early-warning value in a program to control the clothes hanger device to enter different working modes;

s1, in a state of a undetermined mode, the wind speed monitoring device 3 monitors an external wind power value, and when the average value of wind power levels in external preset time is larger than the preset value of the wind power level value, the clothes hanger enters a pre-fastening mode;

s2, in a state of a pending mode, when the average value of the wind power level in the set time monitored by the wind speed monitoring device 3 is smaller than the preset value of the wind power level value, the clothes hanger device keeps the pending mode;

s3, in a pre-fastening mode state, when the average value of the wind power level in the set time monitored by the wind speed monitoring device 3 is larger than the early warning value of the wind power level value, the clothes hanger enters a fastening mode;

s4, in a pre-fastening mode state, when the average value of the wind power grade in the set time monitored by the wind speed monitoring device 3 is smaller than the early warning value of the wind power grade value but larger than the preset value of the wind power grade value, the clothes hanger device keeps a pre-fastening mode;

s5, in a fastening mode state, when the average value of the wind power grade in the set time monitored by the wind speed monitoring device 3 is smaller than the early warning value of the wind power grade value and smaller than the preset value of the wind power grade value, the clothes hanger enters a pending mode;

and S6, in a fastening mode state, the average value of the wind power grade in the set time monitored by the wind speed monitoring device 3 is larger than the early warning value of the wind power grade, and the clothes hanger device is kept in the fastening mode.

It is worth to say that the wind power level value preset value wind power level value early warning value is used by way of example only, the actual quantity is determined according to the actual demand condition, and the method is not limited.

While the invention has been described with reference to a preferred embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the technical features mentioned in the respective embodiments may be combined in any manner as long as there is no structural conflict. The present invention is not limited to the specific embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.

Claims (6)

1. The utility model provides a clothes hanger device that dries in air that prevents clothing from droing, includes device shell, its characterized in that:

a wind speed monitoring device is arranged on the device shell;

the side wall of the device shell is connected with a plurality of fastening rods capable of being used for airing clothes in a coupling mode, and each fastening rod is provided with a semiconductor magnet;

the wind speed monitoring device monitors the wind power level outside the shell of the device in real time, changes the magnetic poles of the semi-conductor according to the wind power level, and further controls the plurality of fastening rods to be opened or closed, when the fastening rods are opened, the fastening rods enter different working modes according to different signals transmitted by the wind speed monitoring device, and when the fastening rods are closed, the fastening rods clamp clothes;

the wind speed monitoring device comprises a wind speed monitoring controller and a wind speed sensor, wherein the wind speed sensor is arranged outside a shell of the device shell, the wind speed monitoring controller is electrically connected with the wind speed sensor, the wind speed monitoring device monitors the external wind power grade value of the device shell in real time, calculates a wind power grade average value in a preset time, and adjusts all parts of the clothes hanger device to enter different working modes according to different wind power grade average values;

the wind speed monitoring device comprises a wind speed monitoring controller, a wind speed monitoring device and a wind speed monitoring control system, wherein one side of the wind speed monitoring controller is provided with a first motor, the output end of the first motor is connected with one end of a telescopic rod, the other end of the telescopic rod is connected with a fastening rod, the first motor controls the telescopic rod to rotate along the side wall of the device shell, and the telescopic rod drives the fastening rod connected with the telescopic rod to rotate when rotating;

a first touch device is arranged below the first motor, the first touch device comprises a touch cavity, two groups of small-sized semi-conductors are arranged above the inside of the touch cavity, springs are arranged between the two groups of small-sized semi-conductors, a magnetic insulation gasket is arranged below the two groups of small-sized semi-conductors, a baffle is arranged below the magnetic insulation gasket, one surface of the baffle is fixedly connected to the springs, a first touch switch is arranged below the other surface of the baffle, and the telescopic rod stops rotating after rotating and touching the first touch device;

the telescopic rod comprises a fastening rod, a telescopic rod body, a telescopic rod shell, a telescopic rod control device and a telescopic rod, wherein the telescopic rod body is arranged at one end of the fastening rod, which is close to the device shell, a second touch device is arranged in the telescopic rod body, the second touch device comprises a push-pull controller arranged at the top end inside the telescopic rod body, the push-pull controller is electrically connected with a second motor, the output end of the second motor is connected with a push-pull rod, the other end of the telescopic rod is arranged below the push-pull rod, and a second touch switch is arranged at the bottom end inside the telescopic rod body.

2. The laundry rack apparatus according to claim 1, wherein the wind speed monitoring controller, the first motor, the first triggering device and one end of the telescopic rod are all disposed in the apparatus housing.

3. The clothes hanger apparatus of claim 1, wherein the number of the fastening rods is two, and the other ends of the two fastening rods are provided with semi-conductive magnetic cavities, and the semi-conductive magnetic bodies are arranged in the semi-conductive magnetic cavities.

4. The clothes hanger device for preventing clothes from falling off according to claim 1, wherein a solar power supply module is arranged on a device shell, the solar power supply module, the push-pull controller, the first motor, the two groups of small semi-conductors and the semi-conductors are electrically connected with the wind speed monitoring device, and the solar power supply module is used for supplying power to all structures.

5. A method of operating a laundry rack apparatus for preventing laundry from falling off as claimed in any one of claims 1 to 4, wherein the method comprises:

the working modes of the clothes hanger are divided into a waiting mode, a prefastening mode and a fastening mode;

when the clothes hanger device is in a undetermined mode, the fastening rod is positioned above the device shell, the semi-conductor is in a different attraction state, and the first motor does not rotate;

when the clothes hanger device is changed from a pending mode to a pre-fastening mode, the wind speed monitoring device controls a first motor to work, the first motor drives a telescopic rod to rotate towards two sides of a shell of the device, the telescopic rod touches a first touch device after rotating to a preset angle, the blocking piece blocks the telescopic rod from rotating, the first motor stops working, and the device enters the pre-fastening mode;

when the clothes hanger device is in a pre-fastening mode, the semi-conductive magnets are in a homopolar repulsion state, the telescopic rods are released from being closed, and the telescopic rods rotate to two sides of the device shell to a preset angle and then stop rotating;

when the clothes hanger enters a fastening mode from a pre-fastening mode, the second motor works to drive the push-pull rod to push the telescopic rod, the telescopic rod stretches to touch the second touch switch, the baffle sheet contracts, the first motor works, and after the telescopic rod continues to rotate to a preset maximum angle, the first motor stops working;

when the clothes hanger device is in a fastening mode, the telescopic rods continue to rotate to a preset maximum angle, the telescopic rods stretch, the semi-conductor is in a different-phase attraction state, the two groups of fastening rods are closed again, and clothes between the two groups of fastening rods are clamped in a closing mode.

6. The working method of the clothes hanger device for preventing clothes from falling off according to claim 5, wherein the wind speed monitoring device is provided with a wind power grade value preset value and a wind power grade value early-warning value, and the wind speed monitoring device performs comparison judgment according to a wind power grade average value obtained by monitoring in a preset time and a wind power grade value preset value and a wind power grade value early-warning value in a program, so as to control the clothes hanger device to enter different working modes;

s1, in a pending mode state, the wind speed monitoring device monitors an external wind power value, and when the average value of wind power levels in external preset time is larger than the preset value of the wind power level value, the clothes hanger device enters a pre-fastening mode;

s2, in a state of a pending mode, when the average value of the wind power level in the preset time monitored by the wind speed monitoring device is smaller than the preset value of the wind power level value, the clothes hanger device keeps the pending mode;

s3, in a pre-fastening mode state, when the average value of the wind power level in the preset time monitored by the wind speed monitoring device is larger than the early warning value of the wind power level value, the clothes hanger enters a fastening mode;

s4, in a pre-fastening mode state, when the average value of the wind power grade in the preset time monitored by the wind speed monitoring device is smaller than the early warning value of the wind power grade value but larger than the preset value of the wind power grade value, the clothes hanger device keeps a pre-fastening mode;

s5, in a fastening mode state, when the average value of the wind power grade in the preset time monitored by the wind speed monitoring device is smaller than the early warning value of the wind power grade value and smaller than the preset value of the wind power grade value, the clothes hanger enters a pending mode;

and S6, in a fastening mode state, the average value of the wind power grade in the preset time monitored by the wind speed monitoring device is larger than the early warning value of the wind power grade, and the clothes hanger device is kept in the fastening mode.