CN112442870A - Rapid airing system based on position change and working method thereof - Google Patents

Abstract

A quick airing system based on position change and a working method thereof comprise a plurality of linear airing rails, a main U-shaped airing rail, an auxiliary U-shaped airing rail and an electric lifting frame which are arranged at the top of an airing room, wherein an electric slip ring is arranged on the side surface of each linear airing rail and used for hanging aired objects, and the main U-shaped airing rail and the auxiliary U-shaped airing rail are arranged on the electric lifting frame; further comprising: an illuminance detection module configured to detect illuminance at different positions of the linear airing rail; the first extraction module is configured to extract a first position with the maximum illuminance, a first electric slip ring at the first position and a second electric slip ring before the first position; a humidity detection module configured to detect humidity of the drying object on the linear drying rail; the second extraction module is configured to extract a second position with the maximum humidity, a third electric slip ring at the second position and a fourth electric slip ring before the second position; and the driving module is configured to drive the electric slip ring to move.

Description

Rapid airing system based on position change and working method thereof

Technical Field

The invention relates to the field of airing furniture, in particular to a rapid airing system based on position change and a working method thereof.

Background

In areas or seasons with low air temperature, the aired clothes are not easy to dry, and when the aired clothes are more, not every piece of clothes can be fully irradiated, so that part of clothes can be aired, and part of clothes can not be aired; and people can not return to the residence to adjust the aired clothes when going out to learn or work, the aired clothes can be continuously exposed, the quality of the clothes can be damaged, and the clothes which are not aired can not be aired all the time.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides a quick airing system based on position change and a working method thereof, which can effectively solve the problems in the background art.

The technical scheme is as follows:

a quick airing system based on position change comprises a plurality of linear airing rails, a main U-shaped airing rail, an auxiliary U-shaped airing rail and an electric lifting frame, wherein the linear airing rails, the main U-shaped airing rail, the auxiliary U-shaped airing rail and the electric lifting frame are arranged at the top of an airing room; the sunning system still includes:

an illuminance detection module configured to detect illuminance at different positions of the linear drying rail;

the first extraction module is configured to extract a first position with the maximum illuminance, a first electric slip ring at the first position and a second electric slip ring before the first position;

a humidity detection module configured to detect humidity of the drying object on the linear drying rail;

the second extraction module is configured to extract a second position with the maximum humidity, a third electric slip ring at the second position and a fourth electric slip ring before the second position;

a driving module configured to drive the electric slip ring to move;

wherein the first position is by default in front of the second position.

As a preferred embodiment of the present invention, the present invention further comprises:

the fixing module is arranged on the electric slip ring and is configured to fix the aired objects hung on the electric slip ring.

As a preferred embodiment of the present invention, the present invention further comprises:

the timing module is configured to set a plurality of detection times, and when the detection times are reached, illumination and humidity are started to be detected.

As a preferred embodiment of the present invention, the present invention further comprises:

the rotating module is arranged on the electric slip ring and is configured to rotate the aired object hung on the electric slip ring.

As a preferred embodiment of the present invention, the present invention further comprises:

the left end and the right end of the linear airing rail are respectively provided with a main U-shaped airing rail, an auxiliary U-shaped airing rail and an electric lifting frame;

a third extraction module configured to extract an electric crane in front of the first location.

A working method of a quick airing system based on position change comprises the following working steps:

s101: detecting the illumination of different positions of the linear airing rail;

s102: extracting a first position with maximum illumination;

s103: detecting the humidity of the aired objects on the linear airing rail;

s104: extracting a second position with the maximum humidity;

s105: extracting a first electric slip ring at a first position and a second electric slip ring before the first position;

s106: extracting a third electric slip ring at the second position and a fourth electric slip ring between the first position and the second position;

s107: the electric lifting frame is driven to descend until the main U-shaped airing rail is spliced with the linear airing rail, and the first electric slip ring and the second electric slip ring are driven to enter the main U-shaped airing rail;

s108: the electric lifting frame is driven to descend until the auxiliary U-shaped airing rail is spliced with the linear airing rail, and the third electric slip ring and the fourth electric slip ring are driven to enter the auxiliary U-shaped airing rail;

s109: the electric lifting frame is driven to translate until the other end of the auxiliary U-shaped airing rail is spliced with the linear airing rail, and a fourth electric slip ring is driven to enter the linear airing rail;

s110: the electric lifting frame is driven to ascend and translate until the main U-shaped airing rail is spliced with the linear airing rail, and the first electric slip ring is driven to enter the linear airing rail;

s111: the electric lifting frame is driven to descend until the auxiliary U-shaped airing rail is spliced with the linear airing rail, and a third electric slip ring is driven to enter the linear airing rail;

s112: and driving the electric lifting frame to ascend until the main U-shaped airing rail is spliced with the linear airing rail, and driving a second electric slip ring to enter the linear airing rail.

As a preferred embodiment of the present invention, the present invention further comprises:

extracting an electric slip ring hung with an aired object and a fixing module on the electric slip ring;

and driving the fixed module to start.

As a preferred embodiment of the present invention, the present invention further comprises:

judging whether the detection time is reached;

if so, execution of S101 is started.

As a preferred embodiment of the present invention, the present invention further comprises:

if the detection time is up, extracting an electric slip ring hung with the aired object and a rotating module on the electric slip ring;

and driving the rotating module to start.

As a preferred embodiment of the present invention, S107 further includes:

and extracting the electric lifting frame in front of the first position.

The invention realizes the following beneficial effects:

1. be provided with main U type sunning rail and vice U type sunning rail of upper and lower floor on the electric crane, main U type sunning rail and vice U type sunning rail homoenergetic can splice with linear type sunning rail, and the electronic sliding ring on the linear type sunning rail can get into main U type sunning rail and vice U type sunning rail can the position of sunning thing on the automatic adjustment linear type sunning rail.

2. The change of illumination intensity is automatically detected along with the change of the position of the sun, then the humidity of the aired object is detected, the aired object with the maximum humidity is transferred to the position with the maximum illumination intensity, the airing of the aired object can be accelerated to the maximum degree under the condition that the influence on the positions of other aired objects is minimum, and the same aired object can be prevented from being in the position with the maximum illumination intensity for a long time.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of a working method of the rapid airing system based on the position change provided by the invention.

FIG. 2 is a schematic structural view of the airing system provided by the present invention.

FIG. 3 is a block diagram of the airing system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

As shown in fig. 1, the embodiment provides a working method of a quick airing system based on position change, which includes the following working steps:

s101: detecting the illumination of different positions of the linear airing rail;

s102: extracting a first position with maximum illumination;

s103: detecting the humidity of the aired objects on the linear airing rail;

s104: extracting a second position with the maximum humidity;

s105: extracting a first electric slip ring at a first position and a second electric slip ring before the first position;

s106: extracting a third electric slip ring at the second position and a fourth electric slip ring between the first position and the second position;

s107: the electric lifting frame is driven to descend until the main U-shaped airing rail is spliced with the linear airing rail, and the first electric slip ring and the second electric slip ring are driven to enter the main U-shaped airing rail;

s108: the electric lifting frame is driven to descend until the auxiliary U-shaped airing rail is spliced with the linear airing rail, and the third electric slip ring and the fourth electric slip ring are driven to enter the auxiliary U-shaped airing rail;

s109: the electric lifting frame is driven to translate until the other end of the auxiliary U-shaped airing rail is spliced with the linear airing rail, and a fourth electric slip ring is driven to enter the linear airing rail;

s110: the electric lifting frame is driven to ascend and translate until the main U-shaped airing rail is spliced with the linear airing rail, and the first electric slip ring is driven to enter the linear airing rail;

s111: the electric lifting frame is driven to descend until the auxiliary U-shaped airing rail is spliced with the linear airing rail, and a third electric slip ring is driven to enter the linear airing rail;

s112: and driving the electric lifting frame to ascend until the main U-shaped airing rail is spliced with the linear airing rail, and driving a second electric slip ring to enter the linear airing rail.

Before S107, the method further includes:

and extracting the electric lifting frame in front of the first position.

Specifically, in S101, when the position of the sun changes, the illuminance at different positions on the linear airing rail changes, and accordingly, the illuminance of the aired object at different positions also changes, so that the illuminance at different positions on the linear airing rail is detected.

In S102, a first position where the illuminance is maximum is extracted.

In S103, the humidity of each item to be dried is detected.

In S104, the second position where the humidity is the maximum is extracted.

The first position is used as the front, the second position is used as the rear, the position relation of the electric lifting frame is defined, and then the electric lifting frame in front of the first position is extracted.

In S105, the first position is defined in front of the second position, the first electrical slip ring at the first position is extracted, and then the second electrical slip ring in front of the first position is extracted, where the second electrical slip ring may include a plurality of electrical slip rings, and the second electrical slip ring includes an electrical slip ring on which an air-drying object is hung and an electrical slip ring on which an air-drying object is not hung.

In S106, the third electric slip ring at the second position is extracted, and then the fourth electric slip ring between the first position and the second position is extracted, where the fourth electric slip ring may include a plurality of electric slip rings, and the fourth electric slip ring includes an electric slip ring on which an air-drying object is hung and an electric slip ring on which an air-drying object is not hung.

And S107, driving the electric lifting frame to descend, stopping descending when the main U-shaped airing rail is spliced with the linear airing rail, and driving the first electric slip ring and the second electric slip ring to enter the main U-shaped airing rail.

At the moment, the other electric slip rings behind the first electric slip ring are reserved on the linear type drying rail.

And S108, driving the electric lifting frame to descend, stopping descending when the auxiliary U-shaped airing rail is spliced with the linear airing rail, and driving the third electric slip ring and the fourth electric slip ring to enter the auxiliary U-shaped airing rail.

At this time, the other electric slip rings behind the third electric slip ring are reserved on the linear type drying rail.

In S109, the main U-shaped airing rail and the auxiliary U-shaped airing rail respectively comprise two inlet and outlet ports, the electric lifting frame is driven to translate, when the other end of the auxiliary U-shaped airing rail is spliced with the linear airing rail, translation is stopped, and the fourth electric slip ring is driven to enter the linear airing rail.

At the moment, the third electric slip ring is reserved on the auxiliary U-shaped airing rail.

And in S110, driving the electric lifting frame to ascend and translate, stopping ascending and translating when the main U-shaped airing rail is spliced with the linear airing rail, and driving the first electric slip ring to enter the linear airing rail.

At the moment, the second electric slip ring is reserved on the main U-shaped airing rail.

And in S111, driving the electric lifting frame to descend, stopping the lower frame when the auxiliary U-shaped airing rail is spliced with the linear airing rail, and driving a third electric slip ring to enter the linear airing rail.

At this time, the drying object with the highest humidity reaches the position with the highest illumination intensity.

And in S112, the electric lifting frame is driven to ascend, when the main U-shaped airing rail and the linear airing rail are spliced, the electric lifting frame stops ascending, a second electric slip ring is driven to enter the linear airing rail, and the electric lifting frame is driven to ascend to the original position.

Example two

Extracting an electric slip ring hung with an aired object and a fixing module on the electric slip ring;

and driving the fixed module to start.

Specifically, when a user dries clothes, the clothes hanger is hung on the electric slip ring, in order to prevent the clothes from being blown off by wind or falling off in the moving process of the electric slip ring, fixing modules are additionally arranged on two sides of the electric slip ring, a tension sensor is arranged in the electric slip ring, when the clothes hanger is hung on the electric slip ring, the tension sensor in the electric slip ring can detect a numerical value, and then the fixing device is automatically started to fix the clothes hanger.

EXAMPLE III

Judging whether the detection time is reached;

if so, execution of S101 is started.

If the detection time is up, extracting an electric slip ring hung with the aired object and a rotating module on the electric slip ring;

and driving the rotating module to start.

Specifically, the system is provided with a plurality of detection times, and the detection times are customized by a user.

The execution of S101 is started every time the detection time is reached.

The electric slip ring is further provided with a rotating module, the rotating module is started once when the detection time reaches one time, the rotating module can change the surface of an air-dried object receiving illumination, and the air-drying speed is increased.

Example four

As shown in fig. 2 and 3, a rapid airing system based on position change comprises a plurality of linear airing rails 401, a main U-shaped airing rail 402, an auxiliary U-shaped airing rail 403 and an electric lifting frame 404 which are arranged on the top of an airing room, wherein an electric slip ring 405 is arranged on the side surface of each linear airing rail, the electric slip ring 405 is used for hanging aired objects, the main U-shaped airing rail 402 and the auxiliary U-shaped airing rail 403 are arranged on the electric lifting frame 404, the main U-shaped airing rail 402 is arranged below the auxiliary U-shaped airing rail 403, the linear airing rail 401, the main U-shaped airing rail 402 and the auxiliary U-shaped airing rail 403 all comprise two access ports, and the access ports of the main U-shaped airing rail 402 and the auxiliary U-shaped airing rail 403 can be spliced with the access ports of the linear airing rail 401; the sunning system still includes:

an illuminance detection module 406 configured to detect illuminance at different positions of the linear airing rail 401;

a first extraction module 407 configured to extract a first position where the illuminance is maximum, and a first electric slip ring at the first position and a second electric slip ring before the first position;

a humidity detection module 408 configured to detect humidity of the drying object on the linear drying rail 401;

a second extraction module 409 configured to extract a second position where humidity is the greatest, and a third electric slip ring at the second position and a fourth electric slip ring before the second position;

a driving module 410 configured to drive the electric slip ring to move.

And a fixing module 411 disposed on the electric slip ring and configured to fix an airing object hung on the electric slip ring.

The timing module 412 is configured to set a number of detection times therein, and when the detection times are reached, the detection of the illuminance and the humidity is started.

And a rotating module 413 disposed on the electric slip ring and configured to rotate the drying object hung on the electric slip ring.

A third extraction module 414 configured to extract the motorized crane in front of the first location.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. A quick airing system based on position change is characterized by comprising a plurality of linear airing rails, a main U-shaped airing rail, an auxiliary U-shaped airing rail and an electric lifting frame, wherein the linear airing rails, the main U-shaped airing rail, the auxiliary U-shaped airing rail and the electric lifting frame are arranged at the top of an airing room; the sunning system still includes:

an illuminance detection module configured to detect illuminance at different positions of the linear drying rail;

the first extraction module is configured to extract a first position with the maximum illuminance, a first electric slip ring at the first position and a second electric slip ring before the first position;

a humidity detection module configured to detect humidity of the drying object on the linear drying rail;

the second extraction module is configured to extract a second position with the maximum humidity, a third electric slip ring at the second position and a fourth electric slip ring before the second position;

a driving module configured to drive the electric slip ring to move;

wherein the first position is by default in front of the second position.

2. The quick airing system based on the position change and the working method thereof according to claim 1 are characterized in that: further comprising:

the fixing module is arranged on the electric slip ring and is configured to fix the aired objects hung on the electric slip ring.

3. The quick airing system based on the position change and the working method thereof according to claim 1 are characterized in that: further comprising:

the timing module is configured to set a plurality of detection times, and when the detection times are reached, illumination and humidity are started to be detected.

4. The quick airing system based on the position change and the working method thereof according to claim 1 are characterized in that: further comprising:

the rotating module is arranged on the electric slip ring and is configured to rotate the aired object hung on the electric slip ring.

5. The quick airing system based on the position change and the working method thereof according to claim 1 are characterized in that: further comprising:

the left end and the right end of the linear airing rail are respectively provided with a main U-shaped airing rail, an auxiliary U-shaped airing rail and an electric lifting frame;

a third extraction module configured to extract an electric crane in front of the first location.

6. The working method of the quick airing system based on the position change and the working method of the quick airing system based on the position change according to any one of claims 1 to 5 is characterized by comprising the following working steps of:

s101: detecting the illumination of different positions of the linear airing rail;

s102: extracting a first position with maximum illumination;

s103: detecting the humidity of the aired objects on the linear airing rail;

s104: extracting a second position with the maximum humidity;

s105: extracting a first electric slip ring at a first position and a second electric slip ring before the first position;

s106: extracting a third electric slip ring at the second position and a fourth electric slip ring between the first position and the second position;

s107: the electric lifting frame is driven to descend until the main U-shaped airing rail is spliced with the linear airing rail, and the first electric slip ring and the second electric slip ring are driven to enter the main U-shaped airing rail;

s108: the electric lifting frame is driven to descend until the auxiliary U-shaped airing rail is spliced with the linear airing rail, and the third electric slip ring and the fourth electric slip ring are driven to enter the auxiliary U-shaped airing rail;

s109: the electric lifting frame is driven to translate until the other end of the auxiliary U-shaped airing rail is spliced with the linear airing rail, and a fourth electric slip ring is driven to enter the linear airing rail;

s110: the electric lifting frame is driven to ascend and translate until the main U-shaped airing rail is spliced with the linear airing rail, and the first electric slip ring is driven to enter the linear airing rail;

s111: the electric lifting frame is driven to descend until the auxiliary U-shaped airing rail is spliced with the linear airing rail, and a third electric slip ring is driven to enter the linear airing rail;

s112: and driving the electric lifting frame to ascend until the main U-shaped airing rail is spliced with the linear airing rail, and driving a second electric slip ring to enter the linear airing rail.

7. The quick airing system based on the position change and the working method of the quick airing system based on the position change according to claim 6 are characterized in that: further comprising:

extracting an electric slip ring hung with an aired object and a fixing module on the electric slip ring;

and driving the fixed module to start.

8. The quick airing system based on the position change and the working method of the quick airing system based on the position change according to claim 6 are characterized in that: further comprising:

judging whether the detection time is reached;

if so, execution of S101 is started.

9. The quick airing system based on the position change and the working method of the quick airing system based on the position change as claimed in claim 8 are characterized in that: further comprising:

if the detection time is up, extracting an electric slip ring hung with the aired object and a rotating module on the electric slip ring;

and driving the rotating module to start.

10. The quick airing system based on the position change and the working method of the quick airing system based on the position change according to claim 6 are characterized in that: before S107, the method further includes:

and extracting the electric lifting frame in front of the first position.

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