CN110568788A - Intelligent clothes airing control system - Google Patents

Abstract

The invention discloses an intelligent clothes drying control system which is characterized by comprising a processor, a detection module, a lifting module and a driving switch module; the processor is respectively in communication connection with the detection module, the lifting module and the driving switch module; the detection module comprises a humidity sensor and a photosensitive sensor; the lifting module comprises a key module, a first automatic control module and a first driving block for driving the clothes-horse to move up and down; the key module is electrically connected with the first driving block; the first automatic control module is electrically connected with the first driving block; the driving switch module comprises a control module, a second automatic control module in communication connection with the detection module and a second driving block for controlling the movement state of the canopy; the control module is electrically connected with the second driving block; the second automatic control module is electrically connected with the second driving block. The clothes airing rack has the advantages that the clothes airing rack is suitable for office workers who are not at home in the daytime, so that the clothes can be sufficiently aired, the clothes can be prevented from being wetted by rainwater, and the experience of users is improved.

Description

Intelligent clothes airing control system

Technical Field

The invention relates to the field of daily necessities, in particular to an intelligent clothes airing control system.

Background

Because the national economy is rapidly increased every day, the level of the daily life of Chinese people is increasingly improved, the comfortable requirement and demand of people for the daily life are higher, and the clothes hanger is used as a household necessary article for every family and naturally needs to meet the more comfortable requirement of people. The clothes hanger has no basic function of airing clothes and bedding, but the traditional clothes hanger is pulled manually by people. Typical or common prior art techniques are:

As CN108866979A discloses an intelligence clothes hanger that dries in air belongs to intelligent household equipment field, and the intelligence clothes hanger that dries in air includes: and (3) a clothes drying module: the clothes drying device comprises a rectangular frame consisting of side plates and a fixed plate, wherein sliding grooves are formed in the inner sides of the side plates and are connected with slidable clothes drying plates in a matched mode, and springs are connected between the clothes drying plates; the intelligent control module: the mobile phone comprises a main pipe, wherein a control piece and a signal transmission receiving piece are arranged on the main pipe, and the signal transmission receiving piece is connected with a mobile phone through a wireless router; an auxiliary function module: including can be around being responsible for rotatory baffle, the baffle tip is equipped with rotatable and is connected with the rotary rod of shielding film, and the baffle lower surface still is connected with stoving lamp and sterilamp. The intelligent clothes hanger can change the illumination on clothes, effectively improve the clothes drying effect, automatically recover the clothes in special weather such as strong wind, rain and the like, has the functions of sterilization and drying, and has high intelligent degree. Another classic system such as CN1405398A discloses an mechatronic system, which adopts advanced technologies such as modern network communication technology, intelligent control technology, sensing technology, mechanical transmission technology, etc. The intelligent clothes hanger solves the problems of the traditional clothes hanger such as single moving direction, non-automation and non-intellectualization. The intelligent clothes hanger is movable in the vertical direction and the horizontal direction and is driven by a motor, and the intelligent clothes hanger is controlled to have the following functions: the user controls the keyboard; the user controls the remote controller; the clothes hanger automatically makes a telescopic response to the environment according to the humidity sensor; the user uses the remote control host computer to send the control command to the clothes hanger through the 485 interface. It is further known, for example from US20150272364a1, to disclose a garment hanger for supporting a garment, the garment hanger comprising suspension means for suspending the garment hanger from the support means, and further comprising electronic display means located in the region of the neck portion 5 of the garment hanger, the electronic display means comprising a viewing screen and/or informational material adapted to display a promotion. The arrangement and construction being such that the electronic display means is adapted to be activated or activatable on a garment hanger removed from the support means by a user.

In conclusion, through massive search of the applicant, the field at least has low intelligentization level, high manufacturing cost and is not beneficial to popularization. Accordingly, there is a need to develop or improve an intelligent clothes drying control system.

Disclosure of Invention

The invention aims to provide an intelligent clothes airing control system to solve the problems.

In order to achieve the purpose, the invention adopts the following technical scheme:

An intelligent clothes drying control system is characterized by comprising a processor, a detection module, a lifting module for controlling the lifting motion of a clothes drying rod and a driving switch module for controlling the working state of a rain shelter; the processor is respectively in communication connection with the detection module, the lifting module and the driving switch module; the detection module comprises a humidity sensor for sensing the ambient humidity and a photosensitive sensor for sensing the light intensity; the lifting module comprises a key module, a first automatic control module in communication connection with the detection module and a first driving block for driving the clothes-horse to move up and down; the key module is electrically connected with the first driving block; the first automatic control module is electrically connected with the first driving block; the driving switch module comprises a control module, a second automatic control module and a second driving block, wherein the second automatic control module is in communication connection with the detection module, and the second driving block is used for controlling the movement state of the canopy; the control module is electrically connected with the second driving block; the second automatic control module is electrically connected with the second driving block.

Preferably, if the humidity sensor detects that the ambient humidity is less than a preset value and the photosensor detects that the light intensity is greater than the preset value, the processor transmits a start signal to the first automatic control module and the second automatic control module respectively, the first automatic control module receives the signal from the processor and controls the first driving block to drive the clothes drying rod to ascend, and the second automatic control module receives the signal from the processor and controls the second driving block to drive the canopy to fold.

Preferably, if the humidity sensor detects that the ambient humidity is greater than a preset value and the light intensity detected by the photosensitive sensor is less than the preset value, the processor respectively transmits a starting signal to the first automatic control module and the second automatic control module, the first automatic control module receives the signal from the processor and controls the first driving block to drive the clothes drying rod to descend, and the second automatic control module receives the signal from the processor and controls the second driving block to drive the canopy to unfold.

Preferably, the humidity sensor includes a transmitter, N light sources, a light receiving element, and a receiver; wherein N is a positive even number, and the light sources are symmetrically arranged around the light receiving element; each of the light sources emits illumination light in accordance with a signal from the emitter, the illumination light is reflected by a surrounding object or moisture in the air and input to the light receiving element, and the receiver extracts a component of a modulation frequency of the moisture emission in the air from the signal in the light receiving element.

preferably, the photosensor includes a light shielding plate and a photoelectric conversion circuit; the light shading plate consists of a sun-illuminated surface and a backlight surface, and the photoelectric conversion circuit comprises a first photoresistor and a second photoresistor; the first photoresistor is arranged on the sunlight surface and used for sensing the illumination radiation of the sunlight surface, and the second photoresistor is arranged on the backlight surface and used for sensing the illumination radiation of the backlight surface.

Preferably, the detection module further comprises a pressure sensor; the pressure sensor is arranged at a clothes airing hole of the clothes airing rod; the pressure sensor is in communication connection with the first automatic control module; when the pressure sensor judges that the load borne by the clothes airing rod reaches a preset value, the pressure sensor sends a pressure signal to the first automatic sensor; the first automatic control module receives a signal from the pressure sensor and controls the first driving block to drive the clothes airing rod to ascend.

Preferably, the device further comprises an alarm device for reminding the user; when the humidity sensor detects that the ambient humidity is larger than a preset value and the photosensitive sensor detects that the light intensity is smaller than the preset value, the processor receives a signal from the humidity sensor and a signal from the photosensitive sensor, sends an alarm signal to the alarm device, and the alarm device is started.

preferably, the detection module further comprises a wind speed acquisition sensor for detecting the ambient wind speed; the wind speed acquisition sensor is in communication connection with the processor.

Preferably, the display screen module is further included; the display screen module is in communication connection with the detection module; the display screen module displays the environment humidity value, the wind speed, the light intensity index and the clothes airing time.

Preferably, the processor is an STC89C52 single chip microcomputer.

The beneficial effects obtained by the invention are as follows:

1. The invention has high intellectualization, high manufacturing cost and convenient large-scale popularization.

2. The clothes airing rack is suitable for office workers who are not at home in the daytime, so that the clothes can be sufficiently aired, the clothes can be prevented from being wetted by rainwater, and the experience of users is improved.

3. The clothes hanger is high in intelligence, replaces manpower, is wide in using crowd, and solves the problem that the old and children are difficult to dry clothes.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a system block diagram of an intelligent clothes drying control system in embodiments 1-2 of the present invention;

Fig. 2 is a flowchart of an intelligent clothes drying control system in embodiment 2 of the present invention.

Description of reference numerals: 1-a processor; 2-a lifting module; 3-driving a switch module; 4-a humidity sensor; 5-a photosensitive sensor; 6-a pressure sensor; 7-an alarm device; 8-wind speed acquisition sensor; 9-display screen module.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the device or component referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms described above will be understood by those of ordinary skill in the art according to the specific circumstances.

The first embodiment is as follows:

an intelligent clothes drying control system as shown in fig. 1-2 comprises a processor 1, a detection module, a lifting module 2 for controlling the lifting motion of a clothes drying rod and a driving switch module 3 for controlling the working state of a rain shelter; the processor 1 is in communication connection with the detection module, the lifting module 2 and the driving switch module 3 respectively; the detection module comprises a humidity sensor 4 for sensing the ambient humidity and a photosensitive sensor 5 for sensing the light intensity; the lifting module 2 comprises a key module, a first automatic control module in communication connection with the detection module and a first driving block for driving the clothes-horse to move up and down; the key module is electrically connected with the first driving block; the first automatic control module is electrically connected with the first driving block; the driving switch module 3 comprises a control module, a second automatic control module in communication connection with the detection module and a second driving block for controlling the movement state of the canopy; the control module is electrically connected with the second driving block; the second automatic control module is electrically connected with the second driving block; wherein, the processor 1 is an STC89C52 singlechip.

If the humidity sensor 4 detects that the ambient humidity is smaller than a preset value and the photosensitive sensor 5 detects that the light intensity is larger than the preset value, the processor 1 respectively transmits a starting signal to a first automatic control module and a second automatic control module, the first automatic control module receives a signal from the processor 1 and controls a first driving block to drive a clothes airing rod to ascend, and the second automatic control module receives a signal from the processor 1 and controls a second driving block to drive a canopy to fold.

If the humidity sensor 4 detects that the environmental humidity is larger than a preset value and the photosensitive sensor 5 detects that the light intensity is smaller than the preset value, the processor 1 respectively transmits a starting signal to a first automatic control module and a second automatic control module, the first automatic control module receives a signal from the processor 1 and controls a first driving block to drive a clothes drying rod to descend, and the second automatic control module receives a signal from the processor 1 and controls a second driving block to drive a canopy to unfold.

In order to ensure the sensitivity of the humidity sensor 4 and ensure that the lifting module 2 and the driving switch module 3 are accurately triggered, the humidity sensor 4 in this embodiment 1 includes a transmitter, N light sources, a light receiving element, and a receiver; wherein N is a positive even number, and the light sources are symmetrically arranged around the light receiving element; each of the light sources emits illumination light in accordance with a signal from the emitter, the illumination light is reflected by a surrounding object or moisture in the air and input to the light receiving element, and the receiver extracts a component of a modulation frequency of the moisture emission in the air from the signal in the light receiving element.

And the photosensor 5 includes a light shielding plate and a photoelectric conversion circuit; the light shading plate consists of a sun-illuminated surface and a backlight surface, and the photoelectric conversion circuit comprises a first photoresistor and a second photoresistor; the first photoresistor is arranged on the sunlight surface and used for sensing the illumination radiation of the sunlight surface, and the second photoresistor is arranged on the backlight surface and used for sensing the illumination radiation of the backlight surface.

in order to improve the degree of automation and reduce the labor force to the maximum extent, the detection module in this embodiment 1 further includes a pressure sensor 6; the pressure sensor 6 is arranged at a clothes airing hole of the clothes airing rod; the pressure sensor 6 is in communication connection with the first automatic control module; when the pressure sensor 6 judges that the load borne by the clothes airing rod reaches a preset value, the pressure sensor 6 sends a pressure signal to the first automatic sensor; the first automatic control module receives a signal from the pressure sensor 6 and controls the first driving block to drive the clothes airing rod to ascend.

In order to remind the user of the external weather condition, the present embodiment 1 further includes an alarm device 7 for reminding the user; when the humidity sensor 4 detects that the ambient humidity is greater than a preset value and the light sensor 5 detects that the light intensity is less than the preset value, the processor 1 receives a signal from the humidity sensor 4 and a signal from the light sensor 5, sends an alarm signal to the alarm device 7, and the alarm device 7 is started.

In addition, in order to let the user know the dryness and humidity of the clothes in the embodiment 1, the detecting module further includes a wind speed collecting sensor 8 for detecting the ambient wind speed; the wind speed acquisition sensor 8 is in communication connection with the processor 1.

In order to make the user intuitively know the airing environment of the clothes, the embodiment 1 further comprises a display screen module 9; the display screen module 9 is in communication connection with the detection module; the display screen module 9 displays the environment humidity value, the wind speed, the light intensity index and the clothes airing time.

Example two:

An intelligent clothes drying control system as shown in fig. 1-2 comprises a processor 1, a detection module, a lifting module 2 for controlling the lifting motion of a clothes drying rod and a driving switch module 3 for controlling the working state of a rain shelter; the processor 1 is in communication connection with the detection module, the lifting module 2 and the driving switch module 3 respectively; the detection module comprises a humidity sensor 4 for sensing the ambient humidity and a photosensitive sensor 5 for sensing the light intensity; the lifting module 2 comprises a key module, a first automatic control module in communication connection with the detection module and a first driving block for driving the clothes-horse to move up and down; the key module is electrically connected with the first driving block; the first automatic control module is electrically connected with the first driving block; the driving switch module 3 comprises a control module, a second automatic control module in communication connection with the detection module and a second driving block for controlling the movement state of the canopy; the control module is electrically connected with the second driving block; the second automatic control module is electrically connected with the second driving block; wherein, the processor 1 is an STC89C52 singlechip.

If the humidity sensor 4 detects that the ambient humidity is smaller than a preset value and the photosensitive sensor 5 detects that the light intensity is larger than the preset value, the processor 1 respectively transmits a starting signal to a first automatic control module and a second automatic control module, the first automatic control module receives a signal from the processor 1 and controls a first driving block to drive a clothes airing rod to ascend, and the second automatic control module receives a signal from the processor 1 and controls a second driving block to drive a canopy to fold.

If the humidity sensor 4 detects that the environmental humidity is larger than a preset value and the photosensitive sensor 5 detects that the light intensity is smaller than the preset value, the processor 1 respectively transmits a starting signal to a first automatic control module and a second automatic control module, the first automatic control module receives a signal from the processor 1 and controls a first driving block to drive a clothes drying rod to descend, and the second automatic control module receives a signal from the processor 1 and controls a second driving block to drive a canopy to unfold.

In order to ensure the sensitivity of the humidity sensor 4 and ensure that the lifting module 2 and the driving switch module 3 are accurately triggered, the humidity sensor 4 in this embodiment 1 includes a transmitter, N light sources, a light receiving element, and a receiver; wherein N is a positive even number, and the light sources are symmetrically arranged around the light receiving element; each of the light sources emits illumination light in accordance with a signal from the emitter, the illumination light is reflected by a surrounding object or moisture in the air and input to the light receiving element, and the receiver extracts a component of a modulation frequency of the moisture emission in the air from the signal in the light receiving element.

And the photosensor 5 includes a light shielding plate and a photoelectric conversion circuit; the light shading plate consists of a sun-illuminated surface and a backlight surface, and the photoelectric conversion circuit comprises a first photoresistor and a second photoresistor; the first photoresistor is arranged on the sunlight surface and used for sensing the illumination radiation of the sunlight surface, and the second photoresistor is arranged on the backlight surface and used for sensing the illumination radiation of the backlight surface.

In order to improve the degree of automation and reduce the labor force to the maximum extent, the detection module in this embodiment 2 further includes a pressure sensor 6; the pressure sensor 6 is arranged at a clothes airing hole of the clothes airing rod; the pressure sensor 6 is in communication connection with the first automatic control module; when the pressure sensor 6 judges that the load borne by the clothes airing rod reaches a preset value, the pressure sensor 6 sends a pressure signal to the first automatic sensor; the first automatic control module receives a signal from the pressure sensor 6 and controls the first driving block to drive the clothes airing rod to ascend.

In order to remind the user of the external weather condition, the present embodiment 2 further includes an alarm device 7 for reminding the user; when the humidity sensor 4 detects that the ambient humidity is greater than a preset value and the light sensor 5 detects that the light intensity is less than the preset value, the processor 1 receives a signal from the humidity sensor 4 and a signal from the light sensor 5, sends an alarm signal to the alarm device 7, and the alarm device 7 is started.

In addition, in this embodiment 2, in order to let the user know the dryness and humidity of the clothes, the detecting module further includes a wind speed collecting sensor 8 for detecting the ambient wind speed; the wind speed acquisition sensor 8 is in communication connection with the processor 1.

In order to make the user intuitively know the airing environment of the clothes, the embodiment 2 further comprises a display screen module 9; the display screen module 9 is in communication connection with the detection module; the display screen module 9 displays the environment humidity value, the wind speed, the light intensity index and the clothes airing time.

In addition, in this embodiment 2, in order to avoid unnecessary damage caused by the fact that the motor still rotates when the clothes-horse ascends or descends to the limit position, then the travel switch is adopted to simulate the clothes-horse to ascend and descend to the limit, and the clothes-horse triggers the travel switch and then stops the motor.

In this embodiment 2, the display screen module 9 further includes a wireless communication module, and the environment humidity value, the wind speed, the light intensity index and the clothes airing time are transmitted to a preset mobile terminal through the wireless communication module; the mobile terminal comprises a data storage module, a data analysis module, a database module and an intelligent voice module; the display module 9 stores data in the storage module through the wireless communication module; the storage module is connected with the data analysis module, and the data analysis module is combined with the database module to analyze data, so that the dry and wet depth, the bacterial existence amount and the wearing comfort degree of clothes in the clothes airing process are obtained, and the information is reported to a user through the intelligent voice module.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. That is, the methods, systems, and devices discussed above are examples. Various configurations may omit, substitute, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in an order different than that described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, as different aspects and elements of the configurations may be combined in a similar manner. Further, elements therein may be updated as technology evolves, i.e., many elements are examples and do not limit the scope of the disclosure or claims.

specific details are given in the description to provide a thorough understanding of the exemplary configurations including implementations. However, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. This description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configurations will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

it is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is the following claims, including all equivalents, that are intended to define the spirit and scope of this invention. The above examples are to be construed as merely illustrative and not limitative of the remainder of the disclosure. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (10)

1. An intelligent clothes drying control system is characterized by comprising a processor, a detection module, a lifting module for controlling the lifting motion of a clothes drying rod and a driving switch module for controlling the working state of a rain shelter; the processor is respectively in communication connection with the detection module, the lifting module and the driving switch module; the detection module comprises a humidity sensor for sensing the ambient humidity and a photosensitive sensor for sensing the light intensity; the lifting module comprises a key module, a first automatic control module in communication connection with the detection module and a first driving block for driving the clothes-horse to move up and down; the key module is electrically connected with the first driving block; the first automatic control module is electrically connected with the first driving block; the driving switch module comprises a control module, a second automatic control module and a second driving block, wherein the second automatic control module is in communication connection with the detection module, and the second driving block is used for controlling the movement state of the canopy; the control module is electrically connected with the second driving block; the second automatic control module is electrically connected with the second driving block.

2. The intelligent clothes drying control system according to claim 1, wherein if the humidity sensor detects that the ambient humidity is less than a preset value and the light sensor detects that the light intensity is greater than the preset value, the processor transmits a start signal to the first automatic control module and the second automatic control module respectively, the first automatic control module receives the signal from the processor and controls the first driving block to drive the clothes drying rod to ascend, and the second automatic control module receives the signal from the processor and controls the second driving block to drive the canopy to retract.

3. The intelligent clothes drying control system according to claim 1, wherein if the humidity sensor detects that the ambient humidity is greater than a preset value and the light sensor detects that the light intensity is less than the preset value, the processor respectively transmits a start signal to a first automatic control module and a second automatic control module, the first automatic control module receives the signal from the processor and controls the first driving block to drive the clothes drying rod to descend, and the second automatic control module receives the signal from the processor and controls the second driving block to drive the canopy to unfold.

4. An intelligent clothes drying control system according to claim 3, wherein the humidity sensor comprises a transmitter, N light sources, a light receiving element and a receiver; wherein N is a positive even number, and the light sources are symmetrically arranged around the light receiving element; each of the light sources emits illumination light in accordance with a signal from the emitter, the illumination light is reflected by a surrounding object or moisture in the air and input to the light receiving element, and the receiver extracts a component of a modulation frequency of the moisture emission in the air from the signal in the light receiving element.

5. An intelligent clothes drying control system according to claim 3, wherein the photosensitive sensor comprises a light shielding plate and a photoelectric conversion circuit; the light shading plate consists of a sun-illuminated surface and a backlight surface, and the photoelectric conversion circuit comprises a first photoresistor and a second photoresistor; the first photoresistor is arranged on the sunlight surface and used for sensing the illumination radiation of the sunlight surface, and the second photoresistor is arranged on the backlight surface and used for sensing the illumination radiation of the backlight surface.

6. The intelligent clothes drying control system of claim 1, wherein the detection module further comprises a pressure sensor; the pressure sensor is arranged at a clothes airing hole of the clothes airing rod; the pressure sensor is in communication connection with the first automatic control module; when the pressure sensor judges that the load borne by the clothes airing rod reaches a preset value, the pressure sensor sends a pressure signal to the first automatic sensor; the first automatic control module receives a signal from the pressure sensor and controls the first driving block to drive the clothes airing rod to ascend.

7. The intelligent clothes drying control system according to claim 1, further comprising an alarm device for reminding a user; when the humidity sensor detects that the ambient humidity is larger than a preset value and the photosensitive sensor detects that the light intensity is smaller than the preset value, the processor receives a signal from the humidity sensor and a signal from the photosensitive sensor, sends an alarm signal to the alarm device, and the alarm device is started.

8. The intelligent clothes drying control system according to claim 1, wherein the detection module further comprises a wind speed acquisition sensor for detecting ambient wind speed; the wind speed acquisition sensor is in communication connection with the processor.

9. The intelligent clothes drying control system according to claim 8, further comprising a display screen module; the display screen module is in communication connection with the detection module; the display screen module displays the environment humidity value, the wind speed, the light intensity index and the clothes airing time.

10. The intelligent clothes drying control system of claim 1, wherein the processor is an STC89C52 single chip microcomputer.