CN206625047U

CN206625047U - Control system of clothes dryer and clothes dryer

Info

Publication number: CN206625047U
Application number: CN201720307560.0U
Authority: CN
Inventors: 高梦莹; 包思远; 高小丽
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2017-03-27
Filing date: 2017-03-27
Publication date: 2017-11-10
Anticipated expiration: 2027-03-27

Abstract

The utility model discloses a control system and dryer of dryer, this system includes: the control module, and a fabric collecting device, a heat pump module and a humidity sensor which are respectively matched with the control module; the fabric collecting device is used for collecting fabric information of clothes to be dried in the clothes dryer; the heat pump module is used for conveying hot air to the accommodating space of the clothes to be dried; the humidity sensor is used for acquiring the inlet air humidity of the air inlet of the accommodating space and the outlet air humidity of the air outlet of the accommodating space; the control module is used for starting the heat pump module at a preset working temperature matched with the fabric information according to the fabric information; and when the difference between the outlet air humidity and the inlet air humidity is within a preset range, closing the heat pump module. The utility model discloses a scheme can overcome among the prior art defect such as application range is little, the flexibility is poor and the extravagant energy, realizes that application range is big, the flexibility is good and the beneficial effect of energy saving.

Description

Control system of clothes dryer and clothes dryer

Technical Field

The utility model belongs to the technical field of the dryer, concretely relates to control system and dryer of dryer especially relate to a control system and cabinet type dryer of cabinet type dryer.

Background

The clothes dryer can utilize electric heating to make the water content in the washed clothes be instantaneously evaporated and dried. The method is particularly needed for the condition that clothes are difficult to dry in the northern winter and the southern 'come back to south'. In addition, the clothes dryer is widely used in industrial production for drying fabrics, thereby improving production efficiency. A common household simple clothes dryer mainly comprises a bracket, a main machine and an outer cover.

The existing clothes dryer is low in intelligent degree, single and high in working temperature, the clothes of high-grade fabrics such as silk and cashmere are greatly damaged, the application range is limited, the size of the using space of the clothes dryer is fixed, and energy is wasted when a small amount of clothes are dried.

In the prior art, the defects of small application range, poor flexibility, energy waste and the like exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned defect, provide a control system and dryer of dryer to solve among the prior art dryer operating temperature singleness and higher poor problem of flexibility that leads to, reach the effect that promotes the flexibility.

The utility model provides a control system of clothes dryer, include: the control module, and a fabric collecting device, a heat pump module and a humidity sensor which are respectively matched with the control module; the fabric collecting device is used for collecting fabric information of clothes to be dried in the clothes dryer; the heat pump module is used for conveying hot air to the accommodating space of the clothes to be dried; the humidity sensor is used for acquiring the inlet air humidity of the air inlet of the accommodating space and the outlet air humidity of the air outlet of the accommodating space; the control module is used for starting the heat pump module at a preset working temperature matched with the fabric information according to the fabric information; and when the difference between the outlet air humidity and the inlet air humidity is within a preset range, closing the heat pump module.

Optionally, the method further comprises: a fan and a motor; the fan and the motor are matched and arranged in the accommodating space and used for conveying natural wind to the accommodating space; an included angle which is larger than or equal to 0 ℃ and smaller than or equal to 90 ℃ is formed between the wind direction of the natural wind and the wind direction of the hot wind.

Optionally, the method further comprises: folding the partition board; the folding partition board is respectively matched with the accommodating space and the control module and used for adjusting the current volume of the accommodating space to be a target volume matched with the volume of the clothes to be dried through unfolding or folding when the volume of the clothes to be dried is smaller than or larger than the current volume of the accommodating space.

Optionally, the method further comprises: a clothes hanger; the clothes hanger is respectively matched with the accommodating space, the control module and the folding partition plate and is used for physically stretching the clothes to be dried fixed on the clothes hanger by a stretching amount matched with the fabric information.

Optionally, the method further comprises: at least one of a lighting device and a sterilization device; the lighting device and the sterilizing device are respectively matched with the accommodating space and the control module; the lighting device is used for lighting the accommodating space; the sterilization apparatus includes: at least one of an ultraviolet sterilization device and an ozone sterilization device is used for sterilizing the accommodating space.

Optionally, the method further comprises: a data transmission module; the data transmission module is matched with the control module and is used for receiving the fabric information sent by a preset client; and/or at least one of the fabric information, the working temperature, the air inlet humidity, the air outlet humidity and the starting or closing working state is sent to the client.

Optionally, the method further comprises: at least one of a display module and a storage module; the display module is matched with the control module and used for displaying at least one of the fabric information, the working temperature, the inlet air humidity, the outlet air humidity and the starting or closing working state; the memory module includes: a cloud server; the cloud server is matched with the control module and used for storing the fabric information, the working temperature matched with the fabric information and the working time of the heat pump module matched with the fabric information.

Optionally, the fabric collecting device includes: at least one of an identification module and an input module; wherein the identification module comprises: at least one of an RFID module, a two-dimensional code tag identification module, a bar code tag identification module and an ID tag identification module is used for reading the fabric information based on at least one of a radio frequency tag, a two-dimensional code tag, a bar code tag and an ID tag carried by the clothes to be dried; the input module is used for acquiring the fabric information input by a user; and/or when the clothes to be dried do not carry the label carrying the fabric information and when a user needs to set the label, generating the label carrying the fabric information for the clothes to be dried.

Optionally, the method further comprises: a thread scraps filtering net; the thread scrap filter screen is arranged at the air outlet of the accommodating space in a matched manner; and/or the heat pump module is embedded in the control module; and/or, the clothes dryer includes: at least one of a wall-mounted dryer and a floor-type dryer.

With the system phase-match, the utility model discloses another aspect provides a clothes dryer, include: a cabinet body; further comprising: the control system of the clothes dryer described above; wherein, the cabinet body includes: a clothes drying chamber, a heat pump chamber and a partition plate; the clothes drying chamber and the heat pump chamber are arranged in a vertically matched manner, and the partition plate is positioned between the clothes drying chamber and the heat pump chamber; the inner space of the clothes drying chamber forms the accommodating space; the heat pump module is accommodated in the heat pump chamber.

Optionally, a heat pump air inlet is formed in a side wall of the heat pump chamber; the clapboard is provided with a heat pump air outlet, namely a clothes drying chamber air inlet; the clothes drying chamber comprises a clothes drying chamber air inlet and a clothes drying chamber air outlet, wherein the clothes drying chamber air inlet forms the air inlet of the accommodating space; a clothes drying chamber air outlet is formed in the side wall of the top of the clothes drying chamber, which is close to one side of the heat pump air inlet; the clothes drying chamber air outlet is formed in the accommodating space; a channel between the air outlet of the clothes drying chamber and the air inlet of the heat pump forms an air channel; the number of the humidity sensors is at least two; and the two humidity sensors are respectively and adaptively arranged at the heat pump air outlet and the air duct.

Optionally, the bottom plate of the clothes drying chamber is a ventilating plate; the high-temperature low-humidity gas heated by the heat pump module, namely the hot air, sequentially passes through the heat pump air outlet and the ventilating plate and enters the clothes drying chamber; the damp-heat air in the clothes drying chamber enters the air duct through the air outlet of the clothes drying chamber and then enters the heat pump chamber through the air inlet of the heat pump connected with the air duct to form a circulating air path.

Optionally, when the control system comprises a fan and a motor, the fan and the motor are adapted to be disposed on a door or a side wall of the drying chamber for blowing the air in the drying chamber to flow transversely to form the natural wind.

Optionally, when the control system comprises at least one of a folding partition, a clothes hanger, a lighting device, a sterilization device, a data transmission module, a display module and a storage module, the folding partition is vertically arranged between the top plate and the bottom plate of the clothes drying room in a folding manner; the clothes hanger is horizontally arranged between a pair of side walls of the clothes drying chamber in a stretching way; and, when the control system further comprises the folding partition, the coat hanger passes through the folding partition; the lighting device is arranged inside the top plate of the clothes drying chamber in a matching mode; the sterilizing device is arranged on the inner wall of the clothes drying chamber in a matching manner; the data transmission module is arranged at the door or the top of the clothes drying room in a matching way; the display module is arranged at the top of the clothes drying chamber in a matched mode.

Optionally, when the control system comprises an RFID module, the RFID module is adapted to be disposed inside a ceiling of the drying chamber.

The utility model discloses a scheme can automatic identification or manual input clothing surface fabric to provide the best operating temperature according to the clothing surface fabric, greatly reduced to the harm degree of high-grade surface fabric clothing such as silk, cashmere, the flexibility is good.

Further, the utility model discloses a scheme adopts data transmission module, sends data to cell-phone or mobile terminal through wireless WIFI, and the operating condition of real time monitoring dryer enlarges application range, and can further promote the flexibility.

Further, the utility model discloses a scheme installs small-size fan on the cabinet door, and dryer during operation starts the fan, can accelerate gas flow speed, improves dry clothing efficiency, and is dry more even, and is humanized good.

Further, the utility model discloses a scheme, ultraviolet germicidal device is installed on the cabinet top, in the dry clothing, disinfects and removes the mite, and application range is wide, and user experience is good.

Further, the utility model discloses a scheme is equipped with two humidity transducer, monitors gaseous humidity, and when the humidity value that two sensors detected was the same, the dryer stop work was long when can controlling the dry clothing, reduced the energy consumption.

Further, the utility model discloses a scheme has the telescopic baffle, when drying a small amount of clothings, can reduce the clothing room space of drying, and it is extravagant to reduce the energy.

Further, the utility model discloses a scheme, the clothes hanger of the clothing of can stretching of collocation use utilizes the tensile principle of physics, can realize no wrinkle dry clothing to easy wrinkle clothing, need not follow-up ironing, and is convenient save time.

Therefore, the utility model discloses a scheme is through according to clothing surface fabric control heat pump module work in the dry clothing room to close heat pump module according to the humidity condition of dry clothing room exit, solve among the prior art dry clothing machine operating temperature singleness and the higher poor problem of flexibility that leads to, thereby, overcome among the prior art defect that application range is little, the flexibility is poor and the energy is wasted, realize that application range is big, the flexibility is good and the beneficial effect of energy saving.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic diagram of a control system of a clothes dryer according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of another embodiment of a control system for a clothes dryer (e.g., a cabinet dryer) according to the present invention;

fig. 3 is a schematic diagram of an air path structure of an embodiment of a control system of the clothes dryer according to the present invention;

fig. 4 is a schematic control diagram of an embodiment of a control system of the clothes dryer according to the present invention.

With reference to the accompanying drawings, the embodiments of the present invention have the following reference numerals:

1-an RFID module; 2-a display module; 3-a data transmission module; 4-ultraviolet sterilization device; 5-a lighting device; 6-a fan; 7-hanging a clothes hanger; 8-a cabinet body; 9-a ventilation board; 10-a separator; 11-a heat pump module; 12-a control module; 13-a humidity sensor; 14-a heat pump chamber; 15-a clothes drying room; 16-heat pump air outlet; 17-air inlet of heat pump; 18-clothes drying chamber air outlet; 19-air duct; 20-folding the partition.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

According to an embodiment of the present invention, a control system for a clothes dryer is provided, as shown in fig. 1, which is a schematic structural diagram of an embodiment of the system of the present invention. The control system of the dryer may include: the device comprises a control module 12, and a fabric collecting device, a heat pump module 11 and a humidity sensor 13 which are respectively matched with the control module 12.

Optionally, the fabric collecting device may be configured to collect fabric information of clothes to be dried in the clothes dryer.

Optionally, the heat pump module 11 may be configured to deliver hot air to the accommodating space of the laundry to be dried.

For example: the heat pump module 11 can integrate the evaporator, the condenser, the compressor, the water storage chamber, the drainage device and the air supply fan.

In an alternative example, the heat pump module 11 is embedded in the control module 12.

For example: the control module 12 may be embedded in the heat pump module 11.

For example: see the example shown in fig. 3. In the clothes dryer (for example, a cabinet type clothes dryer), high-temperature low-humidity air heated by a heat pump enters a clothes drying chamber 15 through a heat pump air outlet (namely, a clothes drying chamber air inlet) 16 and a ventilation plate 9, wet-heat air in the clothes drying chamber 15 enters an air duct 19 through a clothes drying chamber air outlet 18, and then enters a heat pump chamber 14 through a heat pump air inlet 17 connected with the air duct 19 to form a circulation air path.

Therefore, the heat pump module 11 can be controlled more reliably and efficiently through the control module 12 embedded in the heat pump module 11, and the space is saved, and the maintenance is convenient.

Optionally, the humidity sensor 13 may be configured to collect the inlet air humidity of the air inlet of the accommodating space and the outlet air humidity of the air outlet of the accommodating space.

For example: humidity sensors 13 can be respectively arranged in the heat pump air outlet 16 and the air duct 19 to monitor the humidity of the air in the heat pump air outlet and the air duct in real time. When the humidity detected by the two humidity sensors 13 is the same, the clothes dryer stops working, and the clothes drying time is controlled.

For example: the two humidity sensors are arranged to monitor the humidity of the air, and when the humidity values detected by the two sensors are the same, the clothes dryer stops working, so that the clothes drying time can be controlled, and the energy consumption is reduced.

Optionally, the control module 12 may be configured to start the heat pump module 11 at a preset working temperature matched with the fabric information according to the fabric information.

For example: and the control module 12 can control the operation of the heat pump module 11 according to the received information of the clothes fabric.

For example: the control module 12 may include: and a controller. When the clothes dryer is started, the controller controls the data transmission module 3 and the RFID module 1 to detect whether an input signal exists or not, and the detection result is compared with the information stored in the memory to determine the working temperature of the clothes dryer.

For example: in the control module 12, a standard mode for the dryer to operate at a standard mode temperature may be previously set when there is no external input information.

Optionally, the control module 12 may be further configured to close the heat pump module 11 when a difference between the outlet air humidity and the inlet air humidity is within a preset range.

For example: a monitoring submodule may be provided in the controller. And the monitoring submodule can monitor and compare the humidity values of the two humidity sensors 13 in real time, and when the humidity values are the same, the controller controls the clothes dryer to stop working.

For example: the controller monitors the humidity values of the two humidity sensors in real time, and when the two humidity values are consistent, the clothes dryer stops working; the storage stores the working information of the clothes dryer according to the input information in a classified manner.

For example: be equipped with humidity transducer 13 in heat pump air outlet 16 and wind channel 19, gas humidity in real-time supervision heat pump air outlet 16 and the wind channel 19, when the humidity that two humidity transducer 13 detected is the same, the dryer stop work, and it is long when the control is dried the clothing, reduces the unnecessary energy waste.

Therefore, through the adaptive arrangement of the control module, the fabric collecting device, the heat pump module and the humidity sensor, the working temperature of the heat pump module can be controlled according to the fabric information of the clothes to be dried, and the closing of the heat pump module can be controlled according to the humidity information of the accommodating space of the clothes to be dried, so that on one hand, the flexibility of temperature control is improved, the damage to the clothes in the clothes drying process is reduced, and the humanization is good; on the other hand, when the clothes drying process reaches the preset humidity degree, the heat pump module is closed in time, clothes are protected better, and energy waste is reduced.

Alternatively, the dryer may include: at least one of a wall-mounted dryer and a floor-type dryer.

Therefore, the control system of the clothes dryer is used for a wall-mounted clothes dryer or a floor-type clothes dryer, and can achieve better clothes drying effect, so that the control system of the clothes dryer is wider in application range and better in use effect.

In an alternative embodiment, the method may further include: a fan 6 and a motor. Wherein the motor is a motor adapted to the fan 6.

Optionally, the fan 6 is adapted to the motor and disposed in the accommodating space, and may be configured to deliver natural wind to the accommodating space. And an included angle which is larger than or equal to 0 ℃ and smaller than or equal to 90 ℃ is formed between the wind direction of the natural wind and the wind direction of the hot wind.

More optionally, the wind direction of the natural wind is perpendicular to the wind direction of the hot wind.

For example: the fan and the motor 6 thereof can accelerate the gas flow speed in the clothes drying chamber, improve the clothes drying efficiency and ensure more uniform drying.

For example: the fan on the drying chamber door can be removed.

For example: the cabinet door is provided with the small fan, and the fan is started when the clothes dryer works, so that the air flowing speed can be increased, the clothes drying efficiency is improved, and the clothes are dried more uniformly.

For example: the control module 12 can control the operation of the fan and the motor 6 thereof while controlling the operation of the heat pump module 11 according to the received information of the fabric of the clothes.

For example: the fan (such as the fan and the motor 6 thereof) in the clothes drying chamber 15 blows the air in the clothes drying chamber 15 to flow transversely, and the flowing speed of the air is increased, so that the air in the clothes drying chamber 15 is distributed more uniformly.

For example: the small fan is additionally arranged in the clothes dryer, so that the air flowing speed in the clothes drying chamber is increased, the clothes drying efficiency is improved, and the clothes are dried more uniformly.

Therefore, the cross flow fan (such as the fan and the motor 6 thereof) is arranged in a matching manner, so that the flowing speed and uniformity of air can be increased, the clothes drying effect and the clothes drying efficiency are further improved, the user experience is better, and the energy saving performance is better.

In an alternative embodiment, the method may further include: the partition 20 is folded.

Optionally, the folding partition 20, respectively adapted to the accommodating space and the control module 12, may be configured to adjust the current volume of the accommodating space to a target volume adapted to the volume of the laundry to be dried by unfolding or folding when the volume of the laundry to be dried is smaller than or larger than the current volume of the accommodating space. For example: when the volume of the clothes to be dried is smaller than the first current volume of the accommodating space, the clothes to be dried are unfolded, and when the volume of the clothes to be dried is larger than the second current volume of the accommodating space, the clothes to be dried are folded.

For example: the folding partition 20 can be used for stretching the partition to the clothes when drying a small amount of clothes, and can reduce the space of the clothes drying chamber.

For example: the clothes dryer can be provided with a telescopic partition, when a small amount of clothes are dried, the partition can be opened, the space of a clothes drying chamber is reduced, the clothes drying efficiency is increased, and the energy waste is reduced.

For example: when a small amount of clothes are dried, a user can pull the partition (such as the folding partition 20) to a certain position to reduce the space of the clothes drying chamber, so that hot and dry air can flow through the clothes in a concentrated manner, the clothes drying efficiency is improved, and the energy consumption is reduced.

For example: the clothes drying device is provided with the telescopic partition board, so that when a small amount of clothes are dried, the space of a clothes drying chamber can be reduced, and the energy waste is reduced.

Therefore, the space needing to be conveyed with hot air in the clothes dryer can be adjusted according to the space adaptation required by clothes through the folding partition plate, on one hand, energy is saved, on the other hand, the clothes drying efficiency is improved, and the clothes dryer is good in humanization.

In an alternative embodiment, the method may further include: a clothes hanger 7.

Optionally, the clothes hanger 7 is respectively matched with the accommodating space, the control module 12 and the folding partition 20, and can be used for physically stretching the clothes to be dried fixed on the clothes hanger with a stretching amount matched with the fabric information.

For example: the user can fix the clothes easy to wrinkle on the clothes hanger capable of stretching the clothes and put the clothes into the clothes drying chamber for drying, so that the clothes can be dried without wrinkles, follow-up ironing is not needed, and time, labor and electricity are saved.

For example: when the clothes which are easy to wrinkle are dried, a user can fix the clothes on the clothes hanger which can stretch the clothes and then put the clothes into the clothes drying chamber, so that the clothes can be dried without wrinkles without subsequent ironing, and the time and the energy are saved.

For example: the clothes hanger capable of stretching clothes is matched for use, the clothes can be dried without wrinkles for the clothes easy to wrinkle by utilizing the physical stretching principle, subsequent ironing is not needed, and the clothes hanger is convenient and time-saving.

Therefore, the clothes can be physically stretched before or in the process of drying clothes through the stretchable clothes hanger, so that the clothes drying effect is improved, and the user experience is improved; on the other hand, the labor and material resources for ironing are saved, and the time and the labor are saved.

In an alternative embodiment, the method may further include: at least one of the lighting device 5 and the sterilization device.

Optionally, the lighting device 5 and the sterilization device are respectively configured to be adapted to the accommodating space and the control module 12.

In an alternative example, the illumination device 5 may be used for illuminating the accommodating space.

In an alternative example, the sterilization apparatus may include: at least one of the ultraviolet sterilization device 4 and the ozone sterilization device can be used for sterilizing the accommodating space.

For example: the ultraviolet sterilizer 4 may include: an ultraviolet lamp.

For example: the user can open the ultraviolet sterilization device 4 to remove bacteria and mites on the clothes, thereby further cleaning the clothes.

For example: the ultraviolet sterilization device 4 is arranged on the top of the cabinet (for example, the top of the cabinet body 8) to sterilize and remove mites while drying clothes.

Therefore, through the adaptive arrangement of the lighting device, a user can conveniently observe the clothes drying condition in the clothes dryer; through sterilizing equipment's adaptation setting, can cooperate the dry clothing process to carry out germicidal treatment, and then promote the cleaning to the clothing better, user experience can promote better.

In an alternative embodiment, the method may further include: and a data transmission module 3. For example: data transmission module 3, can be wireless communication module, can be connected with customer ends such as cell-phone or wearable equipment through wireless WIFI.

Optionally, the data transmission module 3 is configured to be adapted to the control module 12, and may be configured to receive the fabric information sent by a preset client.

For example: the data transmission module 3 can be connected with a mobile phone or wearable equipment through wireless WIFI, a user inputs/selects clothing fabric information such as cotton, hemp, cashmere, silk and terylene in the mobile phone or wearable equipment, the display displays the clothes drying temperature and the used time of clothes drying according to the input information of the user, the temperature and the time information are stored in the cloud server, and the clothes dryer automatically works.

Optionally, the data transmission module 3 may be further configured to send at least one of the fabric information, the working temperature, the inlet air humidity, the outlet air humidity, and the start-up or shut-down working state to the client. For example: the client may include: cell phones, wearable devices, and the like.

For example: data transmission module 3 can be connected with cell-phone or wearable equipment through wireless WIFI, real-time transmission dryer operating condition, but the work of user remote monitoring dryer, for example adjust dry clothing temperature etc..

For example: the clothes dryer has a wireless networking function, can send the working state of the clothes dryer and clothes information to a remote controller, a mobile phone or wearable equipment, and a user can control the clothes dryer to work in a near and remote mode.

For example: and the data transmission module 3 is adopted to send data to the mobile phone or the mobile terminal through wireless WIFI, so that the working state of the clothes dryer is monitored in real time.

For example: the user manually inputs the fabric information of the clothes through a remote controller, a mobile phone or wearable mobile equipment, and the clothes dryer optimizes the clothes drying program according to the fabric information.

From this, through data transmission module, can convenience of customers anytime and anywhere control, operation dryer, it is good to use the convenience, and user experience is good.

In an alternative embodiment, the method may further include: at least one of the display module 2 and the storage module.

Optionally, the display module 2, adapted to the control module 12, may be configured to display at least one of the fabric information, the working temperature, the intake air humidity, the outtake humidity, and the start-up or shut-down working status.

For example: the user can select the automatic identification mode in display module 2, and display module 2 sends actuating signal to RFID module 1, and RFID module 1 begins work, and the display shows the clothing surface fabric information that RFID read-write module obtained to and the used length of drying the clothing temperature and the used length of drying recommended in view of the above, and with temperature and length of time information storage in high in the clouds server, the automatic work of dryer.

Optionally, the storage module may include: and a cloud server.

In an optional example, the cloud server is adapted to the control module 12, and can be configured to store the fabric information, the working temperature matched with the fabric information, and the working duration of the heat pump module 11 matched with the fabric information.

For example: the dryer records drying information of the laundry when the laundry is dried, and the dryer can automatically set a drying temperature when the laundry is dried again.

Therefore, the working condition of the clothes dryer can be conveniently checked by a user through the adaptive arrangement of the display module and the storage module, and the use convenience is good; the adaptive clothes drying temperature of different fabric information can be conveniently recorded and controlled, and the clothes drying effect is good.

In an alternative embodiment, the fabric collecting apparatus may comprise: at least one of the recognition module and the input module.

Optionally, the identification module may include: at least one of the RFID module 1, the two-dimensional code tag identification module, the bar code tag identification module and the ID tag identification module can be used for reading the fabric information based on at least one of the radio frequency tag, the two-dimensional code tag, the bar code tag and the ID tag carried by the clothes to be dried.

For example: the RFID module 1 may include an RFID reader/writer. The RFID reader can automatically identify the information of the fabric of the clothes with the RFID label and send the data to the control module 12.

For example: the RFID module 1, i.e. the RFID reading and writing module, may be configured to, when the clothes with the RFID tag is put into the clothes drying chamber, automatically read the tag information by the RFID module 1, and send the obtained fabric information of the clothes to the control module 12 and the display module 2.

For example: the RFID reader-writer automatically acquires the fabric information of the clothes with the RFID tags, and the clothes dryer optimizes the clothes drying program according to the read clothes information.

Therefore, the damage degree to the high-grade fabric clothes such as silk, cashmere and the like is greatly reduced by automatically identifying or manually inputting the fabric of the clothes and providing the optimal working temperature according to the fabric of the clothes.

Optionally, the input module may be configured to obtain the fabric information input by the user; and/or when the clothes to be dried do not carry the label carrying the fabric information and when a user needs to set the label, generating the label carrying the fabric information for the clothes to be dried.

For example: the input module may include: and inputting a button.

For example: the input module can also set fabric information for a certain label, so that the clothes without the label can be automatically identified conveniently, namely, the label is generated according to the requirement of a user. For example: the input module may include a printing device adapted to a mobile phone, a bracelet, or the like.

For example: the controller (i.e., the control module 12) first detects whether external information is inputted, then detects whether there is laundry with an RFID tag, and finally controls the operating temperature of the dryer in conjunction with the information stored in the memory.

Therefore, through the input module, the clothes dryer can be conveniently controlled by a user under the condition of no label or no network, corresponding clothes are dried at the adaptive heating temperature (namely the working temperature of the heat pump module), and the clothes dryer is good in use convenience and high in universality.

In an alternative embodiment, the method may further include: thread scraps filtering net.

Optionally, the thread scrap filtering net is adapted to the air outlet of the accommodating space.

Therefore, the thread scraps filter screen can filter impurities such as thread scraps in hot air output by the heat pump module, so that pollution to clothes caused by a clothes drying process is reduced, the cleanness degree of the clothes is ensured more reliably, and the clothes drying machine is good in humanization.

Through a large number of tests, the technical scheme of the embodiment can automatically identify or manually input the clothes fabric, provide the optimal working temperature according to the clothes fabric and greatly reduce the damage degree to high-grade clothes made of silk, cashmere and the like; and data are sent to the mobile phone or the mobile terminal through wireless WIFI, and the working state of the clothes dryer is monitored in real time.

According to the utility model discloses an embodiment still provides a dryer corresponding to dryer's control system. The dryer may include: a cabinet body 8; the method can also comprise the following steps: the control system of the clothes dryer is described above.

Wherein, the cabinet body 8 can include: a drying chamber 15, a heat pump chamber 14 and a partition 10.

Optionally, the clothes drying chamber 15 and the heat pump chamber 14 are arranged in a vertically-matched manner, and the partition plate 10 is located between the clothes drying chamber 15 and the heat pump chamber 14.

Optionally, the inner space of the drying chamber 15 forms the accommodating space.

Optionally, the heat pump module 12 is housed in the heat pump chamber 14.

Therefore, the clothes drying chamber and the heat pump chamber are arranged in an up-and-down matching mode, on one hand, clothes drying is facilitated, and on the other hand, space is saved.

In an alternative example, a heat pump air inlet 17 is arranged on the side wall of the heat pump chamber 14.

Optionally, on the partition 10, a heat pump air outlet 16, i.e. a clothes drying chamber air inlet (that is, the heat pump air outlet 16 is connected with the clothes drying chamber air inlet) is provided. And the clothes drying chamber air inlet 16 is used for forming the air inlet of the accommodating space.

Optionally, a drying chamber air outlet 18 is arranged on the top side wall of the drying chamber 15 close to the heat pump air inlet 17. And the clothes drying chamber air outlet 18 forms the air outlet of the accommodating space.

Optionally, a passage between the drying chamber air outlet 18 and the heat pump air inlet 17 forms an air duct 19.

Optionally, the number of the humidity sensors 13 is at least two. The two humidity sensors 13 are respectively and adaptively arranged at the heat pump air outlet 16 and the air duct 19.

From this, through setting up the heat pump air intake on the heat pump room lateral wall, heat pump air outlet set up on the baffle and meet with dry clothing room air intake, dry clothing room air outlet set up at the top lateral wall of dry clothing room and form smooth and easy wind channel with the heat pump air intake, make things convenient for the circulation of gas on the one hand, on the other hand can practice thrift the space for dry clothing effect and dry clothing efficiency all can promote.

In an alternative example, the floor of the drying chamber 15 is a ventilation board 9. For example: the ventilation board 9 is specifically a ventilation board with ventilation holes.

Optionally, the high-temperature and low-humidity gas heated by the heat pump module 11, that is, the hot air, sequentially passes through the heat pump air outlet 16 and the ventilation board 9, and enters the clothes drying chamber 15; the damp-heat air in the drying chamber 15 enters the air duct 19 through the drying chamber air outlet 18, and then enters the heat pump chamber 14 through the heat pump air inlet 17 connected with the air duct 19, so as to form a circulation air path.

Therefore, through the ventilating plate, hot air sent by the air inlet of the clothes drying chamber can be uniformly dispersed in the clothes drying chamber, the uniformity and the thoroughness of clothes drying are favorably improved, and the reliability is high.

In an alternative example, while the control system may include a fan 6 and a motor, the fan 6 and the motor, adapted to be disposed on a door or a side wall of the drying chamber 15, may be used to blow a lateral flow of air within the drying chamber 15 to create the natural wind.

From this, through the crossflow fan that the adaptation set up, can increase the speed and the homogeneity that gas flows, and then promote dry clothing effect and dry clothing efficiency better, user experience is better, and energy-conservation nature is more excellent.

In an alternative example, the control system may comprise at least one of a folding partition 20, a clothes hanger 7, a lighting device 5, a sterilizing device, a data transmission module 3, a display module 2, and a storage module.

Optionally, when the control system includes the folding partition 20, the folding partition 20 is foldably and vertically disposed between the top panel and the bottom panel of the drying chamber 15.

Alternatively, when the control system includes the clothes hanger 7, the clothes hanger 7 may be installed horizontally between a pair of side walls of the clothes drying chamber 15 in a stretchable manner. And, when the control system may further comprise the folding partition 20, the clothes hanger 7 passes through the folding partition 20.

Optionally, when the control system comprises the lighting device 5, the lighting device 5 is adapted to be arranged inside the ceiling of the drying chamber 15.

Therefore, the clothes drying condition in the clothes dryer can be conveniently observed by a user through the adaptive arrangement of the lighting device.

Optionally, when the control system comprises the sterilizing device, the sterilizing device is adapted to be arranged on the inner wall of the drying chamber 15.

From this, through sterilizing equipment's adaptation setting, can cooperate the dry clothing process to carry out germicidal treatment, and then promote the cleaning to the clothing better, user experience can promote better.

Optionally, when the control system comprises the data transmission module 3, the data transmission module 3 is adapted to be disposed at a door or a ceiling of the drying room 15.

Optionally, when the control system comprises the display module 2, the display module 2 is adapted to be arranged on top of the drying chamber 15.

Therefore, the working condition of the clothes dryer can be conveniently checked by a user through the adaptive setting of the display module and the storage module, and the use convenience is good.

In an alternative example, when the control system may comprise an RFID module 1, the RFID module 1 is adapted to be arranged inside the ceiling of the drying room 15.

In one embodiment, a dryer (e.g., an air-path-circulating heat pump cabinet dryer) may include: a cabinet body (for example: the cabinet body 8), a clothes drying chamber (for example: the clothes drying chamber 15) and a heat pump chamber (for example: the heat pump chamber 14) which are arranged in the cabinet body; a clothes hanging frame is arranged in the clothes drying chamber; a heat pump module is arranged in the heat pump chamber, the heat pump module is provided with a heat pump air inlet and a heat pump air outlet, and a heat pump dehumidification heating air path is arranged between the heat pump air inlet and the heat pump air outlet; the heat pump chamber is communicated with the clothes drying air inlet, the clothes drying chamber, the clothes drying air outlet, the air duct and the clothes drying air return inlet in sequence and then communicated with the heat pump chamber to form a circulating clothes drying air path.

In an alternative embodiment, referring to the example shown in fig. 2, a cabinet dryer system may include: the system comprises an RFID module 1, a display module 2, a data transmission module 3, an ultraviolet sterilization device 4, a lighting device 5, a fan and a motor 6 thereof, a heat pump module 11, a control module 12 and a folding partition plate 20.

In an alternative example, the RFID module 1 may comprise an RFID reader/writer. The RFID reader can automatically identify the information of the fabric of the clothes with the RFID label and send the data to the control module 12.

Among them, the Radio Frequency Identification (RFID) technology is a technology for automatically identifying a target object and acquiring related information by using a Radio Frequency signal. With the progress of science and technology, the application field of the RFID is increasingly expanded, and the RFID relates to various fields of people's life. For example: a clothes dryer using RFID technology to detect fabric fibers can read information about the type and color of fabric fibers from an RFID tag of clothes and optimize a clothes drying process according to the read information.

In an alternative example, the display module 2 may comprise a display.

For example: the automatic identification mode can be selected by only selecting the mode on the display when the tag identification module (for example, the RFID module 1) is started, and the controller receives a command (for example, a command for starting the tag identification module) to start the tag identification module.

For example: the recommended drying temperature and the recommended drying time can be set according to the respective drying time when clothes of various fabrics are dried together, and attention needs to be paid to the fact that some clothes are short in drying time and easy to damage after being dried for a long time. For example: the clothes drying device can remind when the clothes with short drying time are dried, and after the clothes with short drying time are taken out, the clothes which are not dried are continuously dried.

More alternatively, the position of the display module 2 may not be limited to the position shown in fig. 2. For example: the display module 2 may be provided on the drying chamber door.

In an optional example, the data transmission module 3, i.e., the wireless communication module, may be connected to the mobile phone or the wearable device through WIFI.

For example: the data transmission module 3 can be connected with a mobile phone or wearable equipment through wireless WIFI, a user inputs/selects clothing fabric information such as cotton, hemp, cashmere, silk, terylene and the like in the mobile phone or wearable equipment, the display displays the clothes drying temperature (for example, the working temperature can be preset according to the fabric information) and/or the used time of clothes drying according to the input information of the user, the temperature and time information is stored in a cloud server, and the clothes dryer automatically works.

Optionally, the dryer has a wireless networking function, and can send the dryer working state and clothes information to a remote controller, a mobile phone or wearable equipment, so that a user can control the dryer to work in a near and remote mode.

In an alternative example, the ultraviolet sterilization device 4 may include: an ultraviolet lamp.

For example: the ultraviolet sterilization device is arranged on the top of the cabinet, and can sterilize and remove mites while drying clothes.

In an alternative example, the fan and the motor 6 thereof can accelerate the air flow rate in the clothes drying chamber, improve the clothes drying efficiency and make the drying more uniform.

For example: the fan on the drying chamber door can be removed.

In an alternative example, the heat pump module 11 may integrate an evaporator, a condenser, a compressor, a water storage chamber, a drainage device, and a blower fan.

In an alternative example, the control module 12 may be embedded in the heat pump module 11. And the control module 12 can control the operation of the heat pump module 11 and the operation of the fan and the motor 6 thereof according to the received information of the clothes fabric.

For example: the clothes drying temperature is preset according to the fabric information, a temperature sensor can be added at the air outlet of the heat pump to detect the temperature in the clothes drying chamber, and after the set temperature is reached, the heat pump maintains the working state of the mode.

For example: the control module 12 may include: and a controller. When the clothes dryer is started, the controller controls the data transmission module 3 and the RFID module 1 to detect whether an input signal exists or not, the detection result is compared with the information stored in the memory (for example, whether the input clothes fabric information is the information stored in the memory or not is compared), and the working temperature of the clothes dryer is determined.

In an alternative example, the folding partition 20 may be used to stretch the partition to the laundry when drying a small amount of laundry, thereby reducing the space of the drying chamber.

Optionally, the dryer may be equipped with a retractable partition that can be opened when drying a small amount of clothes, reducing the drying chamber space, increasing the drying efficiency, and reducing energy waste.

In an alternative example, referring to the example shown in fig. 2, the cabinet dryer system may further include: a humidity sensor 13.

Optionally, humidity sensors 13 may be respectively disposed in the heat pump air outlet 16 and the air duct 19 to monitor the humidity of the air in the heat pump air outlet and the air duct in real time. When the humidity detected by the two humidity sensors 13 is the same, the clothes dryer stops working, and the clothes drying time is controlled.

In an alternative example, referring to the example shown in fig. 2, the cabinet dryer system may further include: a clothes hanger 7.

Optionally, the user can fix the clothes easy to wrinkle on the clothes hanger capable of stretching the clothes, put the clothes into the clothes drying chamber for drying, so that the clothes can be dried without wrinkles, follow-up ironing is not needed, and time, labor and electricity are saved.

For example: the clothes rack is stretched until the clothes are just flat but not deformed.

For example: the stretchable clothes hanger is a clothes hanger similar to clothes or trousers in shape, but sleeves or trousers of the clothes hanger can be stretched, like a telescopic antenna, and the positions of the sleeves of the clothes hanger can be adjusted up and down according to the shape of the clothes, like a fixed buckle, and the sleeves of the clothes hanger are clamped at a required angle.

In an optional example, the clothes dryer can set low-grade and medium-grade products according to consumption levels, and combines and deletes the functions.

In an alternative embodiment, the dryer (e.g., the cabinet dryer system of FIG. 2) may be configured in both a wall-mounted and floor-mounted configuration.

In an alternative embodiment, the air path structure of the dryer can be seen in an example shown in fig. 3. In the clothes dryer (for example, a cabinet type clothes dryer), high-temperature low-humidity air heated by a heat pump enters a clothes drying chamber 15 through a heat pump air outlet (namely, a clothes drying chamber air inlet) 16 and a ventilation plate 9, wet-heat air in the clothes drying chamber 15 enters an air duct 19 through a clothes drying chamber air outlet 18, and then enters a heat pump chamber 14 through a heat pump air inlet 17 connected with the air duct 19 to form a circulation air path.

Optionally, a fan (e.g., a fan and its motor 6) in the drying chamber 15 blows the air in the drying chamber 15 to flow transversely and accelerate the air flow, so that the air distribution in the drying chamber 15 is more uniform.

In an alternative embodiment, referring to the example shown in fig. 4, the control process of the dryer may include:

when the clothes dryer starts to work, a controller (namely a control module 12) firstly detects whether external information is input, then detects whether clothes with RFID labels exist, and finally controls the working temperature of the clothes dryer by combining information stored in a memory.

For example: the optimal temperature for drying different fabrics is preset before the clothes dryer leaves a factory.

Optionally, the user manually inputs the fabric information of the clothes through a remote controller, a mobile phone or a wearable mobile device, and the clothes dryer optimizes the clothes drying program according to the fabric information.

For example: and the clothes drying procedure is optimized according to the read fabric information, and the preset optimal temperature of the fabric can be provided according to the fabric information.

Optionally, the RFID reader automatically obtains fabric information of the clothes with the RFID tag, and the clothes dryer optimizes a clothes drying program according to the read clothes information.

For example: the fabric of the clothes can be automatically identified or manually input, the optimal working temperature is provided according to the fabric of the clothes, and the damage degree to the clothes made of high-grade fabrics such as silk, cashmere and the like is greatly reduced.

Alternatively, the dryer records drying information of the laundry when the laundry is dried, and the dryer may automatically set a drying temperature when the laundry is dried again.

Secondly, the controller monitors the humidity values of the two humidity sensors in real time, and when the two humidity values are consistent, the clothes dryer stops working; the storage stores the working information of the clothes dryer according to the input information in a classified manner.

For example: the input information may be input clothing material information or code information capable of identifying a tag, for example, when a white shirt with an RFID tag is put into a clothes drying room for the first time, the tag information is identified by an identification module, the tag is numbered as 10 when stored, and then the information of the tag is directly corresponding to the information of the code 10 when received.

For example: when the classified storage is performed, the information which is not provided with the label can be stored according to different fabrics, for example, the information can be stored in the following mode: the drying temperature of the cotton clothes is 50 ℃, and the drying time is 1 hour.

Since the processing and functions of the dryer of this embodiment are basically corresponding to the embodiment, principle and example of the control system shown in fig. 1, the description of this embodiment is not given in detail, and reference may be made to the related description of the foregoing embodiment, which is not repeated herein.

Through a large amount of experimental verifications, adopt the technical scheme of the utility model, be equipped with two humidity transducer, the humidity of monitoring gas, when the humidity value that two sensors detected is the same, the dryer stop work is long when can controlling the dry clothing, reduces the energy consumption.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

The above description is only an example of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. A control system of a clothes dryer, characterized by comprising: the fabric collecting device is characterized by comprising a control module (12), and a fabric collecting device, a heat pump module (11) and a humidity sensor (13) which are respectively matched with the control module (12); wherein,

the fabric collecting device is used for collecting fabric information of clothes to be dried in the clothes dryer;

the heat pump module (11) is used for conveying hot air to the accommodating space of the clothes to be dried;

the humidity sensor (13) is used for collecting the inlet air humidity of the air inlet of the accommodating space and the outlet air humidity of the air outlet of the accommodating space;

the control module (12) is used for starting the heat pump module (11) at a preset working temperature matched with the fabric information according to the fabric information; and when the difference between the outlet air humidity and the inlet air humidity is within a preset range, closing the heat pump module (11).

2. The system of claim 1, further comprising: a fan (6) and a motor; wherein,

the fan (6) is matched with the motor and arranged in the accommodating space and used for conveying natural wind to the accommodating space; an included angle which is larger than or equal to 0 ℃ and smaller than or equal to 90 ℃ is formed between the wind direction of the natural wind and the wind direction of the hot wind.

3. The system of claim 1 or 2, further comprising: a folding partition (20);

the folding partition board (20) is respectively matched with the accommodating space and the control module (12) and used for adjusting the current volume of the accommodating space to be a target volume matched with the volume of the clothes to be dried through unfolding or folding when the volume of the clothes to be dried is smaller than or larger than the current volume of the accommodating space.

4. The system of claim 3, further comprising: a clothes hanger (7);

the clothes hanger (7) is respectively matched with the accommodating space, the control module (12) and the folding partition plate (20) and is used for physically stretching the clothes to be dried fixed on the clothes hanger with stretching amount matched with the fabric information.

5. The system of claim 1 or 2, further comprising: at least one of a lighting device (5) and a sterilization device; wherein,

the lighting device (5) and the sterilization device are respectively matched with the accommodating space and the control module (12);

the lighting device (5) is used for lighting the accommodating space;

the sterilization apparatus includes: at least one of an ultraviolet sterilization device (4) and an ozone sterilization device is used for sterilizing the accommodating space.

6. The system of claim 1 or 2, further comprising: a data transmission module (3);

the data transmission module (3) is adaptive to the control module (12) and is used for receiving the fabric information sent by a preset client; and/or at least one of the fabric information, the working temperature, the air inlet humidity, the air outlet humidity and the starting or closing working state is sent to the client.

7. The system of claim 1 or 2, further comprising: at least one of a display module (2) and a storage module; wherein,

the display module (2) is matched with the control module (12) and is used for displaying at least one of the fabric information, the working temperature, the inlet air humidity, the outlet air humidity and the starting or closing working state;

the memory module includes: a cloud server; the cloud server is matched with the control module (12) and used for storing the fabric information, the working temperature matched with the fabric information and the working time of the heat pump module (11) matched with the fabric information.

8. The system of claim 1 or 2, wherein the fabric gathering device comprises: at least one of an identification module and an input module; wherein,

the identification module comprises: the fabric drying machine comprises at least one of an RFID module (1), a two-dimensional code tag identification module, a bar code tag identification module and an ID tag identification module, and is used for reading the fabric information based on at least one of a radio frequency tag, a two-dimensional code tag, a bar code tag and an ID tag carried by the clothes to be dried;

the input module is used for acquiring the fabric information input by a user; and/or when the clothes to be dried do not carry the label carrying the fabric information and when a user needs to set the label, generating the label carrying the fabric information for the clothes to be dried.

9. The system of claim 1 or 2, further comprising: a thread scraps filtering net; the thread scrap filter screen is arranged at the air outlet of the accommodating space in a matched manner; and/or the presence of a gas in the gas,

the heat pump module (11) is embedded in the control module (12); and/or the presence of a gas in the gas,

the clothes dryer includes: at least one of a wall-mounted dryer and a floor-type dryer.

10. A clothes dryer, characterized by comprising: a cabinet body (8);

further comprising: a control system of the clothes dryer of any one of claims 1-9;

wherein,

the cabinet (8) comprises: a drying chamber (15), a heat pump chamber (14) and a partition plate (10);

the clothes drying chamber (15) and the heat pump chamber (14) are arranged in a vertically matched manner, and the partition plate (10) is positioned between the clothes drying chamber (15) and the heat pump chamber (14);

the inner space of the clothes drying chamber (15) forms the accommodating space;

the heat pump module (12) is accommodated in the heat pump chamber (14).

11. The clothes dryer of claim 10, wherein,

a heat pump air inlet (17) is formed in the side wall of the heat pump chamber (14);

a heat pump air outlet (16), namely a clothes drying chamber air inlet, is arranged on the partition plate (10); the clothes drying chamber air inlet (16) is used for forming the air inlet of the accommodating space;

a clothes drying chamber air outlet (18) is formed in the side wall of the top of the clothes drying chamber (15) close to one side of the heat pump air inlet (17); the clothes drying chamber air outlet (18) forms the air outlet of the accommodating space;

a channel between the clothes drying chamber air outlet (18) and the heat pump air inlet (17) forms an air duct (19);

the number of the humidity sensors (13) is at least two; the two humidity sensors (13) are respectively and adaptively arranged at the heat pump air outlet (16) and the air duct (19).

12. Laundry dryer according to claim 11, characterized in that the floor of the drying chamber (15) is a ventilation board (9);

the high-temperature low-humidity gas heated by the heat pump module (11), namely the hot air, sequentially passes through the heat pump air outlet (16) and the ventilation board (9) and enters the clothes drying chamber (15); the damp-heat air in the clothes drying chamber (15) enters the air duct (19) through the clothes drying chamber air outlet (18), and then enters the heat pump chamber (14) through the heat pump air inlet (17) connected with the air duct (19) to form a circulating air path.

13. Laundry dryer according to one of the claims 10 to 12, characterized in that when the control system comprises a fan (6) and a motor, the fan (6) and the motor are adapted to be arranged on the door or on the side wall of the drying chamber (15) for blowing the air inside the drying chamber (15) in a lateral flow, creating a natural wind.

14. Laundry dryer according to one of the claims 10-12, characterized in that when the control system comprises at least one of a folding partition (20), a clothes hanger (7), lighting means (5), sterilizing means, a data transmission module (3), a display module (2), a memory module,

the folding partition plate (20) is vertically arranged between the top plate and the bottom plate of the clothes drying chamber (15) in a folding mode;

the clothes hanger (7) is horizontally arranged between a pair of side walls of the clothes drying chamber (15) in a stretching way; and, when the control system further comprises the folding partition (20), the clothes hanger (7) passes through the folding partition (20);

the lighting device (5) is arranged inside a top plate of the clothes drying chamber (15) in a matching mode;

the sterilizing device is arranged on the inner wall of the clothes drying chamber (15) in a matching way;

the data transmission module (3) is arranged at the door or the top of the clothes drying room (15) in a matching way;

the display module (2) is arranged at the top of the clothes drying chamber (15) in a matching mode.

15. Laundry dryer according to one of the claims 10-12, characterized in that, when the control system comprises an RFID module (1), the RFID module (1) is adapted to be arranged inside the ceiling of the laundry drying chamber (15).