CN210596741U - Temperature and humidity detection module and drying system - Google Patents

Abstract

The utility model discloses a temperature and humidity detection module and a drying system, wherein the temperature and humidity detection module based on the detection of the object to be dried comprises a fixing part used for fixing on the fabric to be dried and a temperature/humidity sensor arranged on the fixing part, the temperature/humidity sensor is used for collecting at least one value in the temperature value and the humidity value of the fabric to be dried, and the value is used for the airing machine to execute corresponding functional action; compared with the collection of environment humiture, through directly treating the humiture collection of stoving fabric, the numerical value is more accurate, and stoving module's power and time's control can accomplish more accurately, and less energy is extravagant, and can avoid the damage that the fabric caused because of the transition is dried.

Description

Temperature and humidity detection module and drying system

Technical Field

The utility model relates to a drying system of airing machine especially relates to the drying module's real-time control system based on under waiting to dry the thing temperature/humidity monitoring on the airing machine, and drying module adjusts the power value of drying according to the temperature or the humidity that detect the clothing in real time.

Background

The traditional drying module of the clothes drying machine is started according to the weather environment, such as cloudy days or rainy days, so as to achieve the purpose of quickly drying clothes.

With the development of intelligent technology of furniture products, research and development personnel add some temperature and humidity sensors in a way of thinking and trying, for example, a drying module is automatically started by detecting weather environment.

If the clothes airing machine with the intelligent drying system and with the publication number of CN206706428U, the device can automatically detect the air humidity, and when the air humidity is greater than a humidity set value, the drying function is automatically opened, manual operation is not needed, and the product intelligence is increased.

The electric clothes airing machine control circuit with the publication number of CN207793692U can determine the optimal heating and drying temperature according to the temperature and humidity state of the external environment, and can effectively avoid the damage to clothes due to improper selection of the drying temperature.

The clothes airing machine with the sterilization and dehumidification functions, disclosed as CN207435780U, is characterized in that a controller adjusts the working state of a heating wire according to a signal sent by a humidity sensor.

The temperature control of the drying system of the existing clothes drying machine is based on the detection of the external environment temperature and humidity, the gear or power control of the drying module is adjusted, but the temperature and humidity actual condition of clothes is not directly based on, the condition that the environment temperature and humidity are inconsistent with the clothes temperature and humidity can occur, and the phenomenon that excessive drying or insufficient drying is caused can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a drying system with temperature and humidity detection module is further provided based on the temperature and humidity detection module that treats the detection of drying object.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the temperature and humidity detection module comprises a fixing part used for being fixed on the fabric to be dried and a temperature/humidity sensor arranged on the fixing part, wherein the temperature/humidity sensor is used for acquiring at least one numerical value in a temperature value and a humidity value of the fabric to be dried, and the numerical value is used for the clothes airing machine to execute corresponding functional actions.

The utility model discloses further preferred scheme does: the numerical value is used for a drying module in the clothes airing machine to execute opening and closing or switch corresponding power gears.

The utility model discloses further preferred scheme does: the fixing component is a clamping component or an adhesion component.

The utility model discloses further preferred scheme does: the temperature/humidity sensor is integrated on a clothes hanger for hanging clothes.

The utility model discloses further preferred scheme does: the temperature/humidity sensor is contacted with the surface of the fabric to be dried, or the temperature/humidity sensor extends into the interior of the fabric to be dried in a probe mode.

The utility model discloses further preferred scheme does: the distance between the temperature/humidity sensor and the surface of the fabric to be dried ranges from 0CM to 10 CM.

The utility model discloses further preferred scheme does: the temperature/humidity sensor is at least one of a temperature sensor, a humidity sensor or a temperature and humidity sensor.

The utility model discloses further preferred scheme does: the numerical value is transmitted to a functional module of the clothes airing machine in a wireless or wired mode.

The utility model discloses further preferred scheme does: the wireless transmission system also comprises a first MCU and a wireless transmission module; the first MCU directly or after processing sends the temperature/humidity sensor to the drying module through the wireless transmitting module.

The utility model discloses further preferred scheme does: the drying system comprises the temperature and humidity detection module and the drying module, wherein the temperature/humidity value acquired by the temperature and humidity detection module is used for the drying module to execute a corresponding power gear

Compared with the prior art, the utility model has the advantages that the temperature/humidity sensor is used for collecting the temperature value and the humidity value of the fabric to be dried, the clothes airing machine executes corresponding functional actions according to the temperature or the humidity of the fabric, such as the opening and closing of a drying module, or the clothes airing component is lifted to a drying mode position or a clothes collecting mode position through the lifting mechanism; specifically, the drying module executes corresponding power gears according to the temperature or humidity of the fabric; compared with the collection of environment humiture, through directly treating the humiture collection of stoving fabric, the numerical value is more accurate, and stoving module's power and time's control can accomplish more accurately, and less energy is extravagant, and can avoid the damage that the fabric caused because of the transition is dried.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of explaining the preferred embodiments, and therefore should not be taken as limiting the scope of the present invention. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

FIG. 1 is a schematic view of a clothes drying machine with a drying module in a main machine part;

FIG. 2 is a schematic view of a clothes drying machine with an independent underneath type drying module;

FIG. 3 is a schematic view of a clothes airing machine with a liftable drying module;

fig. 4 is a first schematic diagram of a preferred embodiment of the present invention;

FIG. 5 is a second schematic diagram of the preferred embodiment of the present invention;

fig. 6 is a third schematic diagram of the preferred embodiment of the present invention;

FIG. 7 is a flowchart of a first method of data transmission and processing between the temperature and humidity detection module and the drying module;

fig. 8 is a flow chart of a second method of data transmission and processing between the temperature and humidity detection module and the drying module.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that the description is illustrative only, and is not to be construed as limiting the scope of the invention.

As shown in fig. 1 to 3, an automatic clothes drying machine includes a main body part 100, a clothes drying part 200, and a drying system. The main unit 100 is installed on the ceiling and has a power mechanism built therein. A clothes drying part 200, such as a clothes hanger, is connected below the main unit part 100 by a traction part 300. The traction member 300 may be a wire rope or a folding frame, and a power mechanism in the main body member 100 drives the traction member 300. Therefore, the clothes drying component 200 can be lifted up and down, and a user can conveniently dry the fabrics to be dried.

As shown in fig. 7 to 8, the drying system of the automatic clothes drying machine includes a temperature and humidity detecting module and a drying module 400.

The temperature and humidity detection module comprises a temperature/humidity sensor, a second MCU and a wireless transmission module; the second MCU sends the value collected by the temperature/humidity sensor to the drying module 400 directly or through the wireless transmitting module after processing.

The temperature/humidity sensor is at least one of a temperature sensor, a humidity sensor or a temperature and humidity sensor, the temperature and humidity sensor integrates the temperature sensor and the humidity sensor, and the temperature value and the humidity value of the fabric to be dried can be acquired simultaneously.

The drying module 400 comprises a first MCU and a heating module or a fan, and the first MCU adjusts the power gear of the heating module or the fan according to the data or the processed data.

The wireless receiving module electrically connected with the first MCU in the drying module 400 can be used in cooperation with the wireless transmitting module connected with the second MCU in the temperature and humidity detection module, and is used for transmitting the temperature and humidity value collected by the temperature and humidity sensor.

Of course, it should be understood that the wireless transmitting module of the temperature and humidity detecting module may be replaced by a wired transmission method.

Moreover, the specific implementation of data transmission and processing between the temperature and humidity detection module and the drying module 400 may be various, and specifically, the following are provided:

as shown in fig. 7, the first method is: the temperature/humidity sensor collects a temperature and humidity value, the temperature and humidity value is directly sent to the drying module 400 through the wireless signal transmitting assembly of the second MCU and the wireless transmitting module, the wireless signal receiving assembly of the drying module 400 receives the value and then sends the value to the first MCU, the first MCU carries out data processing, and the value is converted into a power gear value to control the heating module or the fan to execute a corresponding power gear.

As shown in fig. 8, the second method is: the temperature/humidity sensor collects a temperature and humidity value, the collected data is processed by the second MCU and converted into a power gear value, then the power gear value is sent to the first MCU of the drying module 400, and the first MCU of the drying module 400 directly controls the heating module or the fan to execute a corresponding power gear by using the power gear value processed by the second MCU.

The drying method of the drying system comprises the following specific steps: the temperature/humidity sensor directly collects at least one value of the temperature value and the humidity value of the fabric to be dried, and the value is used for adjusting the corresponding power gear executed by the drying module 400.

The specific arrangement form, shape, position, etc. of the drying module 400 are not limited by the present invention.

Specifically, as shown in FIG. 1, a drying module 400 may be disposed within the main unit 100, with a heating module in the drying module 400 directing heat downwardly by a fan to the fabric to be dried on the clothes hanger.

As shown in fig. 2, the drying module 400 may also be a stand-alone down type, in which a heating module in the drying module 400 directs heat upward to the fabric to be dried above by a fan.

In addition, the drying module 400 can also be in various forms such as lifting, horizontal moving, rotating and the like; as shown in fig. 3, the drying module 400 can be lifted, and the height and position of the drying module 400 can be adjusted according to the length and material of the fabric to be dried.

It should be noted that the specific power gear of the drying module 400 may be a power gear of a fan, such as a blowing wind speed, or a power gear of a heating module, such as a heating module composed of a plurality of smaller heating units, and then the power gear of the heating module may be adjusted by adjusting the number of the heating units, or the heating temperature may be adjusted by adjusting the operating current of the heating module.

The power gear of the heating module or the fan is adjusted by intermittent starting, or the power gear of the heating module or the fan is adjusted by controlling the power value. When the heating module or the fan is actually operated, the heating module or the fan can be intermittently started through setting of a program, for example, the heating module or the fan is started to operate for 20 seconds to 1 minute every 20 seconds to 1 minute to meet the adjustment of power. Or the power value can be adjusted by controlling the input current, the voltage and the like of the fan or the heating module.

And besides, the power gear value received or processed by the first MCU can further start and stop the corresponding heating module or fan besides adjusting the gear of the heating module or fan. Such as: the heating module is closed, and natural wind blown out by the fan is directly used for air-drying fabric, wherein the fabric can be clothes, cups, pillowcase and the like. When the drying module 400 is of a bottom-mounted structure or a liftable structure, a fan may not be used, because the hot air flow generated by the heating module naturally rises and dries the fabric to be dried above.

Furthermore, the temperature and humidity detection module comprises a fixing part for fixing the temperature and humidity detection module on the fabric to be dried, and the temperature/humidity sensor is arranged on the fixing part. The temperature/humidity sensor is used for acquiring at least one value of a temperature value and a humidity value of the fabric to be dried, and the value is used for the drying module 400 to execute a corresponding power gear. The temperature value or the humidity value can be collected, or the temperature value and the humidity value can be collected simultaneously.

The fixing component acts on the fabric to be dried and can be a clothes rack 01 or a clamping component 02 or an adhesion component 03 or a probe component for hanging the fabric to be dried.

As shown in fig. 4, a temperature/humidity sensor 001 is integrated on the clothes hanger 01, when the fabric to be dried is hung on the clothes hanger, the temperature/humidity sensor 001 detects temperature and humidity values on the fabric to be dried, the temperature and humidity values are received or processed by the second MCU and are transmitted to the drying module 400 in a wireless or wired manner, and the drying module 400 executes a corresponding power gear.

As shown in fig. 5, the clamping member 02 may be a clamp structure, and is directly clamped on the fabric to be dried, especially, the clamping member can perform multi-point clamping on each part of the fabric to be dried, so as to monitor temperature and humidity values at different positions, the temperature/humidity sensor is in close contact with the fabric to be dried, the measured temperature/humidity value is relatively accurate, and the drying module 400 can be more effectively controlled to execute a proper power shift.

As shown in fig. 6, the adhesive member 03 may be a sticker sheet that is easily stuck on the fabric to be dried, and a temperature/humidity sensor is integrated on the sticker sheet.

The fixing part can be a probe extending into the fabric fiber, and for thicker fabrics, deeper temperature and humidity value collection is realized, rather than only the temperature and humidity value of the fabric surface, so that the phenomenon that the drying module 400 executes an improper power gear due to the fact that the temperature and humidity value difference between the thicker fabric surface and the inner layer is large is avoided.

The temperature/humidity sensor is directly contacted with the surface of the fabric to be dried, and the accuracy is relatively high. But the temperature/humidity sensor can be separated from the surface of the fabric to be dried to acquire the temperature and humidity values of the environment near the surface of the fabric to be dried; the distance range between the temperature/humidity sensor and the surface of the fabric to be dried is 0-10CM, preferably within 1CM, and the accuracy of temperature and humidity detection is higher within the allowable distance range.

As shown in fig. 3, in the form of the liftable drying module 400, a driving member for driving the drying module 400 may be further included in the power mechanism in the host part 100, and the temperature and humidity values collected by the temperature and humidity detection module in this embodiment may also be fed back to the power mechanism in the host part 100 to control the position change of the drying module 400.

In addition, the humiture value that the humiture detection module gathered can also be used for controlling the lift of the clothing part 200 that dries in the air, and when waiting to dry the fabric and dry, power unit received the information of humiture detection module, and drive traction element 300 makes the decline of the clothing part 200 that dries in the air, and the person of facilitating the use in time collects the waiting to dry fabric that dries in the air.

It is right above the utility model provides a temperature and humidity measurement module and drying system based on waiting that the drying object detects have carried out detailed introduction, and it is right to have used specific individual example herein the utility model discloses a principle and implementation mode have been elucidated, and the description of above embodiment is only used for helping to understand the utility model discloses and core thought. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The temperature and humidity detection module is characterized by comprising a fixing part and a temperature/humidity sensor, wherein the fixing part is used for fixing a fabric to be dried, the temperature/humidity sensor is arranged on the fixing part and is used for acquiring at least one value of a temperature value and a humidity value of the fabric to be dried, and the value is used for the clothes airing machine to execute corresponding functional actions.

2. The temperature and humidity detection module according to claim 1, wherein the numerical value is used for a drying module in a clothes drying machine to perform on-off or switch corresponding power gears.

3. The temperature/humidity detection module according to claim 1, wherein the fixing member is a clamping member or an adhesive member.

4. The temperature/humidity sensing module of claim 1, wherein the temperature/humidity sensor is integrated into a hanger from which the garment is hung.

5. The temperature and humidity detecting module according to claim 1, wherein the temperature/humidity sensor is in contact with a surface of the fabric to be dried, or the temperature/humidity sensor is inserted into the fabric to be dried in a probe manner.

6. The temperature and humidity sensing module according to claim 1, wherein the distance between the temperature/humidity sensor and the surface of the fabric to be dried is in a range of 0-10 CM.

7. The temperature/humidity sensing module according to claim 1, wherein the temperature/humidity sensor is at least one of a temperature sensor, a humidity sensor, or a temperature/humidity sensor.

8. The temperature and humidity detection module according to claim 1, wherein the value is transmitted to the functional module of the clothes drying machine in a wireless or wired manner.

9. The temperature and humidity detection module according to claim 1, further comprising an MCU and a wireless transmission module; the MCU directly or after processing sends the numerical value that temperature/humidity sensor gathered to the stoving module through wireless transmitting module.

10. The drying system is characterized by comprising the temperature and humidity detection module and the drying module according to any one of claims 1 to 9, wherein the temperature/humidity value acquired by the temperature and humidity detection module is used for the drying module to execute a corresponding power gear.

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