CN220327028U - Intelligent hairdressing apparatus - Google Patents

Intelligent hairdressing apparatus Download PDF

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Publication number
CN220327028U
CN220327028U CN202321773876.0U CN202321773876U CN220327028U CN 220327028 U CN220327028 U CN 220327028U CN 202321773876 U CN202321773876 U CN 202321773876U CN 220327028 U CN220327028 U CN 220327028U
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hair
unit
intelligent
main control
resistor
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CN202321773876.0U
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魏绵嘉
蔡晓欢
刘进
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Shenzhen Fenda Technology Co Ltd
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Shenzhen Fenda Technology Co Ltd
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Abstract

The utility model discloses an intelligent hairdressing apparatus, which is suitable for the field of hairdressing devices. The collecting unit is arranged at one end of the intelligent hairdressing apparatus, which is close to the hair styling area; the acquisition unit is connected with the main control unit; the main control unit is connected with the working unit. The main control unit performs signal processing on the acquired color signals to obtain corresponding target colors, and obtains corresponding setting temperature parameters and setting time parameters according to the target color processing; and sending the setting temperature parameter and the setting time parameter to a working unit for modeling operation. Aiming at the hair with different colors, the hair is acquired by the acquisition unit and then is processed by the main control unit to obtain a target color, the setting parameters corresponding to the target color can be obtained according to the target color, the setting effect is better than that of the setting parameters with unified different colors, and the experience of a user is improved.

Description

Intelligent hairdressing apparatus
Technical Field
The utility model relates to the field of hairdressing devices, in particular to an intelligent hairdressing device.
Background
People are gradually favored in the ways of caring and shaping hair while pursuing beauty.
Besides the race relation of human, the hair color is different from various colors caused by the acquired hair dyeing, the hair with different colors corresponds to different hair quality, and the hair is shaped by the same temperature parameter or the same shaping time parameter in the practical hairdressing shaping device.
Therefore, a need exists for an intelligent hair setting appliance that is well addressed by those skilled in the art.
Disclosure of Invention
The utility model aims to provide an intelligent hairdressing apparatus, the color of hair is collected by the collecting unit, the main control unit can obtain the setting parameters according to the color of the hair, the setting effect carried out under the setting parameters is better than that of the existing setting parameters with uniform different colors, and the experience of users is improved.
In order to solve the technical problems, the utility model provides an intelligent hairdressing apparatus, which comprises an acquisition unit, a main control unit and a working unit;
the collecting unit is used for collecting hair color;
the collecting unit is arranged at one end of the intelligent hairdressing apparatus, which is close to the hair styling area;
the acquisition unit is connected with the main control unit;
the main control unit is connected with the working unit.
Preferably, the acquisition unit is an RGB color sensor.
Preferably, the collecting unit comprises an RGB color sensor and an environmental color sensor, and further comprises a light emitting source;
the luminous source is connected with the main control unit, is positioned in the intelligent hairdressing apparatus, which is close to the hair styling area and is opposite to the position of the RGB color sensor, and is used for providing a light source environment for the hair;
the ambient color sensor is disposed outside of the styling area of the intelligent hair setting device.
Preferably, the temperature detecting circuit is further included;
the temperature detection circuit is connected with the main control unit.
Preferably, the temperature detection circuit is an NTC detection circuit, wherein the NTC detection circuit comprises an NTC thermistor, a first resistor, a second resistor and a first capacitor;
one end of the NTC thermistor is connected with a power supply signal, and the other end of the NTC thermistor is respectively connected with the first ends of the first resistor and the second resistor;
the second end of the first resistor is connected with the main control unit, and the second end of the second resistor is grounded; the first end of the first capacitor is connected with the second end of the first resistor, and the second end of the first capacitor is connected with the second end of the second resistor.
Preferably, the intelligent hair styling appliance is one or more combination appliances of a hair curler, a hair straightener or a hair dryer.
Preferably, when the intelligent hair curler is the hair curler or the hair straightener, the collecting unit is arranged at one end of a styling area of the hair curler or the hair straightener, wherein the styling area is provided with an opening, and hair enters or leaves the styling area through the opening.
Preferably, the device further comprises a power supply unit, a voltage detection unit and a key unit;
the power supply unit, the voltage detection unit and the key unit are respectively connected with the main control unit.
Preferably, the input display unit further comprises an input display unit having a manual input operation parameter;
the input display unit with the manual input operation parameters is connected with the main control unit.
The utility model provides an intelligent hairdressing apparatus, which comprises an acquisition unit, a main control unit and a working unit; the collecting unit is arranged at one end of the intelligent hairdressing apparatus, which is close to the hair styling area; the acquisition unit is connected with the main control unit; the main control unit is connected with the working unit. The acquisition unit of the appliance acquires color signals, the main control unit carries out signal processing on the acquired color signals to obtain corresponding target colors, and corresponding setting temperature parameters and setting time parameters are obtained according to the target color processing; and sending the setting temperature parameter and the setting time parameter to a working unit for modeling operation. Aiming at the hair with different colors, the hair is acquired by the acquisition unit and then is processed by the main control unit to obtain a target color, the setting parameters (setting temperature parameters and setting time parameters) corresponding to the target color can be obtained according to the target color, the setting effect carried out under the setting parameters is better than that of the existing setting parameters with uniform different colors, and the experience of a user is improved.
Drawings
For a clearer description of embodiments of the present utility model, the drawings that are required to be used in the embodiments will be briefly described, it being apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the drawings without inventive effort for those skilled in the art.
FIG. 1 is a block diagram of an intelligent hair dressing appliance according to an embodiment of the present utility model;
fig. 2 is a block diagram of an NTC detection circuit according to an embodiment of the present utility model;
fig. 3 is a schematic view of a modeling area of an intelligent hair dressing apparatus according to an embodiment of the present utility model;
fig. 4 is a circuit configuration diagram of a power supply unit according to an embodiment of the present utility model;
fig. 5a is a circuit configuration diagram of a first detection unit according to an embodiment of the present utility model;
fig. 5b is a circuit configuration diagram of a second detection unit according to an embodiment of the present utility model;
fig. 6 is a circuit configuration diagram of a key unit according to an embodiment of the present utility model;
fig. 7 is a circuit structure diagram of a main control unit and an acquisition unit according to an embodiment of the present utility model;
fig. 8 is a circuit configuration diagram of a motor module according to an embodiment of the present utility model;
FIG. 9 is a circuit diagram of a heat generating unit according to an embodiment of the present utility model;
fig. 10 is a circuit configuration diagram of a motor module of a rotating unit according to an embodiment of the present utility model.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by a person of ordinary skill in the art without making any inventive effort are within the scope of the present utility model.
The intelligent hairdressing apparatus has the core that the intelligent hairdressing apparatus is provided, the color of hair is collected through the collecting unit, the main control unit can obtain the setting parameters according to the color of the hair, the setting effect carried out under the setting parameters is better than the setting effect of the setting parameters with unified different colors, and the experience of users is improved.
In order to better understand the aspects of the present utility model, the present utility model will be described in further detail with reference to the accompanying drawings and detailed description.
It should be noted that, after the intelligent hairdressing apparatus recognizes the hair color, the corresponding setting parameters, such as temperature and time, are obtained, and according to the setting parameters, the main control unit controls the heating unit and the rotating unit to perform operation. Fig. 1 is a block diagram of an intelligent hairdressing apparatus according to an embodiment of the utility model, and as shown in fig. 1, the apparatus includes a collection unit 1, a main control unit 2, and a working unit 3;
an acquisition unit 1 for acquiring hair color;
the acquisition unit 1 is arranged at one end of the intelligent hairdressing apparatus, which is close to the hair styling area;
the acquisition unit 1 is connected with the main control unit 2;
the main control unit 2 is connected with the working unit 3.
Specifically, the collecting unit is arranged at one end of the appliance close to the hair styling area, and the intelligent hairdressing appliance can be a hairdryer, a hair straightener or a hair curler, or can be combined with the intelligent hairdressing appliance, and has different definitions corresponding to the styling area of the appliance. In the case of a hair dryer, the styling area of the dryer is at the end of the dryer where the hair is blowing, near the hair, and the hair cannot reach into the dryer. The collecting unit can collect the hair in the hair alignment area of the styling area of the blowing port of the blower. In addition, the styling area for the intelligent hair straightener or intelligent hair curler may be a chamber, the chamber of which is located at the open end of the clamping plate of the appliance, with the clamping plate penetrating into the hair in the middle to collect the color of the hair.
The hair color is distinguished from the hair quality test, and the hair quality characteristics include oiliness, dryness, mixability, bifurcation, roughness and the like, and the hair quality is maintained according to the hair quality characteristics. The hair color identification is used for better setting effect, so that different colors of hair are identified, corresponding operation parameters are output according to the identified different colors of hair, and the problem that the setting effect is poor due to the existing uniform operation parameters is avoided.
The acquisition unit is connected with the main control unit, and the main control unit is connected with the working unit. The working unit can be provided with corresponding working modules according to specific intelligent hairdressing apparatuses, for example, the working unit comprises a heating unit and a rotating unit for a hair dryer, and the rotating unit is not necessarily contained for a hair straightener and a hair curler. Therefore, the working unit is a heating unit and/or a rotating unit. For the heat generating unit is used to provide heat generating temperature for the appliance. The rotating unit can be a motor or a motor, and the embodiment of the utility model is not limited as long as the device can work normally.
The main control unit processes the color signals according to the collected color signals to obtain corresponding target colors, and can obtain setting parameters corresponding to the target colors according to the mapping relation among three parameters of preset colors, temperature and time so that the working unit can work according to the setting parameters. After the intelligent hairdressing apparatus is started, the color signals collected by the collecting unit are converted into electric signals and transmitted to the main control unit, and the main control unit sends out instructions to control the working unit to work.
The embodiment of the utility model provides an intelligent hairdressing apparatus, which comprises an acquisition unit, a main control unit and a working unit; the collecting unit is arranged at one end of the intelligent hairdressing apparatus, which is close to the hair styling area; the acquisition unit is connected with the main control unit; the main control unit is connected with the working unit. The acquisition unit of the appliance acquires color signals, the main control unit carries out signal processing on the acquired color signals to obtain corresponding target colors, and corresponding setting temperature parameters and setting time parameters are obtained according to the target color processing; and sending the setting temperature parameter and the setting time parameter to a working unit for modeling operation. Aiming at the hair with different colors, the hair is acquired by the acquisition unit and then is processed by the main control unit to obtain a target color, the setting parameters (setting temperature parameters and setting time parameters) corresponding to the target color can be obtained according to the target color, the setting effect carried out under the setting parameters is better than that of the existing setting parameters with uniform different colors, and the experience of a user is improved.
On the basis of the above-described embodiments, the acquisition unit is not particularly limited, and may be various sensors for recognizing hair colors, and as one embodiment, the acquisition unit is an RGB color sensor.
Specifically, the collecting unit may be an RGB color sensor, or may be other sensors that are different from the RGB color sensor, such as a visible light sensor, where the visible light sensor provides 8 visible light detection channels, 1 scintillation channel, 1 near infrared spectrum (Near Infrared Spectroscopy, NIR) channel, and 1 non-filter channel, so that light compensation can be implemented in a dark environment. For color mode is a model that represents a certain color in digital form, or a way of recording the color of an image. The method is divided into: RGB mode, CMYK mode, HSB mode, lab color mode, bitmap mode, gray mode, index color mode, two-tone mode, and multi-channel mode. The RGB color sensor in the present embodiment can detect and measure almost all visible light in a certain range.
If the values of the three primary colors constituting the respective colors are known, the color of the object under test can be known. When a color filter is selected, it allows only certain specific primary colors to pass, preventing the passage of other primary colors. For example: when the red filter is selected, only red in the incident light can pass through, and both blue and green are blocked, so that the light intensity of red light can be obtained; similarly, the light intensity of blue light and green light can be obtained by selecting other filters. From these three light intensity values, the color of the light reflected onto the RGB color sensor can be analyzed.
The principle of the acquisition process of the RGB color sensor is the same as that of the existing RGB color sensor, and the description is omitted here.
As an embodiment, the acquisition unit comprises an RGB color sensor and an ambient color sensor, the acquisition unit further comprising a light emitting source;
the light source is connected with the main control unit, is positioned in the intelligent hairdressing apparatus close to the hair styling area and is opposite to the position of the RGB color sensor, and is used for providing a light source environment for the hair;
the environment color sensor is arranged outside the modeling area of the intelligent hairdressing apparatus.
It can be appreciated that, the ambient color sensor considers that the current RGB color sensor is only the hair corresponding to the styling area of the collected intelligent hairdressing apparatus, if the light intensity of the environment where the current user is located is stronger, the hair color collected by the RGB color sensor may be greatly affected by the light intensity, and the collected color signal is greatly different from the original hair color, so that the finally identified target color is inaccurate. For this purpose, an ambient color sensor is added, correspondingly compensated. The ambient color sensor mainly collects the color of the surrounding environment, and the surrounding environment is not limited to a wide range of surrounding environments, but may be an environment that is contacted when the intelligent hairdressing apparatus is in operation. In addition, the light source of the acquisition unit is a light source for entering, and is reflected to the modeling area of the intelligent hairdressing device through the light source, and is acquired by the RGB color sensor in the modeling area. For the principle of reflection, the position of the light emitting source is opposite to the position of the RGB color sensor.
It should be noted that, the acquisition unit mentioned in this embodiment may implement only the acquisition function, or may implement the color recognition function on the basis of implementing the acquisition function.
The different color sensors of the acquisition unit provided by the embodiment of the utility model improve the diversity of acquisition.
On the basis of the embodiment, the temperature detecting circuit is further included;
the temperature detection circuit is connected with the main control unit.
Specifically, the temperature detection circuit detects whether the current actual temperature of the heating unit is matched with or the same as the shaping temperature parameter output by the main control unit, if the current actual temperature is the same as the shaping temperature parameter output by the main control unit, the actual control parameter of the intelligent hairdressing apparatus is well matched, if the actual control parameter is more different from the shaping temperature parameter, the temperature parameter of the intelligent hairdressing apparatus is problematic or error, deviation of the color identified in the signal processing process is possible, the mapping relation between the target color and the temperature parameter is also possible to be inaccurate, and the heating unit is also possible to be problematic and not work according to the actual parameter.
As one embodiment, the temperature detection circuit is an NTC detection circuit, wherein the NTC detection circuit comprises an NTC thermistor, a first resistor, a second resistor, and a first capacitor;
one end of the NTC thermistor is connected with a power supply signal, and the other end of the NTC thermistor is respectively connected with the first ends of the first resistor and the second resistor;
the second end of the first resistor is connected with the main control unit, and the second end of the second resistor is grounded; the first end of the first capacitor is connected with the second end of the first resistor, and the second end of the first capacitor is connected with the second end of the second resistor.
Specifically, the principle of the NTC detection circuit is the same as the existing NTC detection principle, and is used for sensing the real-time temperature of the heating unit, and will not be described herein. Fig. 2 is a block diagram of an NTC detection circuit according to an embodiment of the present utility model, where, as shown in fig. 2, one end of an NTC thermistor NTC1 is connected to a power signal, and the other end is connected to respective first ends of a first resistor R1 and a second resistor R2;
the second end of the first resistor R1 is connected with the main control unit, and the second end of the second resistor R2 is grounded; the first end of the first capacitor C1 is connected with the second end of the first resistor R1, and the second end of the first capacitor C1 is connected with the second end of the second resistor R2.
The temperature detection circuit provided by the embodiment of the utility model improves the accuracy of temperature detection and simultaneously solves the problem of fault for the intelligent hairdressing apparatus.
Based on the above embodiments, the intelligent hair styling appliance is one or more combination appliances of a hair curler, a hair straightener or a hair dryer.
It will be appreciated that the intelligent hair setting appliance may be one or more combination appliances of a hair curler, hair straightener or hair dryer. For the combined appliance, the experience of the user is improved while multiple functions are realized. Meanwhile, the shaping time is saved, and the shaping efficiency is improved.
As an example, when the smart hair styling apparatus is a hair curler or a hair straightener, the harvesting unit is provided at one end of the styling area of the housing of the hair curler or hair straightener having an opening through which hair enters or leaves the styling area.
Based on the structural features of the hair curler or the hair straightener, fig. 3 is a schematic view of a styling area of an intelligent hair styling apparatus according to an embodiment of the present utility model, and as shown in fig. 3, the styling area is a cavity in the drawing, and the collecting unit 1 is disposed at one end of the cavity with an opening of the corresponding housing, so that hair passes through or leaves the cavity, it can be understood that the collecting unit of the present embodiment includes two sensors, and the first sensor 5 and the second sensor 6 are respectively disposed at two ends of the opening of the cavity.
On the basis of the embodiment, the device further comprises a power supply unit, a voltage detection unit and a key unit;
the power supply unit, the voltage detection unit and the key unit are respectively connected with the main control unit.
Specifically, the power supply unit converts ac power to low voltage dc power for use by other units. Fig. 4 is a circuit diagram of a first power supply unit according to an embodiment of the present utility model, as shown in fig. 4, a high-voltage ac in the power supply unit is input from ACL/ACN, a first end of a second capacitor C2 is connected to an ACN end, a third resistor R3 and a fourth resistor R4 are connected in series and connected in parallel with a second capacitor C2, a first end of the second capacitor C2 is connected to a first end of a fuse F1, a second end of the fuse F1 is connected to a first end of a fifth resistor R5, a second end of the fifth resistor R5 is connected to a second end of the second capacitor C2, a first end of the sixth resistor R6 is connected to a first end of the fifth resistor R5, a second end of the sixth resistor R6 is connected to an anode of a second diode D1, a cathode of the first diode D1 is connected to a first end of the first inductor L1, a second end of the first inductor L1 is connected to a first end of the second capacitor C2 is connected to a first end of the first capacitor C2, a first end of the first capacitor C2 is connected to a third end of the first capacitor C2 is connected to a PWM chip, a third end of the second end of the first capacitor C2 is connected to a third end of the PWM 2, a third end of the first capacitor C2 is connected to a third end of the third capacitor C2 is connected to a third end of the PWM 2, and the first end of the third capacitor C2 is connected to the anode is connected to a third end of the third capacitor C2 is connected to the anode, the second end of the fourth capacitor C4 is connected to the second end of the seventh resistor R7 and is connected to the voltage signal.
That is, the high-voltage alternating current enters from ACL/ACN, is filtered by a second capacitor C2, is filtered by a fuse F1, is rectified by a first diode D1, is filtered by a first rectifying diode EC1, is changed into high-voltage direct current, enters a PWM power supply chip, and is reduced to low-voltage direct current, and the voltage accords with the working voltage of each part of the product.
The voltage detection unit includes a first detection unit and a second detection unit, and fig. 5a is a circuit structure diagram of the first detection unit provided by the embodiment of the present utility model, as shown in fig. 5a, a first end of an eighth resistor R8 is connected to an ACL end, a second end of the eighth resistor R8 is connected to a first end of a ninth resistor R9, and is connected to a first end of a fifth capacitor C5, both the second end of the ninth resistor R9 and the second end of the fifth capacitor C5 are connected to a high voltage signal, and the first end of the fifth capacitor C5 is connected to a third pin of the main control unit. Fig. 5b is a circuit structure diagram of a second detection unit according to an embodiment of the present utility model, as shown in fig. 5b, a first end of a tenth resistor R10 is connected to an ACL end, a second end of the tenth resistor R10 is connected to a first end of a sixth capacitor C6, a second end of the sixth capacitor C6 is grounded, and a first end of the sixth capacitor C6 is connected to a fourth pin of the main control unit.
Fig. 6 is a circuit diagram of a key unit according to an embodiment of the present utility model, as shown in fig. 6, first ends of a first key SW1, a second key SW2 and a third key SW3 are connected to each other and grounded; the second ends of the first key SW1, the second key SW2 and the third key SW3 are respectively connected with the first ends of the eleventh resistor R11, the twelfth resistor R12 and the thirteenth resistor R13, and the second ends of the eleventh resistor R11, the twelfth resistor R12 and the thirteenth resistor R13 are respectively connected with the fifth pin, the seventh pin and the eighth pin of the main control unit.
Fig. 7 is a circuit structure diagram of a master control unit and an acquisition unit according to an embodiment of the present utility model, as shown in fig. 7, a seventh capacitor C7 is connected in parallel with an eighth capacitor C8, one end of the seventh capacitor C7 connected in parallel with the eighth capacitor C8 is connected to a power signal, and is connected to a VDD pin of an RGB sensor chip IC, a second end is grounded and is connected to a GND pin of the RGB sensor chip IC, an SDA pin, an SCL pin and an INT pin of the RGB sensor chip IC are respectively connected to a fourteenth resistor R14, a fifteenth resistor R15 and a first end of a sixteenth resistor R16, a second end of the fourteenth resistor R14, the fifteenth resistor R15 and the sixteenth resistor R16 are connected to a power signal, an SDA pin, an SCL pin and an INT pin of the RGB sensor chip IC are connected to a second pin, a sixth pin and a ninth pin of the master control unit IC2, a twentieth pin of the master control unit IC2 is connected to a power signal, a nineteenth pin of the indicator LED1 is connected to one end of the indicator LED1, another end of the indicator LED1 is connected to one end of a seventeenth resistor R17, and another end of the seventeenth resistor R17 is connected to the power signal. The seventeenth pin of the main control unit IC2 is connected with the motor module of the rotating unit, and the fourteenth pin is connected with the heating unit.
Fig. 8 is a circuit diagram of a motor module according to an embodiment of the present utility model, as shown in fig. 8, a first end of a third inductor L3 is connected to an ACL end, a second end of the third inductor L3 is connected to a cathode of a third diode D3 and to an anode of a fourth diode D4, the cathode of the fourth diode D4 is connected to a cathode of a sixth diode D6, an anode of the sixth diode D6 is connected to a cathode of a fifth diode D5, and an anode of the fifth diode D5 is connected to an anode of the third diode D3; the cathode of the fourth diode D4 is connected with one end of the motor MD1 and one end of the ninth capacitor C9; one end of the ninth capacitor C9 is connected with the cathode of the seventh diode D7, and the anode of the seventh diode D7 is connected with one end of the tenth capacitor C10; the other end of the first motor MD1 is connected with one end of a tenth capacitor C10, and the anode of a third diode D3 is connected with the other end of the first motor MD 1; an anode of the sixth diode D6 is connected to one end of the first transistor T1 through a hot wire; the other end of the first transistor T1 is connected to one end of the eighteenth resistor R18 and to one end of the nineteenth resistor R19; the other end of the eighteenth resistor R18 is connected with seventeen pins of the main control unit IC2, and one end of the nineteenth resistor R19 and the other end of the first transistor T1 are connected with power signals.
Fig. 9 is a circuit structure diagram of a heating unit according to an embodiment of the present utility model, as shown in fig. 9, one end of a second transistor T2 is connected to an ACL end through a thermal conductor, one end of the second transistor T2 is connected to one end of a twentieth resistor R20 and one end of a twenty-first resistor R21, the other end of the twentieth resistor R20 is connected to an eighteen pin of a main control unit IC2, and the other end of the twenty-first resistor R21 is connected to a power signal.
Fig. 10 is a circuit diagram of a motor module of a rotating unit according to an embodiment of the present utility model, as shown in fig. 10, one end of a second motor MD2 is connected to a power signal, the other end of the second motor MD2 is connected to a drain of a MOS transistor M1, a source of the MOS transistor M1 is grounded, a gate of the MOS transistor M1 is connected to one end of a twenty-second resistor R22 and to one end of a twenty-third resistor R23, the other end of the twenty-second resistor R22 is connected to sixteen pins of a main control unit, and the other end of the twenty-third resistor R23 is grounded.
The specific circuit connection relation among the power supply unit, the voltage detection unit, the key unit, the motor module of the rotating unit and the heating unit enables the intelligent hairdressing apparatus to be more complete.
On the basis of the embodiment, considering the temperature detection circuit and the setting of the corresponding setting parameters which are not used to automatically identify by the user, the device also comprises an input display unit with manual input operation parameters under the condition of compensating for the currently determined temperature parameters and time parameters;
the input display unit with manual input operation parameters is connected with the main control unit.
Specifically, the input display unit provides a touch screen interface of a user or displays the interface through operation of the key unit, is connected with the main control unit, receives an instruction after the instruction is input by the input display unit, converts the instruction into a corresponding control instruction, and transmits the control instruction to the control module.
The input display unit provided by the embodiment of the utility model is convenient for a user to operate.
The intelligent hairdressing apparatus provided by the utility model is described in detail above. In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.
It should also be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims (9)

1. An intelligent hairdressing apparatus is characterized in that the intelligent hairdressing apparatus comprises an acquisition unit, a main control unit and a working unit;
the collecting unit is used for collecting hair color;
the collecting unit is arranged at one end of the intelligent hairdressing apparatus, which is close to the hair styling area;
the acquisition unit is connected with the main control unit;
the main control unit is connected with the working unit.
2. The intelligent hair setting appliance of claim 1, wherein the acquisition unit is an RGB color sensor.
3. The intelligent hair setting appliance of claim 1, wherein the acquisition unit comprises an RGB color sensor and an ambient color sensor, the acquisition unit further comprising a light source;
the luminous source is connected with the main control unit, is positioned in the intelligent hairdressing apparatus, which is close to the hair styling area and is opposite to the position of the RGB color sensor, and is used for providing a light source environment for the hair;
the ambient color sensor is disposed outside of the styling area of the intelligent hair setting device.
4. The intelligent hair setting appliance according to any one of claims 1 to 3, further comprising a temperature detection circuit;
the temperature detection circuit is connected with the main control unit.
5. The intelligent hair setting appliance of claim 4, wherein the temperature detection circuit is an NTC detection circuit, wherein the NTC detection circuit comprises an NTC thermistor, a first resistor, a second resistor, and a first capacitor;
one end of the NTC thermistor is connected with a power supply signal, and the other end of the NTC thermistor is respectively connected with the first ends of the first resistor and the second resistor;
the second end of the first resistor is connected with the main control unit, and the second end of the second resistor is grounded; the first end of the first capacitor is connected with the second end of the first resistor, and the second end of the first capacitor is connected with the second end of the second resistor.
6. The intelligent hair setting appliance of claim 5, wherein the intelligent hair setting appliance is one or more combination appliances of a hair curler, a hair straightener or a hair dryer.
7. The intelligent hair setting appliance according to claim 6, wherein when the intelligent hair setting appliance is the hair curler or the hair straightener, the collecting unit is provided at one end of a styling area of a housing of the hair curler or the hair straightener having an opening through which hair enters or leaves the styling area.
8. The intelligent hair setting appliance according to claim 7, further comprising a power supply unit, a voltage detection unit, and a key unit;
the power supply unit, the voltage detection unit and the key unit are respectively connected with the main control unit.
9. The intelligent hair setting appliance according to claim 5, further comprising an input display unit having a manual input of an operation parameter;
the input display unit with the manual input operation parameters is connected with the main control unit.
CN202321773876.0U 2023-07-07 2023-07-07 Intelligent hairdressing apparatus Active CN220327028U (en)

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