CN220088817U - Blowing device - Google Patents

Abstract

The utility model discloses a blowing device. The blowing equipment comprises an equipment main body, an identification component and an air flow forming component, wherein the equipment main body comprises an air duct structure and a handle structure connected with the air duct structure; the identification component is arranged on the air duct structure and/or the handle structure and is used for acquiring user information; the airflow forming assembly is arranged in the equipment main body and is electrically connected with the identification assembly, and the airflow forming assembly can adjust self parameters according to the user information acquired by the identification assembly so as to enter different working modes. In the using process of the air blowing equipment provided by the utility model, the air flow forming assembly can be automatically regulated to work according to the using characteristics of a user, the formed air flow can be more matched with the actual using requirements of the user, the drying efficiency is higher, and the using experience is better.

Description

Blowing device

Technical Field

The utility model relates to the technical field of intelligent air blowing equipment, in particular to air blowing equipment.

Background

The blowing device such as a blower, a dryer, etc. can blow out air flow with a certain temperature during the use process, so as to blow the hair or wet articles of the user to dry. Traditional blowing equipment generally has fixed gear, and the user is at the in-process accessible demand manual regulation blowing equipment's gear of blowing, comes into different modes, and every user all needs the user oneself to manually adjust suitable self gear when using same blowing equipment at every turn and blows the hair, and in blowing the in-process moreover, probably need adjust the gear many times, use the operation complicated, and weather inefficiency.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is that the traditional blowing equipment needs to manually adjust the gear of the blowing equipment in each use process of a user, so that the operation is complex, and the blowing efficiency is lower.

In order to solve the above technical problems, the present utility model provides a blowing apparatus, including:

the device main body comprises an air duct structure and a handle structure connected with the air duct structure;

the identification component is arranged on the air duct structure and/or the handle structure and is used for acquiring user information;

the airflow forming assembly is arranged in the equipment main body and is electrically connected with the identification assembly, and the airflow forming assembly can adjust self parameters according to the user information acquired by the identification assembly so as to enter different working modes.

Optionally, the recognition component is arranged on the wind barrel structure, and the recognition component comprises a face recognition structure for acquiring face information of the user.

Optionally, the wind tunnel structure includes a first end and a second end, wherein the first end is provided with the air outlet of the wind tunnel structure, the second end is the wind tunnel structure is kept away from the one end of air outlet, wherein the face recognition structure is located the second end of wind tunnel structure.

Optionally, a screen display device is further disposed on the second end.

Optionally, the face recognition structure is arranged outside the screen display device.

Optionally, the face recognition structure is embedded within the screen display device.

Optionally, the acquired user information and the received operation mode may be displayed on the screen display device.

Optionally, the face recognition structure includes a camera.

Optionally, the handle structure includes a handle body, and a key provided on the handle body, and the identification component is provided in the handle body.

Optionally, the identification component is configured as a face recognition structure, the face recognition structure being disposed on the handle body.

Optionally, the identification component is configured as a fingerprint sensor, and the fingerprint sensor is configured corresponding to the key.

Optionally, the identification component is configured as a pressure sensor, and the pressure sensor is configured corresponding to the handle body.

Optionally, the identification component is configured as a flexible capacitive sensor, and the pressure sensor is configured corresponding to the handle body.

Optionally, the air blowing device further includes a controller, the controller is electrically connected with the identification component and the airflow forming component, and the controller controls the airflow forming component to work according to the user information acquired by the identification component.

Optionally, the airflow forming assembly comprises a fan arranged in the air duct structure, and the controller is used for controlling the rotating speed of the fan.

Optionally, the airflow forming assembly comprises a heating element arranged in the air duct structure, and the controller is used for controlling the heating temperature of the heating element.

Optionally, the air blowing device is further configured with a processor, the processor is configured to receive the user information acquired by the identification component, send control information to the controller after matching the user information, and adjust the air blowing device to enter a corresponding working mode according to the control information.

Optionally, the air blowing device further comprises a wireless module, wherein the wireless module is used for connecting the air blowing device with a remote terminal, and the remote terminal stores the user information and/or visually displays the running state of the air blowing device.

Optionally, the processor is integrated in the blowing device.

Optionally, the processor is disposed on the remote terminal outside the blowing device.

Optionally, the screen display device of the air blowing device visually displays the current user information and the running state of the corresponding air blowing device through the wireless module.

The technical scheme provided by the utility model has the following advantages:

the utility model provides blowing equipment, which comprises an equipment main body, an identification component and an air flow forming component, wherein the equipment main body comprises an air duct structure and a handle structure, the handle structure is used for being held by a user, and the air flow forming component can form air flow and blow out from the air duct structure for being used by the user; the recognition component is used for acquiring user information, such as facial information, fingerprint information, holding strength information and the like of a user, so that the air flow forming component can enter different working modes according to the information acquired by the recognition component, and the air flow blown out by the air blowing device can enter different working modes according to different users, so that the air blowing device can be more suitable for the use requirements of different users, the air blowing device can automatically adjust the air flow forming component to work according to the use characteristics of the users in the use process, the formed air flow can be more matched with the actual use requirements of the users, the blow-drying efficiency is higher, and the use experience is better.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an embodiment of a blowing device according to the present utility model;

fig. 2 is a schematic structural view of the blowing apparatus shown in fig. 1 at another view angle;

fig. 3 is a schematic cross-sectional structure of the blowing apparatus shown in fig. 1.

Reference numerals illustrate:

100-blowing equipment; 1-an apparatus body; 11-wind cylinder structure; 12-handle structure; 13-a key; 2-an identification component; 3-an air flow forming assembly; 31-a fan; 32-heating element.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. The utility model will be described in detail hereinafter with reference to the drawings in conjunction with embodiments. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

In the present utility model, unless otherwise indicated, terms of orientation such as "upper, lower, top, bottom" are used generally with respect to the orientation shown in the drawings or with respect to the component itself in the vertical, upright or gravitational direction; also, for ease of understanding and description, "inner and outer" refers to inner and outer relative to the profile of each component itself, but the above-mentioned orientation terms are not intended to limit the present utility model.

The present utility model provides a blowing apparatus 100, which blowing apparatus 100 may be a hair dryer, a hand dryer, a hair curler, or the like. Specifically, referring to fig. 1 to 3, the air blowing device 100 includes a device main body 1, an identification component 2 and an air flow forming component 3, wherein the device main body 1 includes an air duct structure 11 and a handle structure 12 connected with the air duct structure 11, the air duct structure 11 can guide the air flow formed by the air flow forming component 3, and the air flow formed by the air flow forming component 3 can flow along the air duct structure 11 and finally flow out from an air outlet end for users to use, so that the air flow is better guided to reduce wind resistance; the identification component 2 is arranged on the air duct structure 11 and/or the handle structure 12, and the identification component 2 is used for acquiring user information; the airflow forming assembly 3 is disposed in the device main body 1 and is used for forming an airflow, the airflow forming assembly 3 is electrically connected with the identification assembly 2, and the airflow forming assembly 3 can adjust its own parameters according to the user information acquired by the identification assembly 2 so as to enter different working modes, so that the air blowing device 100 can blow out airflows in different modes according to different user information.

The user information may be facial information, fingerprint information, grip strength information, and the like of the user, and the air flow forming assembly 3 may enter different working modes according to the information acquired by the identification assembly 2, so that the air flow blown by the air blowing device 100 may enter different working modes according to different users, the air blowing device 100 may be more suitable for the use requirements of different users, the air blowing device 100 may automatically adjust the air flow forming assembly 3 to work according to the use characteristics of the user during the use process, the formed air flow may better match the actual use requirements of the user, the blow-drying efficiency is higher, and the use experience is better.

In the following, a specific structure of the blower apparatus 100 will be described using the blower apparatus 100 as an example, and other apparatuses may be adaptively adjusted.

It will be appreciated that the habit of using the blower will vary from user to user. For example, some people prefer hot air at a somewhat higher temperature to quickly dry the hair; some people like to blow hair by using gentle air flow, so that the hair is prevented from being warped randomly; some people prefer to send Gao Wenchui for a period of time and then blow off the heat on the head with cool wind to avoid hair drying. Thus, each user has a respective hair-blowing habit. Therefore, in the utility model, the identification component 2 is arranged on the device main body 1, so that user information can be obtained, when the user uses the air blowing device 100 once and then uses the air blowing device 100 again, the user information and the corresponding use habit of the user are recorded in the air blowing device 100, when the user uses the air blowing device again, according to the use habit recorded before, the air blowing device 100 can automatically enter into the corresponding working mode of the user, thus the user does not need to manually adjust the air blowing device 100, the air blowing device 100 is obviously more convenient to use, and the use experience is better.

The corresponding setting positions of the recognition modules 2 are slightly different according to the different recognition modes. In an embodiment, the recognition component 2 may be disposed on the air duct structure 11, where the recognition component 2 may include a face recognition structure for acquiring face information of a user when the user uses the air blowing device 100, so as to save the face information of the user, and after the user finishes using the air blowing device 100, the air blowing device 100 may save the use state of the user to be saved as a working mode corresponding to the user, so that when the user uses the air blowing device 100 again, the device may automatically enter the working mode to better complete the air blowing effect. And the face recognition structure is arranged on the air duct structure 11, so that the face information of the user is easier to obtain when the user picks up the air blowing device 100.

The dryer structure 11 is preferably cylindrical, the dryer structure 11 comprises a first end and a second end, wherein the first end is provided with an air outlet of the dryer structure 11, the second end is provided with one end of the dryer structure 11 away from the air outlet, the face recognition structure is arranged at the second end of the dryer structure 11, and the face recognition structure is arranged at one end away from the air outlet, so that the false opening of the air blowing device 100 is avoided when face information collection is carried out, and air flows are blown to the face of a user from the air outlet, so that the user is accidentally injured.

Preferably, the face recognition structure includes a camera, the camera is disposed at the second end of the air duct structure 11, when the user picks up the blowing device 100, the face can be aligned to the position of the camera, and the camera can start working after acquiring user information, so as to avoid sudden blowing at the front end of the air duct structure 11, so that the face of the user is accidentally injured, and therefore, the camera is disposed at the air inlet end of the air duct structure 11, which is more beneficial to improving the use experience of the user.

A screen display device is further arranged at the second end of the air duct structure 11, and the screen display device can be a touch screen or a common display screen, and can display user information acquired by the face recognition structure or control the air blowing equipment 100 to work; alternatively, the operation condition of the blowing apparatus 100 itself (e.g., the body temperature or humidity, etc.) is displayed, so that the operation of the blowing apparatus 100 is more intelligent and the blowing apparatus 100 can be effectively protected.

The face recognition structure can be arranged on the outer side of the screen display device to be located on one side of the screen display device, user information is recognized through the face recognition structure and fed back to the screen display device in time, and the face recognition structure and the screen display device are located on the same side of the air duct structure 11, so that a user can observe a detection result conveniently during detection.

Or, the face recognition structure can be embedded into the screen display device, and detection and display are integrated, so that the structure is more compact.

In another embodiment, the recognition component 2 may also be disposed on the handle structure 12, and the hand information of the user is obtained through the recognition component 2. Specifically, as shown in fig. 1 and 2, the handle structure 12 includes a handle body and a key 13 disposed on the handle body, the handle body is disposed on one side of the air duct structure 11, and the recognition component 2 is disposed in the handle body, so as to recognize the identity of the user by acquiring the hand information of the user when the user holds the handle body. It should be noted that the face recognition structure may also be provided on the handle body.

The recognition component 2 may be configured as a fingerprint sensor, through which fingerprint information of the user can be obtained to recognize the identity of the user when the blower device 100 is turned on. The button 13 can be the start key, also can be wind-force regulating key etc. and fingerprint sensor locates in the handle main part, and corresponds button 13 setting, and when the user held the handle main part, user's thumb can be pressed on button 13 to acquire the thumb information of user's hand through recognition component 2 in order to discern user's identity, need not extra recognition step, easy operation, and discernment is accurate.

In another embodiment, the identification assembly 2 may be provided as a pressure sensor, which is provided in correspondence with a side wall of the handle body. When the blowing apparatus 100 is turned on, the user identity is identified by detecting the grip or pressure distribution of the user through the pressure sensor acquisition.

In yet another embodiment, the identification component 2 may also be configured as a flexible capacitive sensor, which is configured to correspond to a sidewall of the handle body. When the blowing apparatus 100 is turned on, the user's palm size is detected by the flexible capacitive sensor to match the user's identity.

Of course, the blowing apparatus 100 further includes a controller electrically connected to both the recognition assembly 2 and the air flow forming assembly 3, and the controller controls the air flow forming assembly 3 to operate according to the user information obtained by the recognition assembly 2, specifically, the controller may adjust the operating parameters of the air flow forming assembly 3, so as to adjust the formed air flow modes, wherein different air flow modes include: high temperature high speed air flow, high temperature low speed air flow, normal temperature high speed air flow, normal temperature low speed air flow, low temperature high speed air flow or low temperature low speed air flow, etc.

Preferably, the airflow forming assembly 3 includes a fan 31 disposed within the duct structure 11, and the controller is operable to control the rotational speed of the fan 31 to thereby form airflows of different wind speeds such that the airflow experienced by the user is different. Specifically, the controller can control the rotation speed of the fan 31, and the controller adjusts the rotation speed of the fan 31 to be high speed, so that the formed air flow is also high-speed air flow; when the rotation speed of the fan 31 is adjusted to be low by the controller, the formed air flow is low-speed air flow, so that the controller can be matched with corresponding working modes according to different users, and the rotation speed of the fan 31 is adjusted to form different air output.

Further preferably, as shown in fig. 3, the airflow forming assembly 3 comprises a heating member 32 provided within the duct structure 11, and the controller is used to control the heating temperature of the heating member 32. Wherein the heating member 32 may be provided as a heating wire or a heating sheet, and the controller adjusts the heating amount of the heating member 32 by adjusting the heating power of the heating member 32 to adjust the temperature of the air flow formed by the air blowing apparatus 100. When the heating power of the heating element 32 is regulated to be high by the controller, the temperature of the air flow formed by the heating element 32 with larger heating value is high; when the controller adjusts the heating power of the heating element 32 to be low or not heating, the formed air flow is low or normal temperature air flow, so that the controller can be matched with corresponding working modes according to different users, and the power of the heating element 32 is adjusted to form different temperature air flows.

The blower 100 is further configured with a processor, and the processor is configured to receive the user information acquired by the identification component 2, and send control information to the controller after the processor matches the user information, so that the controller can adjust the blower 100 to enter a corresponding working mode according to the control information. For example, the recognition component 2 shoots image information of a user to send to the processor, the processor matches the user information to be a first old user after acquiring the image information, the processor further sends control information such as that the fan 31 is in a high-speed gear and the heating element 32 is in a high-temperature gear, so that working commands of the fan 31 and the heating element 32 are sent to the controller, the fan 31 is adjusted to enter the high-speed gear by the controller, and the heating element 32 is controlled to enter the high-temperature gear.

The processor may be a central processing unit (Central Processing Unit, CPU), other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, the processor being a control center of the computer device, and the various interfaces and lines connecting the various parts of the overall computer device.

In addition, the blower device 100 further includes a wireless module, such as Wifi, bluetooth or infrared module, through which the blower device 100 is connected to a remote terminal, which stores user information and/or visually displays an operation state of the blower device 100. The remote terminal can be mobile equipment such as a mobile phone, a tablet or a computer, and the user information on the air blowing equipment 100 and/or the running state of the air blowing equipment 100 can be transmitted to the user side through the wireless module, so that the user can know the working condition of the air blowing equipment 100 in real time, the man-machine interaction capability is stronger, the use is more intelligent, and the air blowing equipment is more interesting.

The processor may be integrated in the blower 100, and the blower 100 may select a remote terminal that is matched correspondingly, so that the blower 100 may be more suitable for a public use area, and has a wide facing user area, thereby having better matching performance.

In addition, the processor may also be disposed on a remote terminal outside the blower 100, and communicate with the blower 100 through a user remote terminal, for example, through a applet on the user remote terminal to scan a two-dimensional code on the blower 100, so that the remote terminal may be communicatively connected to the blower 100, and the blower 100 is more suitable for home use, so that the controllability of the blower 100 is better, and a better user use mode can be established.

Moreover, the screen display device of the air blowing device 100 visually displays the current user information and the corresponding operation state of the air blowing device 100 through the wireless module, and the user information using the air blowing device 100 and the working condition of the air blowing device 100 can be transmitted to the user remote terminal in real time through the wireless module, so that the user can know the use condition of the air blowing device 100 in time. Especially, when the child or the old misoperates the air blowing device 100, parents can find or remotely control in time, which is more beneficial to the safe use of the air blowing device 100.

Specifically, when the air blowing device 100 works, the air blowing device 100 is started first, the identity of a user is identified, and when the identity of the user is identified as an old user, the working mode corresponding to the old user is automatically matched, and the air blowing device 100 automatically adjusts the rotating speed of the fan 31 and the power of the heating element 32 to work; if the user is identified as a new user, setting up the use data of the user, recording the operation (such as temperature adjustment operation and speed adjustment operation) of the user in the use process, after the new user is used up, storing the use habit of the new user to form the working mode of the new user, so that when the new user is reused next time, the identity of the user can be identified as an old user after the new user is started up, and the working mode of the user can be automatically entered, without the need of manual adjustment of the user, the use is more convenient, and the air blowing device 100 is more humanized and intelligent.

It will be apparent that the embodiments described above are merely some, but not all, embodiments of the utility model. Based on the embodiments of the present utility model, those skilled in the art may make other different changes or modifications without making any creative effort, which shall fall within the protection scope of the present utility model.

Claims (20)

1. A blowing apparatus, characterized by comprising:

the device main body comprises an air duct structure and a handle structure connected with the air duct structure;

the identification component is arranged on the air duct structure and/or the handle structure and is used for acquiring user information;

the airflow forming assembly is arranged in the equipment main body and is electrically connected with the identification assembly, and the airflow forming assembly can adjust self parameters according to the user information acquired by the identification assembly so as to enter different working modes.

2. The blowing apparatus of claim 1, wherein the recognition assembly is provided on the air duct structure, the recognition assembly including a face recognition structure for acquiring facial information of the user.

3. The blowing apparatus of claim 2, wherein the air duct structure comprises a first end and a second end, wherein the first end is provided with an air outlet of the air duct structure, and the second end is an end of the air duct structure remote from the air outlet, wherein the face recognition structure is provided at the second end of the air duct structure.

4. A blowing apparatus as claimed in claim 3, wherein said second end is further provided with a screen display means.

5. The blowing apparatus of claim 4, wherein said face recognition structure is provided outside said screen display device.

6. The blowing apparatus of claim 4, wherein said face recognition structure is embedded within said screen display device.

7. The blowing apparatus of claim 4, wherein said face recognition structure comprises a camera, and said screen display means displays said acquired user information and said received operation mode.

8. The blowing apparatus of claim 1, wherein the handle structure comprises a handle body and a key disposed on the handle body, the identification assembly being disposed on the handle body.

9. The blowing apparatus of claim 8, wherein the recognition component comprises a face recognition structure for acquiring user face information.

10. The blowing apparatus of claim 8, wherein the identification component is configured as a fingerprint sensor, the fingerprint sensor being configured to correspond to the key.

11. The blowing apparatus of claim 8, wherein the identification assembly is provided as a pressure sensor disposed in correspondence with the handle body.

12. The blowing apparatus of claim 11, wherein said identification assembly is provided as a flexible capacitive sensor, said pressure sensor being provided in correspondence with said handle body.

13. The blower apparatus of any one of claims 1-12, further comprising a controller electrically coupled to both the identification assembly and the airflow-forming assembly, the controller controlling operation of the airflow-forming assembly based on user information obtained by the identification assembly.

14. The blower apparatus of claim 13, wherein the airflow forming assembly includes a fan disposed within the duct structure, the controller being configured to control a rotational speed of the fan.

15. The blower apparatus of claim 13, wherein the airflow forming assembly includes a heating element disposed within the duct structure, the controller being configured to control a heating temperature of the heating element.

16. The blowing device of claim 13, further comprising a processor configured to receive the user information obtained by the identification component, match the user information, and send control information to the controller, wherein the controller adjusts the blowing device to enter a corresponding operation mode according to the control information.

17. The air blowing apparatus of claim 16, further comprising a wireless module for connecting the air blowing apparatus with a remote terminal, the remote terminal storing the user information and/or visually displaying an operational status of the air blowing apparatus.

18. The blowing apparatus of claim 17, wherein the processor is integrated in the blowing apparatus.

19. The blower apparatus of claim 17, wherein the processor is disposed on the remote terminal external to the blower apparatus.

20. The blowing apparatus of claim 17, wherein a screen display device of the blowing apparatus visually displays current user information and an operation state of the corresponding blowing apparatus through the wireless module.