CN109571555B - Intelligent three-head beard removing device - Google Patents
Intelligent three-head beard removing device Download PDFInfo
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- CN109571555B CN109571555B CN201811492833.9A CN201811492833A CN109571555B CN 109571555 B CN109571555 B CN 109571555B CN 201811492833 A CN201811492833 A CN 201811492833A CN 109571555 B CN109571555 B CN 109571555B
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26B—HAND-HELD CUTTING TOOLS NOT OTHERWISE PROVIDED FOR
- B26B19/00—Clippers or shavers operating with a plurality of cutting edges, e.g. hair clippers, dry shavers
- B26B19/14—Clippers or shavers operating with a plurality of cutting edges, e.g. hair clippers, dry shavers of the rotary-cutter type; Cutting heads therefor; Cutters therefor
- B26B19/146—Complete cutting head being movable
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26B—HAND-HELD CUTTING TOOLS NOT OTHERWISE PROVIDED FOR
- B26B19/00—Clippers or shavers operating with a plurality of cutting edges, e.g. hair clippers, dry shavers
- B26B19/38—Details of, or accessories for, hair clippers, or dry shavers, e.g. housings, casings, grips, guards
- B26B19/3873—Electric features; Charging; Computing devices
- B26B19/388—Sensors; Control
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Abstract
The invention relates to an intelligent three-head type beard removing device, which comprises: the three-head type de-hu structure comprises a first rotating head, a second rotating head and a third rotating head, wherein a first blade is configured on the first rotating head, a second blade is configured on the second rotating head, and a third blade is configured on the third rotating head; the first blade rotating direction is the same as the third blade rotating direction, and the second blade rotating direction is opposite to the first blade rotating direction; the rotation of the third blade is half a rotation period after the rotation of the first blade; the three-head type shaver structure also comprises a mesh enclosure, a first rotating head, a second rotating head and a third rotating head are contained in the mesh enclosure, and the curved surface shape of the mesh enclosure is inosculated with the curved surfaces of the first blade, the second blade and the third blade when the mesh enclosure rotates; and the mode setting equipment is used for controlling the three-head type shaver structure to enter the sleep mode when receiving the female identification instruction. By the method, the intelligent level of the urheen removing equipment is improved.
Description
Technical Field
The invention relates to the field of three-head beard removing devices, in particular to an intelligent three-head beard removing device.
Background
The newly developed 4D intelligent floating technology is applied to the three-head shaver, and the novel technical electric shaver which is formed by continuously developing and evolving the cutter head through 1D unidirectional floating, 2D composite floating and 3D three-dimensional floating is also a technology which is improved, broken through and innovated and upgraded on the basis of the 3D three-dimensional floating technology. Compared with a three-dimensional floating cutter head of a 3D shaver, the floating effect of the cutter head of the 4D shaver is more comprehensive, three-dimensional and remarkable. The cutter head multi-dimensional space shaves, and the little accuse system of point, line, face, body float and skin feel more accords with the various types of chin of wide and narrow fat thin, and it is higher to shave efficiency.
Disclosure of Invention
In order to solve the technical problem that the intelligent level of the existing three-head beard remover cannot meet the requirements of users, the invention provides an intelligent three-head beard remover, wherein the centroid of an image is taken as the starting point of an Archimedes curve, one or more sub-images crossed with the Archimedes curve are taken as reference sub-images, the color fineness with the most frequent occurrence frequency in the color fineness of each reference sub-image is taken as the reference color fineness, and more importantly, whether fineness enhancement processing needs to be performed on the image is determined based on the reference color fineness; it is particularly critical that after the high-efficiency image processing, the sex of the current user is identified, so that the user refuses to go to the huhu when the user is identified as a female.
According to an aspect of the present invention, there is provided an intelligent three-head shaver, comprising:
three hair-types remove hu structure, including first rotating head, second rotating head and third rotating head, dispose first blade on the first rotating head, dispose the second blade on the second rotating head, dispose the third blade on the third rotating head.
More specifically, in the intelligent three-head beard remover: when the three-head type shaver structure is driven by electricity, the rotation direction of the first blade is the same as that of the third blade, and the rotation direction of the second blade is opposite to that of the first blade.
More specifically, in the intelligent three-head beard remover: when the three-head type shaver structure is driven by electricity, the rotation of the third blade lags behind the rotation of the first blade for half a rotation period.
More specifically, in the intelligent three-head beard remover: the three-head type de-hu structure further comprises a mesh enclosure for accommodating the first rotating head, the second rotating head and the third rotating head, wherein the curved surface shape of the mesh enclosure is inosculated with the curved surface of the first blade, the second blade and the third blade during rotation.
More specifically, in the intelligent three-head hair remover, the three-head hair remover further comprises:
the mode setting equipment is respectively connected with the three-head type fiddle structure and the signal distinguishing equipment and is used for controlling the three-head type fiddle structure to enter a sleep mode when a female distinguishing instruction is received; the mode setting equipment is also used for controlling the three-head type fiddle structure to enter a working mode when a male distinguishing instruction is received; the pinhole capturing device is arranged on the three-head moustache structure and is used for carrying out on-site capturing processing on the moustache scene of the three-head moustache structure so as to obtain a corresponding on-site moustache image; the interference analysis equipment is connected with the pinhole capture equipment and used for performing noise type analysis on the field fiddle removing image so as to obtain the number of noise types in the field fiddle removing image and performing average segmentation on the field fiddle removing image based on the number of the noise types so as to obtain sub-images with the same size; the positioning processing device is connected with the interference analysis device and used for receiving the sub-images with the same size, the centroid of the field de-hu image is used as the starting point of an Archimedes curve to draw the Archimedes curve in the field de-hu image, and one or more sub-images crossed with the Archimedes curve are used as reference sub-images; the parameter analysis equipment is connected with the positioning processing equipment and used for receiving the reference sub-images, determining the color fineness of the reference sub-images based on the pixel values of the pixels of each reference sub-image, and taking the color fineness with the most frequent occurrence frequency in the color fineness of each reference sub-image as the reference color fineness to output the reference color fineness; the fineness enhancement device is respectively connected with the interference analysis device and the parameter analysis device and is used for receiving the reference color fineness and executing fineness enhancement processing on the field de-hu image when the reference color fineness is less than or equal to the preset color fineness so as to obtain and output a corresponding fineness enhancement image; the equalization processing device is connected with the fineness enhancement device and is used for executing histogram equalization processing on the fineness enhancement image to obtain a corresponding histogram equalization image; the signal identification device is connected with the equalization processing device and is used for carrying out gender identification on the face area in the histogram equalization image based on image characteristic analysis so as to correspondingly send out a male identification instruction or a female identification instruction; wherein the fineness-enhancing apparatus is further configured to output the live de-hu image as a fineness-enhancing image when the reference color fineness is less than the preset color fineness; wherein the fineness enhancing apparatus includes a fineness receiving unit, an enhancement processing unit, and an image output unit, the enhancement processing unit being connected with the fineness receiving unit and the image output unit, respectively.
More specifically, in the intelligent three-head beard remover: in the interference analysis device, the smaller the number of noise types, the larger the sub-images obtained by performing average segmentation on the live fiduciary image.
Drawings
Embodiments of the invention will now be described with reference to the accompanying drawings, in which:
fig. 1 is a schematic external view of a three-head beard removing structure of an intelligent three-head beard remover, according to an embodiment of the invention.
Detailed Description
An embodiment of the intelligent three-head shaver according to the present invention will be described in detail with reference to the accompanying drawings.
The stress is concentrated to the independent floating structure of intelligence of three hair removal wares, but free rotation, and super wainscot more is fit for the male sex chin profile of various fat thin width, 360 all-round seamless regulation, possess the most perfect degree of accuracy and dynamics of shaving. The shaving force is constant, the balance physical power is not dispersed, the deflection of the precise force is controlled between 0.8N and 2.0N of friction force, each hair is sensed and detected in a micro-intelligent and whole-process manner, the friction between the skin and the front face of the cutter mesh is reduced, the comfort level is improved, and the hair follicle tissues of the skin are protected. The intelligent low-frequency oscillation conduction system massages the facial skin, so that aged cells on the surface layer of the skin fall off in time during shaving, blood circulation is promoted, and the activity of deep cells around the lips and in the facial area is enhanced.
The optimal comfortable force of the male skin feeling is constantly kept to be 120N, the cutter head adopts the soft rubber outer ring, the cutter head is smooth and smooth, compared with the common hard rubber outer ring, the resistance of the shaver in the operation on the skin can be reduced by 20N, the stress and the micro-damage of the skin are reduced, the shaving comfort degree is guaranteed, and the skin surface is prevented from being damaged.
In order to overcome the defects, the invention builds the intelligent three-head type beard removing device and can effectively solve the corresponding technical problem.
The intelligent three-head shaver shown according to the embodiment of the invention comprises:
the three-head type de-hu structure, as shown in fig. 1, includes a first rotating head, a second rotating head and a third rotating head, wherein the first rotating head is provided with a first blade, the second rotating head is provided with a second blade, and the third rotating head is provided with a third blade.
Next, the detailed structure of the intelligent three-head hair remover of the present invention will be further described.
In the intelligent three-head beard remover: when the three-head type shaver structure is driven by electricity, the rotation direction of the first blade is the same as that of the third blade, and the rotation direction of the second blade is opposite to that of the first blade.
In the intelligent three-head beard remover: when the three-head type shaver structure is driven by electricity, the rotation of the third blade lags behind the rotation of the first blade for half a rotation period.
In the intelligent three-head beard remover: the three-head type de-hu structure further comprises a mesh enclosure for accommodating the first rotating head, the second rotating head and the third rotating head, wherein the curved surface shape of the mesh enclosure is inosculated with the curved surface of the first blade, the second blade and the third blade during rotation.
In the three head of intellectuality remove beard ware, still include:
the mode setting equipment is respectively connected with the three-head type fiddle structure and the signal distinguishing equipment and is used for controlling the three-head type fiddle structure to enter a sleep mode when a female distinguishing instruction is received;
the mode setting equipment is also used for controlling the three-head type fiddle structure to enter a working mode when a male distinguishing instruction is received;
the pinhole capturing device is arranged on the three-head moustache structure and is used for carrying out on-site capturing processing on the moustache scene of the three-head moustache structure so as to obtain a corresponding on-site moustache image;
the interference analysis equipment is connected with the pinhole capture equipment and used for performing noise type analysis on the field fiddle removing image so as to obtain the number of noise types in the field fiddle removing image and performing average segmentation on the field fiddle removing image based on the number of the noise types so as to obtain sub-images with the same size;
the positioning processing device is connected with the interference analysis device and used for receiving the sub-images with the same size, the centroid of the field de-hu image is used as the starting point of an Archimedes curve to draw the Archimedes curve in the field de-hu image, and one or more sub-images crossed with the Archimedes curve are used as reference sub-images;
the parameter analysis equipment is connected with the positioning processing equipment and used for receiving the reference sub-images, determining the color fineness of the reference sub-images based on the pixel values of the pixels of each reference sub-image, and taking the color fineness with the most frequent occurrence frequency in the color fineness of each reference sub-image as the reference color fineness to output the reference color fineness;
the fineness enhancement device is respectively connected with the interference analysis device and the parameter analysis device and is used for receiving the reference color fineness and executing fineness enhancement processing on the field de-hu image when the reference color fineness is less than or equal to the preset color fineness so as to obtain and output a corresponding fineness enhancement image;
the equalization processing device is connected with the fineness enhancement device and is used for executing histogram equalization processing on the fineness enhancement image to obtain a corresponding histogram equalization image;
the signal identification device is connected with the equalization processing device and is used for carrying out gender identification on the face area in the histogram equalization image based on image characteristic analysis so as to correspondingly send out a male identification instruction or a female identification instruction;
wherein the fineness-enhancing apparatus is further configured to output the live de-hu image as a fineness-enhancing image when the reference color fineness is less than the preset color fineness;
wherein the fineness enhancing apparatus includes a fineness receiving unit, an enhancement processing unit, and an image output unit, the enhancement processing unit being connected with the fineness receiving unit and the image output unit, respectively.
In the intelligent three-head beard remover: in the interference analysis device, the smaller the number of noise types, the larger the sub-images obtained by performing average segmentation on the live fiduciary image.
In the three head of intellectuality remove beard ware, still include:
and the first analysis device is connected with the equalization processing device and is used for receiving the histogram equalization image and stripping a background image from the histogram equalization image based on a preset brightness threshold range so as to obtain a foreground image corresponding to the histogram equalization image.
In the three head of intellectuality remove beard ware, still include:
and the second analysis equipment is connected with the first analysis equipment and used for obtaining the uniformity of each region in the foreground image, sequencing the regions from small to large according to the uniformity, and taking the regions with the uniformity ranking at the top as a plurality of rich-content regions.
In the intelligent three-head beard remover: the stripping of the background image from the histogram equalization image based on a preset luminance threshold range comprises: and taking the pixel points with the brightness values within the preset brightness threshold range as background pixel points, and acquiring a background image based on each background pixel point in the histogram equalization image.
In the three head of intellectuality remove beard ware, still include:
the DDR3 storage device is connected with the first analysis device and is used for pre-storing the preset brightness threshold range;
wherein the respective power supply inputs of the first and second analytical devices are connected together.
In addition, the DDR3 memory device can be regarded as an improved version of DDR2, which has much the same thing, mainly adopting the FBGA packaging mode of 144Pin ball-Pin. However, the DDR3 core is improved: the DDR3 memory device adopts 0.11 micron production technology, and the power consumption is obviously reduced compared with the DDR 2. In addition, the DDR3 memory device adopts the "Pseudo Open Drain" interface technology, and as long as the voltage is proper, the DDR3 memory device can be directly supported by the display chip. Of course, the longer latency (CAS latency) of video memory particles has been a common problem of high frequency video memory, and DDR3 is no exception, with DDR3 having CAS latency of 5/6/7/8 compared to DDR2 of 3/4/5. Surprisingly, DDR3 has no dramatic technical advance over DDR2, but the performance advantage of DDR3 is still significant: (1) the power consumption and the heat generation are small: the training of DDR2 is absorbed, energy consumption and heat productivity are reduced on the basis of controlling cost, and DDR3 is more easily accepted by users and manufacturers. (2) The working frequency is higher: due to the fact that energy consumption is reduced, DDR3 can achieve higher working frequency, the defect of long delay time is made up to a certain degree, and meanwhile, the DDR3 can serve as one of selling points of the display card, which is already shown on the display card matched with the DDR3 storage device. (3) The overall cost of the display card is reduced: the DDR2 video memory granule specification is mostly 4M X32 bit, and the 128MB video memory commonly used with middle and high-end video cards needs 8. The DDR3 memory device is 8M X32 bit in specification, the capacity of a single particle is large, and a 128MB video memory can be formed by 4 particles. Therefore, the area of the display card PCB can be reduced, the cost can be effectively controlled, and in addition, the display memory power consumption can be further reduced after the particle number is reduced. (4) The universality is good: DDR3 has better compatibility with DDR2 than DDR is changed to DDR 2. Because the key characteristics such as pins, packaging and the like are not changed, the DDR3 storage equipment can be adopted by slightly modifying a display core matched with the DDR2 and a display card designed in a public edition, and the cost is greatly reduced for manufacturers. At present, DDR3 memory devices are widely used in most middle and high-end graphics cards.
By adopting the intelligent three-head beard remover, aiming at the technical problem that the intelligent level of the three-head beard remover in the prior art can not meet the requirements of users, one or more sub-images crossed with an Archimedes curve are taken as each reference sub-image by taking the centroid of the image as the starting point of the Archimedes curve, and the color fineness with the most frequent occurrence frequency in each color fineness of each reference sub-image is taken as the reference color fineness, more importantly, whether fineness enhancement processing needs to be performed on the image is determined based on the reference color fineness; it is particularly critical that after the high-efficiency image processing, the sex of the current user is identified, so that the user refuses to go to the huhu when the user is identified as a female.
It is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.
Claims (6)
1. An intelligent three-head shaver, which is characterized by comprising:
the three-head type de-hu structure comprises a first rotating head, a second rotating head and a third rotating head, wherein a first blade is configured on the first rotating head, a second blade is configured on the second rotating head, and a third blade is configured on the third rotating head;
when the three-head type shaver structure is driven by electricity, the first blade rotating direction is the same as the third blade rotating direction, and the second blade rotating direction is opposite to the first blade rotating direction;
when the three-head type shaver structure is driven by electricity, the rotation of the third blade lags behind the rotation of the first blade for half a rotation period;
the three-head type de-urheen structure further comprises a mesh enclosure, wherein the mesh enclosure is used for accommodating the first rotating head, the second rotating head and the third rotating head, and the curved surface shape of the mesh enclosure is matched with the curved surfaces of the first blade, the second blade and the third blade during rotation;
the mode setting equipment is respectively connected with the three-head type fiddle structure and the signal distinguishing equipment and is used for controlling the three-head type fiddle structure to enter a sleep mode when a female distinguishing instruction is received;
the mode setting equipment is also used for controlling the three-head type fiddle structure to enter a working mode when a male distinguishing instruction is received;
the pinhole capturing device is arranged on the three-head moustache structure and is used for carrying out on-site capturing processing on the moustache scene of the three-head moustache structure so as to obtain a corresponding on-site moustache image;
the interference analysis equipment is connected with the pinhole capture equipment and used for performing noise type analysis on the field fiddle removing image so as to obtain the number of noise types in the field fiddle removing image and performing average segmentation on the field fiddle removing image based on the number of the noise types so as to obtain sub-images with the same size;
the positioning processing device is connected with the interference analysis device and used for receiving the sub-images with the same size, the centroid of the field de-hu image is used as the starting point of an Archimedes curve to draw the Archimedes curve in the field de-hu image, and one or more sub-images crossed with the Archimedes curve are used as reference sub-images;
the parameter analysis equipment is connected with the positioning processing equipment and used for receiving the reference sub-images, determining the color fineness of the reference sub-images based on the pixel values of the pixels of each reference sub-image, and taking the color fineness with the most frequent occurrence frequency in the color fineness of each reference sub-image as the reference color fineness to output the reference color fineness;
the fineness enhancement device is respectively connected with the interference analysis device and the parameter analysis device and is used for receiving the reference color fineness and executing fineness enhancement processing on the field de-hu image when the reference color fineness is less than or equal to the preset color fineness so as to obtain and output a corresponding fineness enhancement image;
the equalization processing device is connected with the fineness enhancement device and is used for executing histogram equalization processing on the fineness enhancement image to obtain a corresponding histogram equalization image;
the signal identification device is connected with the equalization processing device and is used for carrying out gender identification on the face area in the histogram equalization image based on image characteristic analysis so as to correspondingly send out a male identification instruction or a female identification instruction;
wherein the fineness-enhancing apparatus is further configured to output the live de-hu image as a fineness-enhancing image when the reference color fineness is greater than the preset color fineness;
wherein the fineness enhancing apparatus includes a fineness receiving unit, an enhancement processing unit, and an image output unit, the enhancement processing unit being connected with the fineness receiving unit and the image output unit, respectively.
2. An intelligent, three-headed moustache as defined in claim 1, wherein:
in the interference analysis device, the smaller the number of noise types, the larger the sub-images obtained by performing average segmentation on the live fiduciary image.
3. The intelligent, three-headed moustache as defined in claim 2, wherein said moustache further comprises:
and the first analysis device is connected with the equalization processing device and is used for receiving the histogram equalization image and stripping a background image from the histogram equalization image based on a preset brightness threshold range so as to obtain a foreground image corresponding to the histogram equalization image.
4. An intelligent, three-headed moustache as defined in claim 3, said moustache further comprising:
and the second analysis equipment is connected with the first analysis equipment and used for obtaining the uniformity of each region in the foreground image, sequencing the regions from small to large according to the uniformity, and taking the regions with the uniformity ranking at the top as a plurality of rich-content regions.
5. An intelligent, three-headed moustache as defined in claim 4, wherein:
the stripping of the background image from the histogram equalization image based on a preset luminance threshold range comprises: and taking the pixel points with the brightness values within the preset brightness threshold range as background pixel points, and acquiring a background image based on each background pixel point in the histogram equalization image.
6. The intelligent, three-headed moustache as defined in claim 5, wherein said moustache further comprises:
the DDR3 storage device is connected with the first analysis device and is used for pre-storing the preset brightness threshold range;
wherein the respective power supply inputs of the first and second analytical devices are connected together.
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JPS59184778U (en) * | 1983-05-25 | 1984-12-08 | フイリツプス工業振興株式会社 | automatic operating electric shaver |
FR2749793B1 (en) * | 1996-06-12 | 1998-08-28 | Philips Electronics Nv | ELECTRIC RAZOR HAVING A FRICTION SENSOR AND SENSOR |
CN101499018A (en) * | 2008-01-28 | 2009-08-05 | 联想(北京)有限公司 | Data processing unit and method |
CN202922611U (en) * | 2012-10-29 | 2013-05-08 | 珠海新秀丽家居用品有限公司 | Novel rotating type razor by utilizing magnetic repulsive force for achieving floating of razor head |
CN108058190B (en) * | 2018-02-09 | 2023-08-01 | 温州实力科技有限公司 | Shaver head assembly |
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