阅读说明：本技术 一种美甲贴片工艺 (Nail-beautifying pasting process ) 是由 朱顶广 于 2021-09-08 设计创作，主要内容包括：本发明涉及美甲技术领域,具体公开了一种美甲贴片工艺,包括手指建模、甲片制造和甲片贴合；本发明提供的工艺可通过扫描仪快速扫描客户指甲地方式建立指甲虚拟模型并反向生成指甲贴片模型,有效确保了指甲贴片能够与客户指甲的贴合度,避免翘曲等；本发明提供的装置在进行光敏甲片固化操作时通过控制主板控制固化光照的参数,方便用户进行操作,整个过程中无需人工操作,具有较高的工作效率；能够有效解决传统美甲在操作的过程中工序繁琐等问题；具有较高的实用价值和推广价值。(The invention relates to the technical field of nail art, and particularly discloses a nail art, which comprises a finger modeling, a nail manufacturing and a nail attaching; according to the process provided by the invention, the scanner can be used for rapidly scanning the fingernails of the customers to establish the virtual fingernail model and reversely generate the fingernail patch model, so that the fitting degree of the fingernail patches and the fingernails of the customers is effectively ensured, and warping and the like are avoided; the device provided by the invention controls the curing illumination parameters through the control mainboard when the photosensitive nail plate curing operation is carried out, so that the operation is convenient for a user, the manual operation is not needed in the whole process, and the working efficiency is higher; the problems that the traditional nail art is complicated in working procedures in the operation process and the like can be effectively solved; has higher practical value and popularization value.)

1. A nail patch art is characterized in that; comprises the following steps;

s1, modeling a finger; pressing the photosensitive colloid on the finger position of a client, irradiating the photosensitive colloid by using illumination equipment to solidify the photosensitive colloid, taking down the photosensitive colloid, building a finger model by using resin and gypsum mold turnover, and scanning by using a scanner to obtain a virtual finger model;

s2, manufacturing a first piece; establishing a virtual nail model matched with the finger virtual model by using the finger virtual model, printing the physical nail model by using 3D printing equipment, performing rubber mold turning operation after printing the physical nail model, pouring photosensitive resin into a rubber film after the rubber film turning operation is completed, putting the rubber film containing the photosensitive resin into a curing molding machine for curing treatment, taking out the cured rubber film to obtain a photosensitive nail model, and performing paint spraying and carving treatment on the photosensitive nail model to finally obtain a photosensitive nail with rich layering;

s3, laminating the armor plate; the photosensitive gel is squeezed between the photosensitive nail plate and a customer nail, the photosensitive nail plate is uniformly pressed to enable the photosensitive gel to completely fill a gap between the photosensitive nail plate and the customer nail, the photosensitive nail plate is taken down after the photosensitive gel is solidified by utilizing light irradiation equipment, and the photosensitive nail plate is pressed to enable the photosensitive gel to be mutually bonded and attached with the solidified photosensitive gel after the double-sided adhesive is attached to the inner surface of the photosensitive nail plate.

2. A nail patch process according to claim 1, wherein; in S2, the cure time of the cure molder is less than 300S.

3. A nail patch process according to claim 1, wherein; in S2, a bright powder material is synthesized before the photosensitive resin is poured into the mold.

4. A nail patch process according to claim 1, wherein; the curing and forming machine comprises a base (100) and an illumination assembly;

the upper end of the base (100) is provided with a support frame (200) which is arranged in an inverted U shape, and the upper end of the support frame (200) is connected with a mobile station (300) which can vertically move up and down; the illumination subassembly is including relative arrangement's last solidification platform (400) and lower solidification platform (500) from top to bottom, go up solidification platform (400) and link to each other with mobile station (300), lower solidification platform (500) are fixed in base (100) upper surface, go up solidification platform (400) and the relative surface of lower solidification platform (500) and be equipped with illumination groove (600), be equipped with illumination module in illumination groove (600), illumination module is connected with the control mainboard of locating in base (100).

5. A nail patch process according to claim 4, wherein; still include the UV solidification module, the UV solidification module is including solidification base (1000), solidification base (1000) front end is equipped with curing tank (1010), is equipped with relative arrangement's UV lamp plate (1100) in curing tank (1010), UV lamp plate (1100) are connected with controller (1300), be equipped with circulating water cooling module (1200) in UV lamp plate (1100), circulating water cooling module (1200) are connected to in water-cooling tank (1020) of locating the interior of solidification base (1000) through the cooling tube.

6. A nail patch process according to claim 4, wherein; and a reflecting panel is arranged on the inner wall of the illumination groove (600).

7. A nail patch process according to claim 4, wherein; the mobile station (300) is connected with the middle part of the upper end of the support frame (200) through a telescopic cylinder (700).

8. A nail patch process according to claim 4, wherein; the front end of the base (100) is provided with a timing control module (800) and an illumination intensity adjusting module (900) which are connected with a control main board.

Technical Field

The invention relates to the technical field of nail art, in particular to a nail art.

Background

The nail art design is also called as nail art design, the nail art is beautified according to the hand shape, nail shape, skin color and color matching and requirements of a guest, the nail art is disinfected, cleaned, nursed, maintained, decorated and beautified, the nail art has the characteristic of diversified representation forms, can highlight the uniqueness, beauty and slenderness of a hand, can also be used for hand nursing, and the living level of people is also continuously improved along with the continuous development of society, and more women can be used for nail art.

Traditional first beautiful is loaded down with trivial details at the in-process of operation, and field operation, customer latency is longer in the process, the first face of preparation first beautiful in-process need be polished, can produce many dusts in the air, let customer inhale easily, some fixed first types that are difficult to process lead to manual operation hardly to make fine arc parabola on the first face, the extension of nail needs a lot of complicated workers to basically all need 1 hour to accomplish in traditional first beautiful, thereby the efficiency of first beautiful operation has been reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the first purpose of the invention is to provide a nail art, which is convenient to operate and high in use stability; and the problems that the traditional nail art is complicated in working procedures and easy to generate dust pollution in the operation process can be solved.

The technical scheme adopted by the invention is as follows: a nail patch art comprises the following steps;

s1, modeling a finger; pressing the photosensitive colloid on the finger position of a client, irradiating the photosensitive colloid by using illumination equipment to solidify the photosensitive colloid, taking down the photosensitive colloid, building a finger model by using resin and gypsum mold turnover, and scanning by using a scanner to obtain a virtual finger model.

S2, manufacturing a first piece; the method comprises the steps of establishing a virtual nail model matched with the finger virtual model by using the finger virtual model, printing the physical nail model by using 3D printing equipment, turning a rubber mold after printing the physical nail model, pouring photosensitive resin into the rubber film after the mold turning is finished, putting the rubber film containing the photosensitive resin into a curing molding machine for curing, taking out the cured rubber film to obtain a photosensitive nail model, and finally obtaining the photosensitive nail with rich layering after painting and carving the photosensitive nail model.

S3, laminating the armor plate; the photosensitive gel is squeezed between the photosensitive nail plate and a customer nail, the photosensitive nail plate is uniformly pressed to enable the photosensitive gel to completely fill a gap between the photosensitive nail plate and the customer nail, the photosensitive nail plate is taken down after the photosensitive gel is solidified by utilizing light irradiation equipment, and the photosensitive nail plate is pressed to enable the photosensitive gel to be mutually bonded and attached with the solidified photosensitive gel after the double-sided adhesive is attached to the inner surface of the photosensitive nail plate.

In the process of the steps, the mode that the nail model is obtained through the photosensitive adhesive and is turned over by using the resin and the plaster is more convenient and quicker, the nail model is clean and pollution-free, no use space limitation exists, and the obtained finger model is high in precision, so that the precision of the obtained finger virtual model is ensured; the corresponding virtual nail model is matched according to the virtual model parameters, and the entity nail sheet can be printed, so that the fitting degree of the nail sheet and the nail of a customer is effectively ensured, and warping and the like are avoided; the photosensitive nail plate with good shape, rich layering and high transparency can be obtained by a photosensitive resin reverse die mode, and the photosensitive nail plate has higher aesthetic degree through paint spraying and carving operations; in the step 3, the photosensitive gel is adopted to fill the gap between the nail patch and a customer, so that the effect of 100% fitting of the nail patch and the nail is achieved; after the photosensitive gel is cured under the illumination condition, the nail patch can be ensured to be stably attached to the nail, and finally the firmness degree of the patch is improved through the bonding mode of the double-sided patch; the nail art processing method avoids dust and the like generated in the nail art process, and the whole process can obviously save nail art processing time.

Further, in S2, the curing time of the curing molding machine is less than 300S.

Further, in S2, a bright powder material is synthesized before the photosensitive resin is poured into the mold.

Another object of the present invention is to provide a photosensitive nail curing molding machine, which comprises a base and a lighting assembly; the upper end of the base is provided with a support frame which is arranged in an inverted U shape, and the upper end of the support frame is connected with a mobile station which can vertically move up and down; the illumination subassembly includes relative arrangement's last solidification platform and lower solidification platform from top to bottom, go up the solidification platform and link to each other with the mobile station, lower solidification platform is fixed in the base upper surface, go up the solidification platform and be equipped with the illumination groove with the relative surface of lower solidification platform, the illumination inslot is equipped with illumination module, illumination module is connected with the control mainboard of locating in the base.

In the technical scheme, when the photosensitive nail plate is cured; the glue film poured with the photosensitive resin is placed into the illumination groove, the upper curing table moves downwards and abuts against the lower curing table, the illumination groove is sealed, the photosensitive resin in the glue film can be cured gradually under the illumination condition, the strength and toughness of the photosensitive nail plate are improved, the main board can be controlled to cure the illuminated parameters in the curing process, and convenience is brought to a user to operate.

Further, still include the UV solidification module, the UV solidification module is including solidifying the base, solidification base front end is equipped with the curing bath, is equipped with the UV lamp plate of mutual disposition in the curing bath, the UV lamp plate is connected with the controller, be equipped with the circulating water cooling module in the UV lamp plate, the circulating water cooling module is connected to the water-cooling tank of locating the interior of solidifying the base through the cooling tube.

Furthermore, the inner wall of the illumination groove is provided with a reflection panel.

Furthermore, the mobile station is connected with the middle part of the upper end of the support frame through a telescopic cylinder.

Furthermore, the front end of the base is provided with a timing control module and an illumination intensity adjusting module which are connected with the control main board.

The invention has the beneficial effects that: according to the process provided by the invention, the scanner can be used for rapidly scanning the fingernails of the customers to establish the virtual fingernail model and reversely generate the fingernail patch model, so that the fitting degree of the fingernail patches and the fingernails of the customers is effectively ensured, and warping and the like are avoided; the nail patch can be stably attached to the nail and a gap can be avoided by adopting the double-sided adhesive tape and the photosensitive gel for adhesion; when the device provided by the invention is used for carrying out curing operation on the photosensitive nail plate; the photosensitive resin in the plastic mold can be gradually cured under the illumination condition, the curing illumination parameters are controlled by the control main board, the operation of a user is facilitated, the manual operation is not needed in the whole process, and the working efficiency is higher; the problems that the traditional nail art is complicated in working procedures in the operation process and the like can be effectively solved; has higher practical value and popularization value.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a structural diagram of a photosensitive nail plate curing molding machine according to a second embodiment of the present invention.

Fig. 2 is a structural diagram of a UV curing module according to a second embodiment of the present invention.

Reference numerals; the curing device comprises a base 100, a support frame 200, a mobile station 300, an upper curing table 400, a lower curing table 500, an illumination groove 600, a telescopic cylinder 700, a timing control module 800, an illumination intensity adjusting module 900, a curing base 1000, a curing groove 1010, a UV lamp panel 1100, a circulating water cooling module 1200, a water cooling groove interior 1020 and a controller 1300.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

Example one

The embodiment provides a nail patch process, which comprises the following steps;

step 1, modeling a finger; pressing the photosensitive colloid on the finger position of a client, irradiating the photosensitive colloid by using illumination equipment to solidify the photosensitive colloid, taking down the photosensitive colloid, building a finger model by using resin and gypsum mold turnover, and scanning by using a scanner to obtain a virtual finger model; because the photosensitive adhesive has elasticity, the photosensitive adhesive can restore the original shape after being cured and elastically deforms, so that the model is prevented from generating errors when the finger is taken out, and the finger model with higher accuracy can be obtained by adopting resin and gypsum in the mold turnover manufacturing process.

Step 2, manufacturing the nail plate; the method comprises the steps of establishing a virtual nail model matched with the finger virtual model by using the finger virtual model, printing the physical nail model by using 3D printing equipment, turning a rubber mold after printing the physical nail model, pouring photosensitive resin into the rubber film after the mold turning is finished, putting the rubber film containing the photosensitive resin into a curing molding machine for curing, taking out the cured rubber film to obtain a photosensitive nail model, and finally obtaining the photosensitive nail with rich layering after painting and carving the photosensitive nail model.

Step 3, laminating the nail pieces; the photosensitive gel is squeezed between the photosensitive nail plate and a customer nail, the photosensitive nail plate is uniformly pressed to enable the photosensitive gel to completely fill a gap between the photosensitive nail plate and the customer nail, the photosensitive nail plate is taken down after the photosensitive gel is solidified by utilizing light irradiation equipment, and the photosensitive nail plate is pressed to enable the photosensitive gel to be mutually bonded and attached with the solidified photosensitive gel after the double-sided adhesive is attached to the inner surface of the photosensitive nail plate.

In the process of the steps, the mode that the nail model is obtained through the photosensitive adhesive and is turned over by using the resin and the plaster is more convenient and quicker, the nail model is clean and pollution-free, no use space limitation exists, and the obtained finger model is high in precision, so that the precision of the obtained finger virtual model is ensured; the corresponding virtual nail model is matched according to the virtual model parameters, and the entity nail sheet can be printed, so that the fitting degree of the nail sheet and the nail of a customer is effectively ensured, and warping and the like are avoided; the photosensitive nail plate with good shape, rich layering and high transparency can be obtained by a photosensitive resin reverse die mode, and the photosensitive nail plate has higher aesthetic degree through paint spraying and carving operations; in the step 3, the photosensitive gel is adopted to fill the gap between the nail patch and a customer, so that the effect of 100% fitting of the nail patch and the nail is achieved; after the photosensitive gel is cured under the illumination condition, the nail patch can be ensured to be stably attached to the nail, and finally the firmness degree of the patch is improved through the bonding mode of the double-sided patch; the nail art processing method avoids dust and the like generated in the nail art process, and the whole process can obviously save nail art processing time.

In step 2, the curing time of the curing molding machine is less than 300S. Therefore, after the molding treatment of the curing molding machine, the strength and the toughness of the photosensitive nail plate can be improved, and the excessive curing of the photosensitive nail plate can be avoided within 300 s; in addition, in step 2, a bright powder material is synthesized before the photosensitive resin is poured into the rubber mold. The layering of the photosensitive nail plate can be improved by adding the bright powder material, and the nail plate is more attractive visually.

Example two

As shown in fig. 1, the present embodiment provides a photosensitive nail curing molding machine using the first usage of the embodiment, which includes a base 100 and a light assembly; the upper end of the base 100 is provided with a support frame 200 which is arranged in an inverted U shape, and the upper end of the support frame 200 is connected with a mobile station 300 which can vertically move up and down; the illumination subassembly includes relative arrangement's upper curing platform 400 and lower curing platform 500 from top to bottom, upper curing platform 400 links to each other with mobile station 300, and lower curing platform 500 is fixed in the base 100 upper surface, the surface that upper curing platform 400 and lower curing platform 500 are relative is equipped with illumination groove 600, is equipped with the illumination module in the illumination groove 600, the illumination module is connected with the control mainboard of locating in the base 100. In this embodiment, when the photosensitive nail plate is subjected to the curing operation; the glued membrane that will pour into photosensitive resin is put into illumination groove 600 in, goes up curing table 400 downstream and offsets with curing table 500 down the back, and illumination groove 600 obtains sealing, and photosensitive resin in the glued membrane can solidify gradually under the illumination condition to improve photosensitive first piece intensity and toughness, accessible control mainboard control solidification irradiant parameter in curing process, convenience of customers operates.

As shown in fig. 2, the curing molding machine in this embodiment further includes a UV curing module, the UV curing module includes a curing base 1000, the curing base 1000 front end is equipped with a curing tank 1010, a UV lamp panel 1100 arranged oppositely is provided in the curing tank 1010, the UV lamp panel 1100 is connected with a controller 1300, a circulating water cooling module 1200 is provided in the UV lamp panel 1100, and the circulating water cooling module 1200 is connected to a water cooling tank 1020 provided in the curing base 1000 through a cooling pipe. In practical application, after the photosensitive nail plate is produced and molded, in order to improve the attaching effect, the photosensitive nail plate needs to be manually softened and then trimmed; after being manually trimmed, the photosensitive armor plate is placed between two UV lamp plates, and UV rays are irradiated through the UV lamp plates to enable the armor plate to be rapidly cured; because the UV lamp plate can produce a large amount of heats during the operation, dispel the heat to equipment through circulation water cooling module to avoid overheated damage. The UV lamp panel controls the illumination intensity through the controller, thereby ensuring the rapid curing of the nail plates. And (4) after UV light curing, carrying out final curing molding by a curing molding machine.

As shown in fig. 1, in order to improve the light efficiency, the present embodiment provides a reflective panel on the inner wall of the light groove 600. The arrangement of the reflective panel enables the lower curing table 500 and the upper curing table 400 to form an illumination groove 600 with a reflective surface; the irradiation surface of the light to the photosensitive nail plate is improved, so that the curing efficiency is improved. Since the upper curing station 400 needs to move up and down to open and close the illumination slot 600, the mobile station 300 is connected to the middle of the upper end of the supporting frame 200 through the telescopic cylinder 700 in this embodiment. When the telescopic cylinder 700 is operated, the movable stage 300 can be driven to move up and down, so that the upper curing stage 400 moves up and down, and the illumination slot 600 can be conveniently opened. In practical application, the light curing operation time and the light intensity required by the photosensitive nails with different specifications are different; in this embodiment, a timing control module 800 and an illumination intensity adjusting module 900 connected to the control motherboard are disposed at the front end of the base 100. Timing control module 800 can adjust illumination of illumination module and it is long, and the intensity of illumination of the light.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.