MANICURE CURING DEVICE

Abstract

A manicure curing device relating the technical field of manicure is provided, including a housing having an internal cavity, which has an upper surface, a left surface, a right surface and a lateral opening for entry and exit of a target; a first curing lamp module disposed on the upper surface and provided with a plurality of first curing lamps that are independently controlled, in which each of the plurality of first curing lamps irradiates a different position to cover a lower part corresponding to the upper surface; an image acquisition module disposed on the upper surface and configured to acquire a target image; and a processing module correspondingly connected to the image acquisition module and the first curing lamp module for extracting a nail image from the target image and lighting the first curing lamp for irradiating an area where the nail image is located.

Description

FIELD OF THE DISCLOSURE

The present disclosure relates to the technical field of manicure, and more particularly to a manicure curing device.

BACKGROUND OF THE DISCLOSURE

Manicure curing device, also known as manicure lamp or manicure phototherapy lamp, is specially used for drying and curing nail polish glue and phototherapy glue in the manicure process. When customers go to a nail salon to get a manicure and dry curing nail polish or nail phototherapy glue, they will obviously feel the discomfort of ultraviolet rays irradiating the back of their hands. Customers are worried that excessive exposure to ultraviolet rays will cause skin damage and increase the risk of skin cancer.

Based on this, it is necessary to improve the manicure curing device.

SUMMARY OF THE DISCLOSURE

The purpose of the present disclosure is to provide a manicure curing device that accurately irradiates ultraviolet light to the nail surface area, which has the advantages of reducing energy consumption and greatly reducing the skin's exposure to ultraviolet irradiation.

In order to achieve the above-mentioned purpose, the present disclosure provides a manicure curing device, including: a housing having an internal cavity, which has an upper surface, a left surface, a right surface and a lateral opening for entry and exit of a target; a first curing lamp module disposed on the upper surface and provided with a plurality of first curing lamps that are independently controlled, in which each of the plurality of first curing lamps irradiates a different position to cover a lower part corresponding to the upper surface; an image acquisition module disposed on the upper surface and configured to acquire a target image; and a processing module correspondingly connected to the image acquisition module and the first curing lamp module for extracting a nail image from the target image and lighting the first curing lamp for irradiating an area where the nail image is located.

In preferred embodiments, the manicure curing device further includes: a second curing lamp module disposed on the left surface, and a third curing lamp module disposed on the right surface, in which the second curing lamp module is provided with a plurality of second curing lamps that are independently controlled, and the third curing lamp module is provided with a plurality of third curing lamps that are independently controlled, each of the second curing lamp module and the third curing lamp module is connected to the processing module, and the processing module is configured to extract a thumb nail image from the target image and lighting the second curing lamp and/or the third curing lamp for irradiating an area where the thumb nail image is located.

In preferred embodiments, an angle between a plane where the second curing lamp module is located and a lower surface of the internal cavity is an acute angle, and an angle between a plane where the third curing lamp module is located and the lower surface of the internal cavity is another acute angle.

In preferred embodiments, the manicure curing device further includes: a partition vertically disposed in the housing to divide the internal cavity into a left cavity and a right cavity, in which a fourth curing lamp is provided on a left side of the partition, a fifth curing lamp module is provided on a right side of the partition, the fourth curing lamp module is provided with a plurality of fourth curing lamps that are independently controlled, the fifth curing lamp module is provided with a plurality of fifth curing lamps that are independently controlled, each of the fourth curing lamp module and the fifth curing lamp module is connected to the processing module, and the processing module is configured to extract a thumb nail image from the target image and lighting the fourth curing lamp and/or the fifth curing lamp for irradiating an area where the thumb nail image is located.

In preferred embodiments, an angle between a plane where the fourth curing lamp module is located and a lower surface of the internal cavity is an acute angle, and an angle between a plane where the fifth curing lamp module is located and the lower surface of the internal cavity is another acute angle.

In preferred embodiments, the housing includes: an inner housing having the inner cavity, and an outer housing disposed on an upper side of the inner housing.

In preferred embodiments, a top plate of the inner housing is arranged in a grid-like structure, the first curing lamp module is disposed between the inner housing and the outer housing, an irradiation end of the first curing lamp module irradiates a user's nail through the grid-like structure; and the first curing lamp module includes: a plurality of first lenses disposed at the grid-like structure and having protruding ends passing through hollow spaces of the grid-like structure, a first grid plate fixedly disposed on an upper side of the grid-like structure to fix the plurality of first lenses in the grid-like structure, and a first lamp panel disposed on an upper side of the first grid plate and a plurality of lamp beads of the first lamp panel corresponding to the hollow spaces of the first grid plate.

In preferred embodiments, the second curing lamp module includes: a second grid plate disposed on a left side of the inner housing, a plurality of second lenses disposed on the second grid plate and having protruding ends passing through hollow spaces of the second grid plate, a third grid plate disposed on the inner housing and located on a left side of the second grid plate to fix the plurality of second lenses in the second grid plate, and a second lamp panel disposed on a left side of the third grid plate and a plurality of lamp beads of the second lamp panel corresponding to the hollow spaces of the third grid plate.

In preferred embodiments, a battery compartment that is upwardly protruding and flat is disposed at a rear side of the inner housing, an opening is provided below the battery compartment, and a battery box is detachably disposed in the battery compartment.

In preferred embodiments, a guide structure is provided between the battery compartment and the battery box so that the battery box enters the battery compartment to a predetermined position to carry out conduction.

Compared with the existing technology, the present disclosure has at least the following beneficial effects:

In the present disclosure, the image acquisition module, the processing module and the first curing lamps are provided. When used, the image acquisition module acquires the image of the user's fingers or toes, and the processing module extracts the nail image from the image and controls the first curing lamp corresponding to an area to turn on to prevent irradiation to areas other than nails. Only 10% to 20% of a power of an ordinary manicure curing device can be used to achieve the same curing effect, which will no longer cause discomfort and damage to the skin placed in the nail curing device, reduce the risk of skin cancer, decrease discomfort during the nail curing process, and improve customer satisfaction.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to explain the embodiments of the present disclosure or the technical solutions in the prior art more clearly, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are only some embodiments of the present disclosure. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without exerting any creative effort.

FIG. 1 is a schematic diagram of a module block diagram of the present disclosure;

FIG. 2 is a schematic structural diagram of the present disclosure from one perspective;

FIG. 3 is a schematic structural diagram of the present disclosure from another perspective;

FIG. 4 is a schematic structural diagram of a bottom plate taken out in the present disclosure;

FIG. 5 is a schematic exploded structural diagram of a first curing lamp module, an inner housing and an outer housing;

FIG. 6 is a schematic exploded structural diagram of the first curing lamp module, the inner housing and the outer housing from another perspective;

FIG. 7 is a schematic exploded structural diagram of a second curing lamp module and the inner housing;

FIG. 8 is a schematic structural diagram of a battery box being taken out of a battery compartment;

FIG. 9 is an enlarged view of part A in FIG. 8;

FIG. 10 is an enlarged view of part B in FIG. 8;

FIG. 11 is a partial structural diagram of the battery box;

FIG. 12 is an enlarged view of part C in FIG. 11;

FIG. 13 is a schematic exploded diagram of a part of the battery box structure;

FIG. 14 is an enlarged view of part D in FIG. 13;

FIG. 15 is a schematic module block diagram according to another embodiment of the present disclosure; and

FIG. 16 is a schematic structural diagram of another implementation of the present disclosure.

Reference numerals: 100, housing; 110, inner housing; 111, internal cavity; 111a, upper surface; 111b, left surface; 111c, right surface; 111d, lower surface; 112, grid-like structure; 113, battery compartment; 113a, insertion hole; 114, partition; 114a, left side; 114b, right side; 115, left cavity; 116, right cavity; 120, outer housing; 130, bottom plate; 200, first curing lamp module; 210, first lens; 220, first grid plate; 230, first light panel; 300, image acquisition module; 400, processing module; 500, second curing lamp module; 510, second grid plate; 520, second lens; 530, third grid plate; 540, second light panel; 600, third curing lamp module; 700, battery box; 710, groove body; 720, main hole body; 730, secondary hole body; 740, baffle; 750, switch plate; 760, hook; 770, lock tongue; 780, return spring; 790, protruding corner; 800, fourth curing lamp module; 900, fifth curing lamp module.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

The present disclosure will be described in detail below in conjunction with drawings and examples.

This specific embodiment is only an explanation of the present disclosure and not a limitation of the present disclosure. Those skilled in the art can make modifications to the present embodiment without creative contribution as needed after reading this description, but as long as they are within the scope of the claims of the present disclosure, they are protected by the patent law.

Embodiment 1: As shown in FIG. 1 and FIG. 2, the present embodiment relates to a manicure curing device, including a housing 100, a first curing lamp module 200, an image acquisition module 300 and a processing module 400.

The housing 100 has an internal cavity 111, and the internal cavity 111 has an upper surface 111a, a left surface 111b, a right surface 111c, and a lateral opening for entry and exit of a target. Specifically, in the present embodiment, a bottom plate 130 is provided on a lower side of the housing 100 to form the lower surface 111d of the internal cavity 111. In some embodiments, the bottom plate 130 may not be provided.

The first curing lamp module 200 is disposed on the upper surface 111a of the inner cavity 111. The first curing lamp module 200 is provided with a plurality of first curing lamps that are independently controlled, and each first curing lamp irradiates a different position to cover a lower part corresponding to the upper surface 111a. The image acquisition module 300 is also disposed on the upper surface 111a for acquiring a target image. The processing module 400 is correspondingly connected to the image acquisition module 300 and the first curing lamp module 200, and is used to extract the nail image from the target image, and light the first curing lamp to irradiate an area where the nail image is located.

The lower surface 111d of the internal cavity 111 is divided into a plurality of areas, and each first curing lamp irradiates a corresponding one of the plurality of areas. Taking fingernail curing as an example, during use, the image acquisition module 300 collects images of user's fingers extending into the internal cavity 111, and the processing module 400 extracts the nail image from the images, and controls the corresponding first curing lamp to turn on according to the area where the nail image is located. The use of this manicure curing device can achieve ultraviolet irradiation of only the nail area, which can effectively reduce the damage of ultraviolet light to the hand skin and can also reduce the loss and waste of ultraviolet energy, making full use of ultraviolet energy.

As a preferred embodiment, as shown in FIGS. 1 to 4, the manicure curing device further includes a second curing lamp module 500 disposed on the left surface 111b, and a third curing lamp module 600 disposed on the right surface 111c. In order for the second curing lamp module 500 and the third curing lamp module 600 to better irradiate the thumb nail, when the palm is placed flat, the thumb nail does not face vertically upward, but is more inclined to a side.

The second curing lamp module 500 is provided with a plurality of second curing lamps that are independently controlled, and the third curing lamp module 600 is provided with a plurality of third curing lamps that are independently controlled. Each of the second curing lamp module 500 and the third curing lamp module 600 is connected to the processing module 400. The processing module 400 extracts the thumb nail image from the target image, and lights the second curing lamp and/or the third curing lamp for irradiating an area where the thumb nail image is located.

Taking the curing of fingernails on the left hand as an example, at this time, the third curing lamp module 600 faces the thumb nail of the left hand. When in use, the image acquisition module 300 collects an image of the user's fingers extending into the internal cavity 111, and the processing module 400 extracts the thumb nail image and the nail image of the remaining four fingers from the image, and generates the image according to the nail image of the remaining four fingers. According to the area where the thumb nail image is located, the corresponding first curing lamp is controlled to be turned on, and at the same time, according to the area where the thumb nail image is located, the corresponding third curing lamp is controlled to be turned on.

In order to further improve the irradiation and curing effect on the thumb nail, as shown in FIGS. 2 to 4, the second curing lamp module 500 and the third curing lamp module 600 are both arranged at an angle. That is, an angle between a plane where the second curing lamp module 500 is located and the lower surface 111d of the internal cavity 111 is an acute angle, and an angle between a plane where the third curing lamp module 600 is located and the lower surface 111d of the internal cavity 111 is another acute angle. Specifically, in the present embodiment, the angle between the plane where the second curing lamp module 500 is located and the lower surface 111d of the internal cavity 111 is 75°, and the angle between the plane where the third curing lamp module 600 is located and the lower surface 111d of the internal cavity 111 is 75°. In other embodiments, the acute angle can also be other angles.

As shown in FIGS. 5 and 6, in the present embodiment, the housing 100 includes an inner housing 110 having the internal cavity 111, and an outer housing 120 disposed on an upper side of the inner housing 110.

A top plate of the inner housing 110 is configured as a grid-like structure 112. The first curing lamp module 200 is disposed between the inner housing 110 and the outer housing 120, and an irradiation end of the first curing lamp module 200 irradiates the user's fingernails through the grid-like structure 112.

In the present embodiment, the first curing lamp module 200 includes: a plurality of first lenses 210, a first grid plate 220, and a first lamp plate 230 having a plurality of lamp beads.

The plurality of first lenses 210 are placed at the grid-like structure 112 and each first lens 210 corresponds to a hollow space of the grid-like structure 112. An edge is provided on the inner side of each hollow space of the grid-like structure 112 to support each first lens 210 and prevent the first lens 210 from falling. Each first lens 210 has a supporting end and a protruding end. The supporting end is set up on the edge of the hollow space of the grid-like structure 112, and the protruding end passes through the hollow space of the grid-like structure 112. The first grid plate 220 is fixedly disposed on an upper side of the grid-like structure 112 to fix the first lens 210 in each hollow space of the grid-like structure 112. Specifically, a plurality of screw posts are provided on a circumferential side of the grid-like structure 112, and a plurality of hanging lugs are correspondingly provided on a circumferential side of the first grid plate 220. The hanging lugs are connected to the screw posts and then locked with screws, such that the first grid plate 220 can be fixedly disposed on the upper side of the grid-like structure 112. The first lamp panel 230 is disposed on an upper side of the first grid panel 220, and the lamp beads of the first lamp panel 230 respectively correspond to the hollow spaces of the first grid panel 220.

The second curing lamp module 500 and the third curing lamp module 600 have the same structure. Here, the second curing lamp module 500 is taken as an example for description. As shown in FIG. 7, the second curing lamp module 500 includes a second grid plate 510, a plurality of second lenses 520, a third grid plate 530 and a second lamp panel 540 having a plurality of lamp beads. A long hollow is provided on the left surface 111b of the inner housing 110, and the second grid plate 510 is disposed in the hollow. The second lenses 520 are placed at the grid-like structure 112, and the second lenses 520 respectively correspond to hollow spaces of the second grid plate 510. An edge is provided on the inner side of each hollow space of the second grid plate 510 to support the second lens 520 and prevent the second lens 520 from falling. The second lens 520 also has a supporting end and a protruding end. The supporting end is set up on the edge of the hollow space of the second grid plate 510, and the protruding end passes through the hollow space of the second grid plate 510. The third grid plate 530 is disposed on the inner housing 110 and located on a left side of the second grid plate 510 to fix the second lenses 520 in the second grid plate 510. Specifically, a plurality of screw posts are provided on a circumferential side of the third grid plate 530, and a plurality of corresponding hanging lugs are provided on the inner housing 110. The hanging lugs are connected to the screw posts, and then tightened with the screws, such that the third grid plate 530 is fixedly disposed in the inner housing 110. A plurality of bumps are provided on a circumferential side of the second grid plate 510, and a plurality of buckles are respectively provided on a circumferential side of the third grid plate 530, which are buckled on the bumps to realize the assembly of the second grid plate. 510 and the third grid plate 530. The second lamp panel 540 is disposed on a left side of the third grid panel 530, and the lamp beads of the second lamp panel 540 respectively correspond to the hollow spaces of the third grid panel 530.

As shown in FIGS. 4, 8 and 9, in the present embodiment, the internal cavity 111 is provided with a battery compartment 113 that is upwardly protruding and flat-shaped and is provided at a rear side of the inner housing 110. An opening of the battery compartment 113 is located below, and a battery box 700 is detachably disposed inside the battery compartment 113. Since the bottom plate 130 is provided on the lower side of the housing 100 in the present embodiment, when the bottom plate 130 is taken out, the opening of the battery compartment 113 is exposed, and the battery box 700 can be taken out. The battery box 700 supplies power to the first curing lamp module 200, the second curing lamp module 500, the third curing lamp module 600, the image acquisition module 300 and the processing module 400. The inner housing 110 is provided with a charging port that is electrically connected to the battery box 700 and can be configured for charging the battery box 700.

In order to facilitate description and understanding of how the battery box 700 in the present disclosure can be detachably disposed in the battery compartment 113, as shown in FIG. 8, the manicure curing device is placed upside down, with the battery box 700 pointing upward at this time as the upper end.

As shown in FIGS. 8 to 10, upper ends of inner walls of left and right sides of the battery compartment 113 are provided with insertion holes 113a, and upper ends of outer walls of left and right sides of the battery box 700 are correspondingly provided with plug-in structures that are horizontally slidable. When the plug-in structure slides inward, the plug-in structure is no longer inserted into the insertion hole 113a, and the battery box 700 can be taken out. When the plug-in structure slides to both sides, the plug-in structure is inserted into the insertion hole 113a, and at this time the battery box 700 is locked within the battery compartment 113.

Specifically, as shown in FIGS. 10 to 14, an upper end of the battery box 700 is provided with a concave groove body 710 on both sides. Taking one groove body 710 as an example, a main hole body 720 is provided in a middle of the groove body 710. The groove body 710 is provided with an auxiliary groove body 730 on both front and rear sides of a first hole body. The battery box 700 is provided with a baffle 740 on the other side of the groove body 710 and away from the insertion hole 113a. The insert structure specifically includes a switch plate 750 placed in the groove body 710 and capable of sliding left and right in the groove body 710, a hook 760 fixed on a lower side of the switch plate 750 and extending into the auxiliary hole body 730 to prevent the switch plate 750 from falling out, and a lock tongue 770 fixed on the lower side of the switch plate 750 and used for inserting into the insertion hole 113a. The hook 760 can slide left and right in the auxiliary hole body 730, and a return spring 780 is provided between the lock tongue 770 and the baffle 740.

When the battery box 700 is disassembled, the switch plate 750 is moved inward, and the switch plate 750 drives the lock tongue 770 to move inward. At this time, an insertion end of the lock tongue 770 is no longer inserted into the insertion hole 113a, and the battery box 700 can be taken out. When a distance between another end of the lock tongue 770 and the baffle 740 becomes smaller, the return spring 780 is compressed. After taking out the battery box 700, the return spring 780 returns and drives the switch plate 750, thereby driving the lock tongue 770 to rebound. When installing the battery box 700, the battery box 700 is directly placed into the battery compartment 113. During the insertion process, the lock tongue 770 is pushed inward to drive the entire switch plate 750 to move inward, until a position of the insertion hole 113a is reached. When the position of the insertion hole 113a corresponds to the lock tongue 770, the lock tongue 770 no longer receives inward thrust, and under the action of the return spring 780, the lock tongue 770 pops out and is inserted into the insertion hole 113a to complete the locking.

As a preferred solution, a plurality of protrusions are provided on an upper surface of the switch plate 750 to facilitate a user to push the switch plate 750.

A guide structure is provided between the battery compartment 113 and the battery box 700, so that the battery box 700 can enter the battery compartment 113 to a predetermined position, so as to carry out conduction, and it can also be detected in time when the battery box 700 is inserted backwards. Specifically, in the present embodiment, as shown in FIG. 10, the guide structure is a protruding corner 790 provided on an outside of the battery box 700 and a notch (not shown) provided on an inner wall of the battery compartment 113.

Embodiment 2: As shown in FIGS. 15 and 16, the present embodiment relates to a manicure curing device. The difference from Embodiment 1 is that the manicure curing device in the present embodiment does not provide the second curing lamp module 500 on the left surface 111b of the internal cavity 111 and the third curing lamp module 600 on the right surface 111c of the internal cavity 111; instead, a partition 114 is vertically provided in the housing 100 to divide the internal cavity 111 into a left cavity 115 and a right cavity 116, a fourth curing lamp module 800 is provided on a left side 114a of the partition 114, and a fifth curing lamp module 900 is provided on a right side 114b of the partition 114. The fourth curing lamp module 800 is provided with a plurality of fourth curing lamps that are independently controlled, and the fifth curing lamp module 900 is provided with a plurality of fifth curing lamps that are independently controlled. Each of the fourth curing lamp module 800 and the fifth curing lamp module 900 is connected to the processing module 400. The processing module 400 extracts the thumb nail image from the target image, and lights the fourth curing lamp and/or the fifth curing lamp for irradiating the area where the thumb nail image is located.

The internal cavity 111 is divided into the left cavity 115 and the right cavity 116 by providing the partition 114, the fourth curing lamp module 800 is provided on the left side 114a of the partition 114, and the fifth curing lamp module 900 is provided on the right side 114b of the partition 114, so that the fourth curing lamp module 800 in the left cavity 115 just corresponds to the thumbnail of the user's left hand, and the fifth curing lamp module 900 in the right cavity 116 just corresponds to the thumbnail of the user's right hand. If the solution of Embodiment 1 is adopted, the user can only extend one hand at a time or cross the arms so as to realize the irradiation of the thumbnails of his left and right hands. However, crossing the arms will greatly affect the user experience.

As shown in FIG. 16, in order to further improve the irradiation and curing effect on the thumb nail, both the fourth curing lamp module 800 and the fifth curing lamp module 900 are disposed at an angle. That is, an angle between a plane where the fourth curing lamp module 800 is located and the lower surface 111d of the internal cavity 111 is an acute angle, and an angle between a plane where the fifth curing lamp module 900 is located and the lower surface 111d of the internal cavity 111 is another acute angle. Specifically, in the present embodiment, the angle between the plane where the fourth curing lamp module 800 is located and the lower surface 111d of the internal cavity 111 is 75°, and the angle between the plane where the fifth curing lamp module 900 is located and the lower surface 111d of the internal cavity 111 is 75°. In other embodiments, the acute angle can also be other angles.

The present disclosure has been described in detail through specific embodiments. These detailed descriptions are only intended to help those skilled in the art understand the content of the present disclosure and cannot be construed as limiting the scope of the present disclosure. Various modifications, equivalent transformations, etc. made to the above solutions by those skilled in the art under the concept of the present disclosure should be included in the protection scope of the present disclosure.

Claims

1. A manicure curing device, comprising: a housing having an internal cavity, wherein the internal cavity has an upper surface, a left surface, a right surface and a lateral opening for entry and exit of a target;a first curing lamp module disposed on the upper surface and provided with a plurality of first curing lamps that are independently controlled, wherein each of the plurality of first curing lamps irradiates a different position to cover a lower part corresponding to the upper surface;an image acquisition module disposed on the upper surface and configured to acquire a target image; anda processing module correspondingly connected to the image acquisition module and the first curing lamp module for extracting a nail image from the target image and lighting the first curing lamp for irradiating an area where the nail image is located.

2. The manicure curing device according to claim 1, further including: a second curing lamp module disposed on the left surface, and a third curing lamp module disposed on the right surface, wherein the second curing lamp module is provided with a plurality of second curing lamps that are independently controlled, and the third curing lamp module is provided with a plurality of third curing lamps that are independently controlled, each of the second curing lamp module and the third curing lamp module is connected to the processing module, and the processing module is configured to extract a thumb nail image from the target image and lighting the second curing lamp and/or the third curing lamp for irradiating an area where the thumb nail image is located.

3. The manicure curing device according to claim 2, wherein an angle between a plane where the second curing lamp module is located and a lower surface of the internal cavity is an acute angle, and an angle between a plane where the third curing lamp module is located and the lower surface of the internal cavity is another acute angle.

4. The manicure curing device according to claim 1, further including: a partition vertically disposed in the housing to divide the internal cavity into a left cavity and a right cavity, wherein a fourth curing lamp is provided on a left side of the partition, a fifth curing lamp module is provided on a right side of the partition, the fourth curing lamp module is provided with a plurality of fourth curing lamps that are independently controlled, the fifth curing lamp module is provided with a plurality of fifth curing lamps that are independently controlled, each of the fourth curing lamp module and the fifth curing lamp module is connected to the processing module, and the processing module is configured to extract a thumb nail image from the target image and lighting the fourth curing lamp and/or the fifth curing lamp for irradiating an area where the thumb nail image is located.

5. The manicure curing device according to claim 4, wherein an angle between a plane where the fourth curing lamp module is located and a lower surface of the internal cavity is an acute angle, and an angle between a plane where the fifth curing lamp module is located and the lower surface of the internal cavity is another acute angle.

6. The manicure curing device according to claim 2, wherein the housing includes: an inner housing having the inner cavity, and an outer housing disposed on an upper side of the inner housing.

7. The manicure curing device according to claim 6, wherein a top plate of the inner housing is arranged in a grid-like structure, the first curing lamp module is disposed between the inner housing and the outer housing, an irradiation end of the first curing lamp module irradiates a user's nail through the grid-like structure; and the first curing lamp module includes: a plurality of first lenses disposed at the grid-like structure and having protruding ends passing through hollow spaces of the grid-like structure, a first grid plate fixedly disposed on an upper side of the grid-like structure to fix the plurality of first lenses in the grid-like structure, and a first lamp panel disposed on an upper side of the first grid plate and a plurality of lamp beads of the first lamp panel corresponding to the hollow spaces of the first grid plate.

8. The manicure curing device according to claim 6, wherein the second curing lamp module includes: a second grid plate disposed on a left side of the inner housing, a plurality of second lenses disposed on the second grid plate and having protruding ends passing through hollow spaces of the second grid plate, a third grid plate disposed on the inner housing and located on a left side of the second grid plate to fix the plurality of second lenses in the second grid plate, and a second lamp panel disposed on a left side of the third grid plate and a plurality of lamp beads of the second lamp panel corresponding to the hollow spaces of the third grid plate.

9. The manicure curing device according to claim 6, wherein a battery compartment that is upwardly protruding and flat-shaped is disposed at a rear side of the internal cavity, an opening is provided below the battery compartment, and a battery box is detachably disposed in the battery compartment.

10. The manicure curing device according to claim 9, wherein a guide structure is provided between the battery compartment and the battery box so that the battery box enters the battery compartment to a predetermined position to carry out conduction.