CN112469939A

CN112469939A - Lighting device

Info

Publication number: CN112469939A
Application number: CN201880093840.3A
Authority: CN
Inventors: 刘文俊; 陈松亚
Original assignee: Shenzhen Royole Technologies Co Ltd
Current assignee: Shenzhen Royole Technologies Co Ltd
Priority date: 2018-05-31
Filing date: 2018-05-31
Publication date: 2021-03-09
Also published as: WO2019227412A1

Abstract

The invention discloses a lighting device which comprises a base (11), a supporting component (13), a flexible touch module (30) and a lighting component (50), wherein one end of the supporting component (13) is connected with the base (11), the lighting component (50) is arranged at the other end of the supporting component (13) in a foldable mode, the lighting component (50) is electrically connected with the flexible touch module (30), and the flexible touch module (30) is used for sensing a touch gesture of a user to control the lighting component. According to the lighting device provided by the invention, the lighting component can be controlled by touching the flexible touch module, and a user can touch the flexible touch module lightly without using great strength, so that the control is convenient.

Description

Lighting device

Technical Field

The invention relates to the technical field of illumination, in particular to an illumination device.

Background

The existing desk lamp generally realizes the change of illumination brightness through a physical key mode, and the physical key needs a user to find the position of the physical key and then operates the physical key through a finger. However, it is inconvenient to find the position of the physical key when the physical key is operated in a case where the light is weak.

Disclosure of Invention

To solve the above problems, an embodiment of the present invention discloses an illumination device.

The lighting device comprises a base, a supporting component, a flexible touch module and a lighting component, wherein one end of the supporting component is connected with the base, the lighting component is arranged at the other end of the supporting component in a foldable mode, the flexible touch module is arranged on the supporting component, the lighting component is electrically connected with the flexible touch module, and the flexible touch module senses a touch gesture of a user so as to control the lighting component.

According to the lighting device provided by the invention, the flexible touch module is arranged on the supporting assembly, and the lighting component can be controlled by touching the flexible touch module. Because the user dabs flexible touch module can, need not to use great strength, convenient control. In addition, even under the condition of weak light, a user can easily find the flexible touch module to operate.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of a lighting device according to an embodiment of the present invention.

Fig. 2 is an exploded perspective view of the base and the controller of the lighting device shown in fig. 1.

Fig. 3 is an exploded perspective view of the support assembly and the flexible touch module of the lighting device shown in fig. 1.

FIG. 4 is a schematic view of the support assembly of FIG. 3 with the second sleeve removed after assembly.

Fig. 5 is a perspective exploded view of an illumination component of the illumination device shown in fig. 1.

Fig. 6 is an exploded perspective view of the rotating assembly of the lighting device shown in fig. 1.

Fig. 7 is a partially assembled schematic view of the lighting device shown in fig. 1.

Fig. 8 is a schematic partial cross-sectional view of the lighting device shown in fig. 7, taken along line II-II.

Fig. 9 is a cross-sectional view of the I-region of the lighting device shown in fig. 1.

Fig. 10 is a schematic view of the lighting device shown in fig. 1 in a folded state.

Fig. 11 is a schematic view of the lighting device shown in fig. 1 in a deployed state.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the invention provides an illumination apparatus 100, where the illumination apparatus 100 includes a base 11, a support assembly 13, a flexible touch module 30, and an illumination component 50. One end of the supporting member 13 is connected to the base 13, and the illuminating member 50 is foldably installed on the other end of the supporting member 13. The flexible touch module 30 is mounted on the supporting component 13, the lighting component 50 is electrically connected to the flexible touch module 30, and the flexible touch module 30 is used for sensing a touch gesture of a user to control the lighting component 50. In the present embodiment, the lighting device 100 is a desk lamp.

The following description will be made in detail with reference to a specific embodiment.

The base 11 and the support assembly 13 constitute a support member 10 of the lighting device 100 for supporting the lighting member 50. The base 11 and the lighting component 50 are respectively mounted on two opposite ends of the supporting component 13.

Referring to fig. 2, the base 11 includes a lower cover 113 and an upper cover 115 matching with the lower cover 113. The bottom surface of the lower cover 113 facing away from the upper cover 115 is further provided with a non-slip portion 1131. In the present embodiment, the anti-slip portion 1131 is an anti-slip rubber strip attached to the bottom surface of the lower cover 113. It is understood that in other embodiments, the anti-slip portion 1131 is a micro-granular area on the bottom surface of the lower cover 113 to achieve the anti-slip purpose.

The base 11 further includes a weight 117. The weight 117 is accommodated in an accommodating space formed by the lower cover 113 and the upper cover 115, and the weight 117 can increase the self weight of the base 11, thereby improving the stability of the base 11. The weight 117 is fixed to the upper cover 115 or the lower cover 113. In this embodiment, the base 11 includes two of the weight blocks 117, and the two weight blocks 117 are accommodated in the accommodating space in a stacked manner. It is understood that the number and arrangement of the weight blocks 117 are not limited thereto.

Referring to fig. 3, the supporting assembly 13 includes a supporting column 131 and a fixing column 133. In this embodiment, the supporting column 131 is detachably fixed to the upper cover 115, the fixing column 133 is coaxially disposed with the supporting column 131, and the fixing column 133 is detachably fixed to the supporting column 131. In this way, the lighting component 50 can be supported to a certain height by the supporting columns 131 and the fixing columns 133, and the lighting area of the lighting device 100 is enlarged. Specifically, the first end of the supporting column 131 is fixed to the upper cover 115. The axial direction of the supporting column 131 is vertical, and the supporting column 131 is approximately perpendicular to the base 10, so that the lighting device 100 has better balance. It is to be understood that the positional relationship between the support posts 131 and the base 10 is not so limited. For example, in other embodiments, the supporting column 131 and the base 10 may be arranged in an inclined shape. The fixing post 133 is fixed to a second end of the supporting post 131.

The flexible touch module 30 is mounted on the supporting column 131. In this embodiment, the flexible touch module 30 surrounds the outer peripheral wall of the supporting pillar 131, and the flexible touch module 30 is wound into a cylindrical shape so as to be attached to the outer surface of the supporting pillar 131 more tightly. Since the outer surface of the flexible touch module 30 is wound in a cylindrical shape, the direction and position for user touch are expanded, and the user can conveniently touch.

Referring to fig. 4, an end of the fixing post 133 away from the supporting post 131 is provided with a mounting groove 1331 along an axial direction of the fixing post 133. The mounting groove 1331 provides a rotation space for the lighting device 50 to rotate relative to the fixing post 133. When the lighting unit 50 rotates relative to the fixing post 133, the portion of the structure of the lighting unit 50 connected to the fixing post 133 rotates in the mounting groove 1331, so as to gradually decrease or enlarge the angle between the lighting unit 50 and the supporting post 131.

Specifically, the mounting groove 1331 penetrates through a top wall 1334 of the fixing post 133 at an end adjacent to the lighting component 50. The mounting groove 1331 includes a first side wall 1336, a second side wall 1337, a third side wall 1338 and a bottom wall 1339, the first side wall 1336 and the third side wall 1338 are disposed oppositely, the second side wall 1337 is connected between the first side wall 1336 and the third side wall 1338, the top wall 1334 and the bottom wall 1339 are disposed oppositely, and the bottom wall 1339 is connected with the first side wall 1336, the second side wall 1337 and the third side wall 1338. The bottom wall 1339 is an inclined wall, and in the present embodiment, the bottom wall 1339 is inclined with respect to the axis of the fixing post 133 to limit the rotation displacement of the lighting component 50. In this way, the rotation of the illumination member 50 with respect to the support post 131 can be limited within a predetermined angular range.

Referring to fig. 3 again, the supporting member 13 further includes a protective cover 137 disposed on the outer peripheral wall of the flexible touch module 30. The protective cover 137 protects the flexible touch module 30, and prevents the flexible touch module 30 from being scratched, worn, and the like. In this embodiment, the supporting column 131, the protecting cover 137 and the flexible touch module 30 are all made of transparent materials to form a unique visual effect and distinguish from other components of the lighting device 100, so as to attract the attention of a user, and facilitate the user to determine the position of the flexible touch module 30 to control the lighting component 30.

The support assembly 13 further includes a first sleeve 138 and a second sleeve 139. The first sleeve 138 is sleeved on one end of the supporting column 131 adjacent to the base 10. The second sleeve 139 is sleeved on the fixing post 133, and a groove 1391 is formed in the second sleeve 139 corresponding to the mounting groove 1331. The protective cover 137 is sandwiched between the first sleeve 138 and the second sleeve 139. The first sleeve 138 is used for protecting the supporting column 131, and the second sleeve 139 is used for protecting the fixing column 133. In this embodiment, the first sleeve 138 and the second sleeve 139 are made of metal. It is understood that the first sleeve 138 and the second sleeve 139 may be made of other materials, such as plastic.

Further, the first sleeve 138 and the second sleeve 139 are flush with the outer surface of the protective cover 137, so that the appearance consistency of the support component 13 is achieved, and the use experience of a user is improved.

In this embodiment, the axial length of the flexible touch module 30 is greater than the diameter of the flexible touch module 30, so as to better attract the attention of the user and facilitate the user to control the flexible touch module 30.

Referring to fig. 5, the illumination component 50 includes a connecting member 51, a fixing bracket 52 and a first illumination source 53. The connecting piece 51 is rotatably connected to the end of the fixing post 133 far away from the supporting post 131.

Specifically, the connecting member 51 includes a connecting body 511 and a connecting block 513 protruding from the connecting body 511. In this embodiment, the connecting body 511 is a bent structure with a certain bending angle. The connecting block 513 extends into the mounting groove 1331 and is rotatably connected to the fixing post 133, so that the lighting component 50 is foldably mounted on the fixing post 133. The connecting block 513 is formed with a connecting hole 5131 for rotatably connecting with the fixing post 133.

The fixing bracket 52 is fixedly installed at the first end of the connecting body 511, the first illumination source 53 is installed on the fixing bracket 52, and the first illumination source 53 is electrically connected with the flexible touch module 30 for main illumination. In this embodiment, the first illumination light source 53 is an LED light source, which can reduce energy consumption, thereby achieving the purpose of saving electric energy.

The lighting part 50 further includes a decoration tube 54, a first lamp cover 55, and a decoration cover 56. The decorative tube 54 is sleeved on the fixing bracket 52. An installation groove 541 is formed at a position of the decoration tube 54 corresponding to the first illumination light source 53. The first lamp housing 55 is installed in the installation groove 541. The light emitted from the first illumination light source 53 is emitted from the first globe 55 to illuminate. The decorative cover 56 is mounted on an end of the decorative tube 54 away from the connector 51, and is used for protecting the decorative tube 54 and the fixing bracket 52.

The lighting component 50 further includes a reflective cover 57 mounted on the fixing bracket 52, and the reflective cover 57 is used for reflecting the light emitted by the first lighting source 53 to improve the lighting efficiency of the lighting device 100. In this embodiment, the reflective cover 57 is provided at one end of the fixing bracket 52 away from the decorative cover 56.

The illumination member 50 further includes a second illumination light source 58 and a second lamp cover 59. The second illumination light source 58 is installed at the second end of the connection body 511 of the connection member 51 to serve as secondary illumination. The second illumination source 58 is typically used as a night light. The second illumination light source 58 has low power consumption and low power, thereby being convenient for users to use and saving electric energy. In the present embodiment, the second illumination light source 58 is an LED light source. The second lampshade 59 is detachably mounted at the second end of the connecting body 511 and covers the second illumination source 58, so that the second illumination source 58 is convenient to replace.

Referring to fig. 4 again, a mounting hole 1335 is formed on each of the first side wall 1336 and the third side wall 1338 of the mounting groove 1331. Referring to fig. 6, 7 and 8, the lighting device 100 further includes a rotating element 80 installed in the installation hole 1335, and the connecting block 513 is rotatably connected to the fixing column 133 through the rotating element 80.

Specifically, the rotating assembly 80 includes a stop member 81, a first limiting member 82, a bearing member 83, a second limiting member 84 and an elastic member 85.

The stopper 81 is substantially cylindrical. The stop member 81 includes a rod portion 811, and a first fixing portion 813 and a second fixing portion 815 formed by extending two ends of the rod portion 811. In this embodiment, the first fixing portion 813 is mounted in the mounting hole 1335 of the first side wall 1336, the rod portion 811 is inserted into the coupling hole 5131, and the second fixing portion 815 is fixedly mounted in the mounting hole 1335 of the third side wall 1338 by the mounting member 88. After the first fixing portion 813 of the stop member 81 is fixed in a mounting hole 1335 of the fixing column 133, the rod portion 811 of the stop member 81 is inserted into the connecting hole 5131 of the connecting member 51. In the present embodiment, the rod 811 of the stopper 81 is non-cylindrical.

The first position-limiting member 82 is sleeved on the rod portion 811 of the position-limiting member 81. The first position-limiting member 82 is connected to the position-limiting member 81 in a rotation-stopping manner. The first limiting member 82 is used for limiting the connecting member 51 and facilitating the assembly of the rotating assembly 80 on the fixing column 133.

The bearing member 83 is fixed in the connecting hole 5131 of the connecting member 51 for bearing the second limiting member 84 and the elastic member 85. The second limiting member 84 and the elastic member 85 are both accommodated in the bearing member 83. The second position-limiting member 84 and the elastic member 85 are rotatably sleeved on the position-limiting member 81. The second limiting member 84 is located between the elastic member 85 and the first limiting member 82. The bearing member 83, the second limiting member 84 and the elastic member 85 can rotate together with the connecting member 51 relative to the stop member 81. The second limiting member 84 can abut against the first limiting member 82 to limit the rotation range of the illumination component 50 relative to the fixing post 133.

When the second limiting member 84 abuts against the first limiting member 82, the connecting member 51 is prevented from continuously rotating relative to the fixing post 133, so that the lighting component 50 is prevented from excessively rotating relative to the supporting assembly 13, and the use is prevented from being affected. In this embodiment, the rotation angle of the connecting member 51 relative to the fixing post 133 is in the range of 0 to 135 degrees. The elastic member 85 includes a plurality of elastic pieces stacked one on another. The stop piece 81 is inserted into the plurality of spring pieces. The acting force of the stop member 81 on the elastic member 85 causes the elastic force generated by the elastic member 85 to act on the bearing member 83 and the second limiting member 84, so that the friction force between the first limiting member 82 and the second limiting member 84 changes, and the lighting component 50 is unfolded and stably maintained at a certain angle relative to the supporting assembly 13.

The rotating assembly 80 further includes a spacer 86, a sleeve 87, and a mounting member 88. The spacer 86 is disposed on the rod 811, and the sleeve 87 and the mounting member 88 are disposed on the second fixing portion 815 of the stop member 81. One end of the stop member 81 remote from the first stop member 82 is fixed to the mounting hole 1335 of the fixing post 133 through a mounting member 88, and the sleeve 87 is accommodated in the mounting member 88. The mounting member 88 also exerts a force on the resilient member 85. The spacer 86 is disposed between the carrier 83 and the sleeve 87. The supporting member 83, the mounting member 88 and the stopping member 81 can transmit friction force to the first limiting member 82 and the spacer 86 through the elastic member 85, so as to improve the stability of the lighting device 100 from the folded state to the unfolded state, for example, at 135 degrees. Further, the stopping member 81 and the mounting member 88 generate an acting force on the elastic member 85, and the elastic acting force generated by the elastic member 85 acts on the bearing member 83 and the second limiting member 84, so that the friction force between the bearing member 83 and the spacer 86 and the friction force between the first limiting member 82 and the second limiting member 84 are changed, so that the lighting component 50 can maintain a stable state when being unfolded by a certain angle relative to the supporting assembly 13.

More specifically, the first position-limiting member 82 includes a first body 821 and a first position-limiting portion 823 protruding from an edge of one side of the first body 821. The second limiting member 84 includes a second body 841, two retaining portions 843 protruding from the edge of the second body 841, and a second limiting portion 845. The two retaining portions 843 are oppositely disposed on the second body 841 for retaining and connecting with the bearing member 83. Two clamping grooves 831 arranged oppositely are arranged on the side wall of the bearing part 83. Each retaining portion 843 is correspondingly accommodated in one retaining groove 831, so that the second limiting member 84 and the carrier 83 are clamped together. The second position-limiting portion 845 is protruded from a surface of the second body 841 facing the first position-limiting member 82. The second position-limiting portion 845 is configured to abut against the first position-limiting portion 823, so as to limit the rotation angle of the connecting member 51 relative to the fixing column 133, thereby facilitating use.

In this embodiment, the angle between the two end surfaces of the first stopper 823 is approximately 135 degrees, so that the rotation angle of the connector 51 with respect to the fixing post 133 is in the range of 0 to 135 degrees.

Further, referring to fig. 5, the side of the connecting block 513 is used to abut against the side wall and the bottom wall 1339 of the mounting groove 1331 to prevent the connecting member 51 from over-rotating. In the present embodiment, the bottom wall 1339 is inclined by 135 degrees with respect to the axial direction of the fixing post 133. Referring to fig. 9, when the lighting component 50 rotates counterclockwise relative to the support assembly 13 and unfolds to 135 degrees (i.e. a limited maximum rotation angle), the left side of the connecting block 513 (the side of the connecting block 513 adjacent to the second side wall 1337) abuts against the second side wall 1338, so as to prevent the lighting device 100 from being damaged by the continuous rotation of the connecting member 51 relative to the support assembly 13 when the connecting member rotates to 135 degrees, thereby prolonging the service life of the lighting device 100; when the lighting component 50 is rotated clockwise relative to the support assembly 13, the right side of the connecting block 513 (the side of the connecting block 513 away from the second side wall 1337) can abut against the bottom wall 1339, so as to prevent the connecting block 513 from over-rotating.

Referring to fig. 10, when the illumination apparatus 100 is in a folded state, that is, an included angle between the illumination component 50 and the fixing column 133 is 0 degree, the second limiting portion 845 abuts against a first end of the first limiting portion 823. When a user needs to unfold the lighting device 100, a force is applied to the lighting component 50, so that the connecting member 51 is forced to drive the bearing member 83, the elastic member 85 and the second limiting member 84 to rotate relative to the stop member 81, and when the second limiting portion 845 abuts against the second end of the first limiting portion 823, the lighting device 100 is unfolded by 135 degrees, that is, the lighting device 100 is in an unfolded state of 135 degrees (as shown in fig. 11).

It is understood that, in an embodiment, the first limiting member 82, the bearing member 83 and the second limiting member 84 may be omitted, the rotating assembly 80 includes a stopping member 81 and an elastic member 85, the stopping member 81 is fixed to the fixing column 133 and passes through the connecting hole 5131 of the connecting member 51, the elastic member 85 is connected to the connecting member 51, the elastic member 85 is sleeved on the stopping member 81 and contacts with the stopping member 81, the elastic member 85 can rotate together with the connecting member 51 relative to the stopping member 81, and the acting force of the stopping member 81 on the elastic member 85 causes the elastic force generated by the elastic member 85 to act on the connecting member 51, so that the illuminating member 50 maintains a stable state when being unfolded at a certain angle relative to the supporting assembly 13.

It is understood that in an embodiment, the bearing element 83 may be omitted, the second limiting element 84 and the elastic element 85 are directly fixed on the connecting element 51, the rotating element 80 includes a stopping element 81, a first limiting element 82, a second limiting element 84 and an elastic element 85, the stopping element 81 is fixed on the fixing column 133 and passes through the connecting element 51, the first limiting element 82, the second limiting element 84 and the elastic element 85 are all sleeved on the stopping element 81, the first limiting element 82 is in rotation stopping connection with the stopping element 81, the second limiting element 84 and the elastic element 85 are connected with the connecting element 51, the second limiting element 84 and the elastic element 85 can rotate along with the connecting element 51 relative to the stopping element 81, the second limiting element 84 is located between the elastic element 85 and the first limiting element 82, the second limiting element 84 and the first limiting element 82 can abut against each other, the elastic member 85 contacts the stopper 81 to urge the lighting device 100 to maintain a stable state when unfolded at a certain angle by a frictional force between the elastic member 85 and the stopper 81.

It can be understood that, the number and the positions of the retaining grooves 831 are not limited, and the retaining portions 843 of the second limiting member 84 are disposed corresponding to the retaining grooves 831; the supporting member 83 and the second limiting member 84 are not limited to be clamped and connected, the supporting member 83, the second limiting member 84 and the elastic member 85 can be directly fixed together, or the second limiting member 84 and the elastic member 85 can be directly fixed on the connecting member 51; the range of the rotation angle of the connecting member 51 relative to the fixing post 133 is not limited to 0-135 degrees, and the rotation angle of the connecting member 51 relative to the fixing post 133 may be greater than 135 degrees by designing the first limiting member 82 and the second limiting member 84, for example, the radian of the first limiting portion 823 is 180 degrees, and the rotation angle of the connecting member 51 relative to the fixing post 133 may be 180 degrees, and so on.

The flexible touch module 30 is used for sensing a touch gesture of a user, so that the first illumination light source 53 and the second illumination light source 58 can be controlled. The flexible control module 30 has the following control modes: the single finger single click controls the on and off of the first illumination light source 53; the single-finger up-and-down sliding control adjusts the brightness of the first illumination light source 53, for example, when the single finger slides up, the brightness of the first illumination light source 53 increases, and when the single finger slides down, the brightness of the first illumination light source 53 decreases; the two-finger sliding control adjusts the color temperature (cool-warm color) of the first illumination light source 53, such as two-finger sliding to the left to increase the color temperature and sliding to the right to decrease the color temperature; the remaining touch gestures are to control the second illumination source 58 to turn on and off. In the present embodiment, when the first illumination light source 53 is turned on, the second illumination light source 58 is turned off; when the second illumination light source 58 is turned on, the first illumination light source 53 is turned off, thereby saving electric power.

Referring to fig. 2 again, the lighting device 100 further includes a controller 70, the controller 70 is installed in the accommodating space of the base 11, and the controller 70 is electrically connected to the flexible touch module 30, the first illumination light source 53 and the second illumination light source 58. The controller 70 is configured to receive the touch signal sensed by the flexible touch module 30, and then convert the touch signal into a control signal to control the first illumination light source 53 and the second illumination light source 58 of the illumination component 50.

Further, the controller 70 is electrically connected to the flexible touch module 30, the first illumination source 53 and the second illumination source 58 through a connection wire 90 (as shown in fig. 9). The connecting wires 90 are inserted into the base 11, the supporting posts 131, the fixing posts 133, the connecting member 51 and the fixing brackets 52, that is, the base 11, the supporting posts 131, the fixing posts 133, the connecting member 51 and the fixing brackets 52 are all provided with through holes for accommodating the connecting wires 90, so that the connecting wires 90 are not exposed outside the lighting device 100, the connecting wires 90 are protected, the use safety of the lighting device 100 is improved, the use of the lighting device 100 is facilitated, and the appearance consistency of the lighting device 30 is maintained.

It should be understood that the flexible touch module 30 is not limited to be disposed on the supporting column 131, and the flexible touch module 30 may also be disposed on the upper cover 115 of the base 11, or the flexible touch module 30 may be disposed on other structures such as the fixing column 133.

It is understood that the first illumination light source 53 is not limited to be an LED light source, and the first illumination light source 53 may be other light sources, such as an incandescent lamp; the second illumination source 58 is not limited to being an LED light source, and the second illumination source 58 may be other light sources, such as an incandescent lamp.

In use, the user can unfold the lighting device 100 at a certain angle according to the requirement, for example, please refer to fig. 10, the lighting device 100 is unfolded at 135 degrees. The user manipulates the lighting device 50 through the flexible touch module 30. When the lighting device 100 is not in use, referring to fig. 11, the angle between the lighting component 50 and the supporting component 13 is 0 degree.

The lighting device 100 provided by the invention can realize the control of the lighting component 50 by touching the flexible touch module 30, and a user can touch the flexible touch module 30 without using large force, thereby being convenient to control. In addition, the flexible touch module 30 is mounted on the supporting member 13, so that the appearance of the lighting device 100 is not damaged. Furthermore, the connecting wires 90 are inserted into the base 11, the supporting posts 131, the fixing posts 133, the connecting member 51 and the fixing brackets 52 and are not exposed outside, so that the safety of the lighting device 100 is improved, the lighting device 100 is convenient to use, and the appearance consistency of the lighting device 30 is maintained. Furthermore, the lighting element 50 can be folded and arranged on the supporting element 10 by the rotating component 80, so that the occupied space is reduced.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims

The lighting device is characterized by comprising a base, a supporting component, a flexible touch module and a lighting component, wherein one end of the supporting component is connected with the base, the lighting component is arranged at the other end of the supporting component in a foldable mode, the flexible touch module is arranged on the supporting component, the lighting component is electrically connected with the flexible touch module, and the flexible touch module senses a touch gesture of a user so as to control the lighting component.
The illumination device as claimed in claim 1, wherein the illumination component includes a connecting member, a fixing bracket and a first illumination source, the connecting member is rotatably connected to the supporting component, the fixing bracket is fixed to a first end of the connecting member, and the first illumination source is mounted on the fixing bracket and electrically connected to the flexible touch module.
The lighting device as claimed in claim 2, further comprising a rotating assembly, wherein the supporting assembly comprises a fixing post, the fixing post is disposed at an end of the supporting assembly away from the base, an installation groove is formed at an end of the fixing post away from the base, and the connecting member extends into the installation groove and is rotatably connected to the rotating assembly.
The lighting device as claimed in claim 3, wherein the mounting groove extends along an axial direction of the fixing post, the mounting groove penetrates through a top wall of an end of the fixing post adjacent to the connecting member, a mounting hole is further formed in a side wall of the mounting groove, and the rotating component is mounted in the mounting hole.
The illumination device as claimed in claim 4, wherein the rotation assembly includes a stop member and an elastic member, the stop member is fixed to the fixing column and passes through the connecting member, the elastic member is connected to the connecting member, the elastic member is sleeved on the stop member and contacts with the stop member, the elastic member can rotate along with the connecting member relative to the stop member, and the action force of the stop member on the elastic member causes the elastic force generated by the elastic member to act on the connecting member, so that the illumination component is kept in a stable state relative to the support assembly when the illumination component is unfolded at a certain angle.
The illumination device as claimed in claim 5, wherein the rotation assembly further comprises a first limiting member and a second limiting member, the first limiting member is sleeved on the stop member, the first limiting member is connected with the stop member in a rotation-stopping manner, the second limiting member is connected with the connecting member, the second limiting member and the elastic member can rotate along with the connecting member relative to the stop member, the second limiting member is located between the elastic member and the first limiting member, and the second limiting member can abut against the first limiting member.
The lighting device as claimed in claim 6, wherein the first position-limiting member comprises a first body and a first position-limiting portion protruding from an edge of the first body, and the second position-limiting member comprises a second body and a second position-limiting portion protruding from a surface of the second body facing the first position-limiting portion, the second position-limiting portion being capable of abutting against the first position-limiting portion.
The lighting device as claimed in claim 6, wherein the rotating assembly further comprises a supporting member, the connecting member comprises a connecting hole, the stop member is inserted into the connecting hole, the supporting member is fixed in the connecting hole, and the second limiting member and the elastic member are both accommodated in the supporting member.
The illumination device as claimed in claim 8, wherein the supporting member has a retaining groove on a side wall thereof, and the second position-limiting member includes a second body and a retaining portion protruding from an edge of the second body, the retaining portion being retained in the retaining groove.
The lighting device as claimed in claim 4, wherein the bottom wall of the mounting groove is opposite to the top wall, the bottom wall is an inclined wall which is inclined relative to the axial direction of the fixing column, and one end of the connecting piece, which is far away from the fixing bracket, is in contact with the bottom wall so as to abut against the bottom wall when the lighting component rotates relative to the fixing column.
The illumination device as claimed in claim 2, wherein the illumination component further comprises a decorative tube and a first lamp cover, the decorative tube is sleeved on the fixing bracket, the decorative tube is provided with a mounting groove, the first lamp cover is mounted in the mounting groove, and light emitted from the first illumination light source can be emitted from the first lamp cover.
The illumination device of claim 11, wherein the illumination component further comprises a reflective cover mounted on the mounting bracket, the reflective cover configured to reflect light emitted by the first illumination source.
The illumination device as claimed in claim 2, wherein the illumination component further comprises a second illumination source and a second lamp cover, the second illumination source is disposed at the second end of the connecting member, the second illumination source is electrically connected to the flexible touch module, and the second lamp cover is disposed at the second end of the connecting member and covers the second illumination source.
The illumination device as claimed in claim 1, further comprising a controller, wherein the controller is mounted in the support member, the controller is electrically connected to the flexible touch module and the illumination member via connecting wires, and the connecting wires are disposed through the support member and the illumination member.
The illumination device according to claim 1, wherein the supporting assembly includes a supporting post and a fixing post, a first end of the supporting post is fixed on the base, the fixing post is fixed on a second end of the supporting post, the illumination component is rotationally fixed on an end of the fixing post away from the supporting post, and the flexible touch module is mounted on the supporting post.
The illumination device as recited in claim 15, wherein the flexible touch module surrounds the support post and is attached to a peripheral wall of the support post.
The illumination device as recited in claim 16, wherein the support assembly further comprises a protective cover, and the protective cover is disposed on the outer peripheral wall of the flexible touch module.
The illumination device of claim 15, wherein the support assembly further comprises a first sleeve, the first sleeve being sleeved on an end of the support post remote from the fixing post.
The illumination device of claim 18, wherein the support assembly further comprises a second sleeve that is fitted over the fixation post.
The illumination device according to claim 15, wherein the supporting posts and the flexible touch module are made of transparent materials.