Bendable photographic fill light

A bendable fill light lamp comprises a plurality of segments of a lamp body assembly connected in a series or a sequence, wherein the lamp body assembly comprises a body for connecting the plurality of segments. Any two adjacent segments of the plurality of the segments are rotatably connected. Each of the plurality of the segments comprises a light-emitting surface as a fill light source. The body comprises a connecting member passing among the plurality of the segments. The connecting member comprises a bendable elastic body. In this way, during the use of the fill light, the bending of the intermediary segments may drive the sequential adjustment of the illumination angles of the light emitting parts on the intermediary segments. In one aspect, the light angle of the fill light may be adjusted and avoid phenomenon of multiple lights on the object to be photographed, which improves the shooting effect.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority to a Chinese patent application number 202210506436.2, filed on May 9, 2022, whose disclosure is incorporated by reference in its entirety herein.

TECHNICAL FIELD

The present application generally relates to the technical field of lamps, in particular to a bendable fill light lamp.

BACKGROUND

As known in the art, the lighting angle of a fill light used in photography tends to show the light coming from one source or origin. If one wishes to show the details of the object to be photographed as much as possible, one would need to arrange multiple fill light sources at multiple angles to increase lighting angles. When current fill light lamps are used, one would need to increase the areas of source of light. However, in so doing, areas of spots or focused points of light on the photographed object may be easily identified, creating an appearance of discontinuous and uneven lighting effect. This is undesirable.

SUMMARY

Therefore, embodiments of the present application provide technical solutions aim to overcome the defects of the problem of discontinuous fill light and poor effects. Aspects of the invention provide a bendable fill light lamp providing multiple fill lights from multi-angle while providing a continuous and uniform or even light source.

The technical solution provided by aspects of the invention above include:

In one embodiment, a bendable fill light lamp may include a plurality of segments of a lamp body assembly connected in a series or a sequence. In one embodiment, any two adjacent segments of the lamp body assembly may be rotatably connected, and each segment of the lamp body assembly may be provided with a light-emitting surface. Furthermore, in another embodiment, a connecting member may be passed between the segments of the lamp body assembly, and the connecting member may be a bendable elastic body. In one aspect, the plurality of segments of the lamp body assembly may be bent with the bending of the connecting member.

In a further embodiment, the plurality of light-emitting surfaces on the plurality of segments of the lamp body assembly may be located on the same side of the fill light lamp.

In yet another embodiment, the plurality of segments of the lamp body assembly may include a parallel arrangement state in a straight line arrangement, a forward curved arrangement state curving toward the side of the plurality of the light-emitting surfaces, and a back-curved arrangement state in which one side of the light-emitting surface may be curved.

In yet a further embodiment, when the plurality of segments of the lamp body assembly are in the parallel arrangement state, the plurality of the light-emitting surfaces may be located on the same plane.

In yet a further embodiment, in any two adjacent segments of the lamp body assembly, one end of each of the segments the lamp body assembly may be provided with a connecting member protruding outward from each of the segments. In another aspect, a mounting groove may be provided on the other end of the lamp body assembly to receive the connecting member. In one aspect, a side wall of the connecting member may include a first installation hole or opening, and the other side wall of the connecting member may include a second installation opening or hole at a location corresponding to that of the first installation opening or hole. In another embodiment, the first installation opening and the second installation may include a pin passing through the two installation holes, wherein the pin may be passed between the first installation hole and the second installation hole, and the two adjacent segments of the lamp body assembly may be rotatably around the pin.

In yet a further embodiment, an installation channel or chamber may be included in each of the plurality of segments of the lamp body assembly. In one example, the connecting member may be passed therethrough for connecting the plurality of installation channels.

In yet a further embodiment, the connecting member be composed of a bendable metal tube or metal sheet.

In yet a further embodiment, there may be one or more connecting member.

In yet a further embodiment, the lamp body assembly includes a head-end segment at the a head-end of the lamp body assembly, a tail-end segment of the lamp body assembly at a tail-end, and a plurality of intermediary segments connected between the head-end segment and the tail-end segment.

In yet a further embodiment, the head-end segment of the lamp body assembly includes a head-end bottom casing or shell, a head-end surface casing or shell, a head-end electrical circuit board, a head-end lamp board, a head-end lampshade and a battery. In one aspect, the head-end bottom shell and the head-end surface shell may be interlocked together. In one aspect, the head-end lampshade and the head-end bottom shell may be engaged with a side facing away from the head-end surface shell. In a further aspect, the head-end electrical circuit board may be arranged inside the head-end bottom shell and the head-end surface shell. In one aspect, the connecting member may be inserted between the head-end bottom shell and the head-end surface shell. In yet a further aspect, the head-end lamp board may be arranged on the side of the head-end bottom shell facing away from the head-end surface shell and may be covered by the head-end lampshade. In one aspect, the battery may be disposed or installed on the side of the head-end bottom shell facing away from the head-end surface shell.

In yet a further embodiment, each of the plurality of intermediary segment may include an intermediary main body, an intermediary lamp board and an intermediary lampshade. In one aspect, the connecting member may be passing through the intermediary main body. In one aspect, the intermediary lampshade may be attached to one side of the intermediary main body. In yet another embodiment, the intermediary lamp board may be disposed on the intermediary main body and covered by the intermediary lampshade.

In yet a further embodiment, the tail-end segment may include a tail-end bottom casing or shell, a tail-end surface casing or shell, a tail-end light board and a tail-end lampshade. In one aspect, the tail-end bottom shell and the tail-end surface shell may be engaged with another together. In one aspect, the tail-end lampshade may be engaged with a side of the tail-end bottom shell facing away from the tail-end surface shell. In a further aspect, the connecting member may be inserted between the tail-end bottom shell and the tail-end surface shell. In another aspect, the tail-end lamp board may be disposed on one side of the tail-end bottom shell facing away from the tail-end surface shell and may be covered by the tail-end lampshade.

In yet a further embodiment, one end of the head-end segment of the lamp body assembly facing away from the intermediary lamp body assembly and one end of the tail-end lamp body assembly facing away from the intermediary lamp body assembly are detachably connected.

In yet a further embodiment, an end of the head-end segment facing away from the intermediary main body may be provided with a quick-release member A. In another aspect, an end of the tail-end segment facing away from the intermediary main body may be provided with a quick-release member B, wherein the quick-release member B may be reciprocally fastened to the quick-release member A. The quick-release member A and the quick-release member B may be mutually or reciprocally connected or buckled to realize the lateral connection of the two fill light segments.

In yet a further embodiment, based on above configurations, one or more fill light lamp assemblies may be connected in a longitudinal direction.

In yet a further embodiment, the end of the head-end segment facing away from the intermediary main body may be provided with a head-end mounting hole for receiving a head-end connecting pin so that the head-end connecting pin may be installed. In another embodiment, the end of the tail-end segment facing away from the intermediary segment may be provided with a tail-end mounting hole for receiving a tail-end connecting pin so that the tail-end connecting pin may be installed. In one further embodiment, a plurality of the longitudinally arranged head-end connecting pin may connect to the another head-end segment (e.g., via a head-end connecting bracket). Similarly, a plurality of the longitudinally arranged tail-end connecting pin may connect to the another tail-end segment (e.g., via a tail-end connecting bracket) in the longitudinal direction.

The technical solution of embodiments of the present application may include the following advantages:

1. The bendable fill light provided by aspects of this application may include multi-segment lamp body assembly connected in sequence, and any two adjacent lamp body assemblies or segments may be rotatably connected, with a connecting member passing through and connecting the segments. In one aspect, the connecting member is bendable so as to enable the different segments and adjustment fill light lamp assembly. In one embodiment, the connecting member may hold its position or stiffness once it's bent in place so that different segments of the lamp body assembly may be adjusted to be in one or more illumination angles so that the light-emitting surfaces or sides may direct lights the object. In addition, the light provided from the fill light lamp is continuous and uniform. Aspects of the invention avoid multiple light spots on the object when photographed.

2. The bendable fill light lamp provided by this application includes the multiple segments, which enable the segments to position or arranged in a parallel arrangement state. In one aspect, the segments may not be bent so they are straight while providing a panel of fill light lamp. When the light lamp assembly is in a bent position or state (e.g., forward bending) with the light-emitting surfaces facing the object, the source of the light may be in a focused position, giving a spotlight effect on the object. When the light lamp assembly is in a backward bending position or state away from the object, the fill light lamp may provide an effect of light flooding or spreading effect.

3. In one embodiment, the light-emitting surfaces of the segments of the fill light lamp assembly may be positioned on the same plane. In one aspect, this arrangement may avoid or alleviate having light sources coming from different light surfaces and may create negative appearances on the object, such as having light and dark boundary lines on the photographed objects during shooting.

4. In one aspect, adjacent two segments of the fill light lamp may be connected through the connecting member and the corresponding groove. This configuration may ensure that the adjacent segments may be in a parallel arrangement state and may connect with each other with a stable connection. Further, in one embodiment, the gap between the two adjacent segments may be reduced as much as possible through the above configuration. With this approach, the lighting exposure may be continuous.

5. In a further aspect, the connecting member may be disposed in the interior of the segments in the groove or installation channel. In such arrangement, the connecting member may be concealed or may be hidden from viewing to users. In one embodiment, the exterior appearance of the fill light lamp is aesthetically pleasing. In yet another embodiment, when the fill light lamp assembly is bent in different directions, the force required to be applied on the fill light lamp assembly is more consistent.

6. In yet another embodiment, the fill light lamp may include or consist of a bendable metal tube. In one aspect, the metal tube may include a high bending stress and may not be prone to permanent deformation due to repeated bending. This is beneficial for the multi-segment fill lamp assembly to maintain its position.

7. In a further aspect, the fill light lamp assembly is composed of the head-end segment, the intermediary segment and the tail-end segment and that they are arranged in a series or in sequence. In one aspect, when the number of the intermediary segments becomes larger or substantial, the fill lighting effect is especially pronounced and effective.

8. In yet another embodiment, the head-end segment, the intermediary segment, and the tail-end segment may be connected in series, electrically. In one aspect, the head-end electrical circuit board may be configure to control the power on and off switch. In yet a further aspect, the battery may power the head-end electrical circuit board. In one aspect, this configuration conserve energy by having the plurality of segments shares the same head-end electronic circuit board and the battery, thus reducing the complicated need for the intermediary segments having the switch or battery. In this embodiment, this further reduces the production cost.

9. In yet another embodiment, the one end of the head-end segment and the one end of the tail-end segment may include a quick-release or detachably connected connector. This configuration, in one embodiment, may provide the lateral connection of two or more fill light lamps. This further aspect may enable the fill light lamps to be joined together to create larger size and bigger angle mapping or matrix of the fill light effect.

10. In yet another embodiment, the plurality of intermediary segments be connected longitudinally as a whole, so that a larger area of intermediary segments may be achieved.

REFERENCE LABELS IN FIGURES

DETAILED DESCRIPTION

The technical solutions of the present application may be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skilled in the art without creative efforts shall fall within the protection scope of the present application.

In the description of this application, it should be noted that the terms “center”, “upper”, “lower”, “left”, “right”, “vertical”, “horizontal”, “inner”, “outer”, etc., where indicated orientation or positional relationship is based on the orientation or positional relationship shown in the accompanying drawings, which is only for the convenience of describing the present application and simplifying the description, rather than indicating or implying that the indicated device or element must have a specific orientation or a specific orientation, construction or operation, and therefore should not be construed as limitations on this application. Furthermore, the terms “first”, “second”, and “third” are used for descriptive purposes only and should not be construed to indicate or imply relative importance.

In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms “installed”, “engaged with” and “connected to” should be understood in a broad sense, for example, it may be a fixed connection or a detachable connection, or connection in one piece or an integral way. In another example, it may be a mechanical connection or an electrical connection; it may be a direct connection or an indirect connection through an intermediate medium, and it may be an internal communication of two elements. For those of ordinary skilled in the art, the specific meanings of the above terms in this application may be understood in specific situations.

Referring now toFIGS.1-3, diagrams and schematics showing a bendable or flexible fill light lamp100according to one embodiment. In one example, the bendable fill light lamp100may be a multi-segment fill light lamp assembly. In one aspect, the bendable fill light lamp100may include a head-end segment110, multi-segment intermediary segments120, and a tail-end segment130. In one embodiment, the head-end segment110and the intermediary segments120may include, in any adjacent two intermediary segments120, and the intermediary segment120and the tail-end segment130may be movably or rotatably connected. In one aspect, the head-end segment110, the intermediary segments120and the tail-end segment130may be configured to include one or more lighting sources. In one embodiment, the one or more lighting sources of the head-end segment110, the intermediary segment120, and the tail-end segment130may be disposed on the same side of the bendable fill light lamp, so that the one or more lighting sources may be continuously or consecutively arranged. In one aspect, one or more connecting member200may be configured or disposed in the interior of the head-end segment110, the intermediary segment120, and the tail-end segment130. In one embodiment, the connecting member200may be of a flexible material. In another embodiment, the intermediary segments120may be bent or curved in response to the curvature of the connecting member200.

In another aspect, the bendable fill light lamp100may be structured with a plurality of segments each with a lighting source and the plurality of segments are connected with one another with any two adjacent segments movably or rotatably connected. As shown inFIG.1, the segments include interior chambers or channels to receive the connecting member200. When the bendable fill light lamp100is in use, the plurality of segments120may be moved through the curvature, angle or shape of the connecting member200to adjust or provide the various lighting angles needed for the photographing needs. In one embodiment, the bendable fill light lamp100may also provide and adjust at will of the angle of light due to its flexibility. In addition, the fill lighting may be continuous and uniformly presented or shone on the object. In one aspect, the effect of the lighting based on the bendable fill light lamp100may alleviate or avoid the effects of shadow or multiple light spots on the object when photographed.

Specifically, the light emitting surface (LES) of the head-end segment110, the intermediary segment120, and the tail-end segment130may be disposed on the same plane. By so doing, the bendable fill light lamp100may eliminate, avoid or alleviate having light and dark boundary lines on the photographed objects during shooting as a result of having two adjacent segments' light shining on the object from different distances.

In one embodiment, the intermediary segment120may include segments. The head-end segment110and the tail-end segment130may be disposed at the head position and the tail position of the intermediary segment120. In one aspect, the intermediary segment120, the head-end segment110, and the tail-end segment130may be configured in a block structure with the light sources on flat surfaces. In one aspect, the lengths of the head-end segment110and the tail-end segment130are greater than that of the intermediary segment120. In one aspect, the number of the intermediary segment120may not be limited to seven as shown inFIGS.1-2. In one aspect, the number may vary. In one aspect, the higher the number of the intermediary segment120, the width of each of the segments in the intermediary segment120may be reduced, thus further increasing the uniformity and continuity of the fill light. In another aspect, the shapes of the intermediary segment120, the head-end segment110and the tail-end segment130may vary and may not need to be in the block structure as shown. It is to be understood that other shapes or designs may be perceived, as long as each segment may be connected and that the lighting source on each may be consecutively arranged, without departing from the scope and spirit of the invention.

In one embodiment, the head-end segment110, the intermediary segment120, and the tail-end segment130may internally or within each of its interior space may permit the connecting member200to pass through or disposed in the connecting channel or chamber300. In one aspect, the connecting member200may be disposed in or between one or more connecting channel or chamber300. In one embodiment, the intermediary segment120may provide the one or more connecting channel or chamber300in the intermediary main body121, as shown inFIG.7. In one aspect, the connecting member200may pass through the one or more connecting channel or chamber300of the segments. By so doing, the bendable fill light lamp100may conceal the connecting member200so that the bendable fill light lamp100may be aesthetically pleasing. In yet another embodiment, when the bendable fill light lamp100may be bent in different directions, the force required to be applied on the bendable fill light lamp100is more consistent.

In yet another embodiment, the connecting member200may be metallic bendable tube. In another embodiment, there may be two tubes. The bendable metal tube structure may withstand high bending stress, and may not be prone to permanent deformation due to bending. In one aspect, the connecting member200may be conducive to maintaining the stability of the arrangement state of the multi-segment bendable fill light lamp100. The provision of two metal tubes, in one aspect, may be beneficial for the multi-segment fill light lamp assembly to maintain its own balance during the bending process of the bendable fill light lamp100. In a further embodiment, the configuration of the two tubes may further alleviate or prevent the bendable fill light lamp100from rotating. In an alternative embodiment, the number of metal tubes may also be one, three or more, and the metal tubes may also be replaced by elastic metal sheets.

As shown inFIGS.3-5, the head-end segment110, the intermediary segment120, and the tail-end segment130may include a parallel arrangement state in a straight line arrangement during the bending process of the connecting member200with the light-emitting surface side facing or curving forward in a curved arrangement state or the backward curved arrangement state curved on the side facing away from the light-emitting surface. When the bendable fill light lamp100is in a parallel arrangement, the multiple light-emitting surfaces, as shown, are on the same plane. In another embodiment, when the bendable fill light lamp100is in a forward curving arrangement or a backward curving arrangement, the multiple light-emitting surfaces are on the same plane. In one embodiment, the arrangement may be in a continuous arc surface. In another embodiment, the bendable fill light lamp100may be switched among a parallel arrangement state, a forward bending arrangement state and a backward bending arrangement state. In one aspect, when the bendable fill light lamp100is in the parallel arrangement, the parallel fill lighting configuration may be realized. In yet another aspect, when the bendable fill light lamp100is in the forward bending arrangement state, the bendable fill light lamp100may enable the fill light sources function as spotlights or the source of the light may be in a focused position, giving a spotlight effect on the object. In yet further aspect, wherein the bendable fill light lamp100is in the backward bending arrangement state, the bendable fill light lamp100may provide an effect of light flooding or spreading effect.

As shown inFIG.6, the head-end segment110may include the head-end bottom casing or shell111, the head-end surface casing or shell112, the head-end electrical circuit board113, the head-end lamp board114, the head-end lampshade115and the battery116. In one aspect, the head-end bottom casing or shell111may be fastened to the head-end surface casing or shell112. In one aspect, the head-end lampshade115may be fastened to the side of the head-end bottom casing or shell111that faces away from the head-end surface casing or shell112. The head-end electrical circuit board113may be arranged inside the head-end bottom casing or shell111and head-end surface casing or shell112. In one aspect, the connecting member200may be arranged between the head-end bottom casing or shell111and the head-end surface casing or shell112. The head-end lamp board114may be installed on the side of the head-end bottom casing or shell111facing away from the head-end surface casing or shell112and covered by the head-end lampshade115. In one aspect, the battery116may be installed on the head-end surface casing or shell112facing away from the head-end bottom casing or shell111on one side. Specifically, the head-end electrical circuit board113may be locked on the inside of the head-end surface casing or shell112through fastening devices, such as screws. In a further aspect, the battery116may be assembled on the outside of the head-end surface casing or shell112through snaps. In one embodiment, the head-end lamp board114may be locked on the head-end surface casing or shell112through fastening devices, such as screws. In one aspect, the outside of the end bottom casing or shell111and the head-end lampshade115may be assembled on the outside of the head-end bottom casing or shell111by snaps. In a further aspect, the head-end bottom casing or shell111may be locked on the head-end surface casing or shell112through fastening devices, such as screws. In a further embodiment, one end of the head-end surface casing or shell112and the head-end bottom casing or shell111may be fixedly connected with a quick-release member A117by fastening means, such as screws.

Referring toFIG.7, in one embodiment, the intermediary segment120may include the intermediary main body121, the intermediary lamp board122, and the intermediary lampshade123. In one aspect, the connecting member200may be disposed or installed on the intermediary main body121. In one aspect, the intermediary lampshade123may be connected on one side of the intermediary main body121. In one aspect, the intermediary lamp board122may be disposed or installed on the intermediary main body121and may be covered by the intermediary lampshade123. Specifically, the intermediary lamp board122may be secured or fastened to the intermediary main body121. In another embodiment, the intermediary lampshade123may be snapped to the intermediary main body121. In a further aspect, the intermediary main body121may be in a framed structure, and the intermediary main body121may be include the connecting channel or chamber300for receiving the connecting member200to pass through.

Referring now toFIG.8, the tail-end segment130may include the tail-end bottom casing or shell131, the tail-end surface casing or shell132, the tail-end lamp board133, and tail-end lampshade134. In one aspect, the tail-end bottom casing or shell131and the tail-end surface casing or shell132may reciprocally match. In another embodiment, the tail-end lampshade134and the tail-end bottom casing or shell131may be snap to the side facing away from the tail-end surface casing or shell132. In one aspect, the connecting member200may be disposed between the tail-end bottom casing or shell131and the tail-end surface casing or shell132. In one aspect, the tail-end lamp board133may be configured on the one side of the tail-end bottom casing or shell131facing away from the tail-end surface casing or shell132and may be covered by the tail-end lampshade134. In one aspect, the tail-end lamp board133may be secured on the tail-end bottom casing or shell131. In a further aspect, the tail-end lampshade134may be snapped to the tail-end bottom casing or shell131, and the tail-end bottom casing or shell131may be secured to the tail-end surface casing or shell132. In a further aspect, the tail-end surface casing or shell132may be secured to one end of the tail-end bottom casing or shell131through a quick-release member B135.

According to embodiments of the invention, the head-end lamp board114, the intermediary lamp board122, and the tail-end lamp board133may be connected in a series via electrical wire. In one aspect, the wire may include a certain flexibility to allow bending of the bendable fill light lamp100. In a further aspect, the head-end electrical circuit board113may simultaneously control or configure the switch or on/off of the head-end lamp board114, the intermediary lamp board122, and the tail-end lamp board133. In one aspect, the battery116may provide the power or energize the head-end electrical circuit board113, the head-end lamp board114, the intermediary lamp board122, and the tail-end lamp board133. As such, with this configuration, the head-end electrical circuit board113may control or configure multiple segments and multiple sets of the bendable fill light lamp100with the battery116. This further may, in one embodiment, simplify the configuration and design of the structure and configuration of the intermediary segment120and the tail-end segment130. With this flexibility, the cost of manufacturing of the bendable fill light lamp may be reduced. In yet another embodiment, the head-end lamp board114, the intermediary lamp board122, and the tail-end lamp board133may be in blocks or rectangular shaped. In one aspect, each of the boards may include a plurality of light beads, and the plurality of light beads may be evenly arranged in a matrix to improve the uniformity and continuity of the light emission.

Referring now toFIGS.9-10, the head-end segment110may include a connecting port400extending or protruding on one side. In another embodiment, the end of the intermediary segment120that is close to the head-end segment110may include an installation groove (not show) to receive the connecting port400. In one aspect, adjacent segments or the bendable fill light lamp100may be connected via the connecting port400through the installation groove. In this arrangement or configuration, it can ensure that the adjacent segments are stably or securely attached and reduce the gaps between the segments to maximize the area of fill light and the scope of the fill effect. In one aspect, the facing sides of the connecting port400may include the first installation hole410. In one aspect, the intermediary segment120may include facing sides thereof to include the second installation hole420that matches with the first installation hole410. In one embodiment, the connecting pin500may be disposed between the first installation hole410and the second installation hole420. The head-end segment110and the intermediary segment120may rotate about the connecting pin500. Accordingly, the same way of rotation may be applicable to the adjacent segments of the intermediary segment120; the intermediary segment120and the tail-end segment130; the head-end segment110and the intermediary segment120. In an alternative embodiment, the rotational connection structure between two adjacent segments may also include a hinge connection structure.

As shown inFIGS.11-14, the head-end segment110and the tail-end segment130on the other fill light may be detachably connected through the quick-release member A117and the quick-release member B135. In one embodiment, the horizontal connection of two or more bendable fill light lamp may achieve a larger length and a larger angle fill light effect as needed. Specifically, one of the quick-release member A117and the quick-release member B135may be provided with a dovetail type chute, and the other is provided with a dovetail type slider. The quick-release member A117and the quick-release member B135may provide the quick connection of the head-end segment110and the tail-end segment130through the dovetail chute. In another aspect, it is to be understood that the sliding fit of the dovetail slider associated with the installation of the quick-release member A117and the quick-release member B135may be interchangeably positioned or configured. In an alternative embodiment, the head-end segment110, the tail-end segment130are not limited to the above-mentioned quick-release member A117, the quick-release member B135, or the slot matching connection method. In one aspect, the head-end segment110and the tail-end segment130may also be attached with magnets or screw connections. It is to be understood that other connecting methods may be used without departing from the scope or spirit of embodiments of the invention.

As shown inFIGS.15-17, in one embodiment, the longitudinal connection of the plurality of the intermediary segments120may be realized by connecting the two ends of the plurality of the intermediary segments120through the longitudinal connection structure. In one embodiment, the end of the head-end segment110facing away from the intermediate segment120may be provided with a head-end mounting hole118for mounting the head-end connecting pin600, and the end of the tail-end segment130facing away from the intermediary segment120may be provided with a tail-end mounting hole to receive the tail-end connecting pin700. In one aspect, the head-end mounting hole118may be disposed on the quick-release member A117, and the tail-end mounting hole may be disposed on the quick-release member B135. In one aspect, the longitudinal connecting structure may include the head-end connecting bracket800and the tail-end connecting bracket900. In one aspect, the head-end connecting bracket800and the tail-end connecting bracket900may be of the same structure and may all be configured with a strip of holes or openings thereon. In one aspect, a plurality of longitudinally arranged head-end connecting pins600may be connected to the head-end mounting hole118through one hole on the same head-end connecting bracket800. In another aspect, a plurality of longitudinally arranged tail-end connecting pins700may be connected to the tail-end mounting hole through one hole on the same tail-end connecting bracket900. With such a structure, a plurality of intermediary segments may be longitudinally connected as a whole, and a larger area fill light effect may be achieved.

In summary, the bendable fill light lamp of embodiments of the invention may enable a fill light angle that may be adjusted at will as required. In one aspect, the continuity and uniformity of fill light may be accomplished and the phenomenon of multiple lamp spots and other disadvantages may be removed. Further, the multiple segments of the bendable fill light lamp may be combined horizontally and vertically as needed, thus achieving a larger angle and a wider range of continuous fill light.

The uniformity effect lamp for supplementary light is composed of multi-segment lamp body assemblies connected in sequence, any two adjacent lamp body assemblies can be rotatably connected, and a bendable connecting member200is passed between the multi-segment lamp body assemblies to supplement the light. During the use of the light lamp, the bending of the connecting member200may drive multiple lamp body segments to bend, so as to realize the sequential adjustment of the illumination angles of the light-emitting surfaces on the multiple lamp body assemblies; the fill light angle of the fill light can be adjusted at will as required, and the supplementary light is continuous, the uniformity of the supplementary light is better, and the phenomenon of multiple lamp eyes on the object to be photographed will not appear during photography, which improves the shooting effect. When the fill light is arranged in a straight line, the parallel fill light function can be realized; when the fill light is in a forward curved arrangement, the spot fill light function can be realized; when the fill light is in a backward curved arrangement When the astigmatism is used, the astigmatism and supplementary light function can be realized; the angle of the supplementary light can be adjusted according to the needs, and the supplementary light is continuous, and the uniformity of the supplementary light is better. In addition, the multi-section fill light can be spliced horizontally and vertically, which can achieve a larger angle and a larger area of fill light effect.

Obviously, the above-mentioned embodiments are only examples of the description, and are not intended to limit the implementation manner. For those of ordinary skilled in the art, changes or modifications in other different forms can also be made on the basis of the above description. There is no need and cannot be exhaustive of all implementations here. And the obvious changes or changes derived from this are still within the scope of protection created by the present application.