CN220647919U - Flexible lamp strip and lamp - Google Patents

Abstract

The utility model discloses a flexible lamp strip and a lamp, wherein the flexible lamp strip comprises a first light-emitting section, a connecting section, a first conductive terminal part and a second light-emitting section, the connecting section extends along one end of the first light-emitting section, the connecting section and the first light-emitting section are integrally formed, and the connecting section can be bent; the first conductive terminal part is connected to the end part of the connecting section far away from the first light-emitting section; the second light-emitting section and the connecting section are fixedly connected through the first conductive terminal part. According to the utility model, the flexible lamp strip is provided with the connecting section to replace wires in the prior art, one end of the connecting section is connected with the first light-emitting section and is integrally formed, the end does not need to be fixedly connected with the first light-emitting section, and the other end of the connecting section is connected with the second light-emitting section through the first conductive terminal part.

Description

Flexible lamp strip and lamp

Technical Field

The utility model relates to the technical field of display accessories, in particular to a flexible lamp strip and a lamp.

Background

At present, the lamp strip for providing the display with the ambient light on the market comprises a flexible circuit board and a plurality of electronic elements arranged at intervals, each electronic element is fixed on the flexible circuit board along the length direction of the flexible circuit board, and the lamp strip cannot directly bend the corner, so that the mechanical stress of the bending part can be obviously increased when the flexible circuit board is directly bent, and the phenomena of circuit cracking on the flexible circuit board, detachment of the electronic elements on the surface and the like are easily caused, so that the product performance is greatly damaged.

As shown in fig. 1 to 2, in order to avoid damage to the lamp strip caused by directly bending the flexible circuit board, it is an practice in the industry to divide the flexible circuit board into a plurality of flexible board bodies 10, and connect the flexible board bodies 10 with each other by using wires 20, because the wires 20 have high flexibility, the multi-angle turning installation can be performed well. The step of connecting the flexible board body 10 by using the wire 20 is generally to weld the two ends of the wire 20 to the part of the flexible board body 10 to be connected, because the wire 20 has a smaller width and the flexible board body 10 has a larger width, and the connection is not attractive, and simultaneously, stress is easily generated to cause the wire 20 to fall off, so that the wire 20 needs to be wrapped at the connection place of the wire 20 and the flexible board body 10 by using the heat-shrinkable sleeve 30, and finally, the heat-shrinkable sleeve 30 is shrunk to just wrap the flexible board body 10 and the wire 20 by heating the heat-shrinkable sleeve 30 to finish the process of connecting the wire 20 to the flexible board body 10, thereby increasing the firmness and the attractive appearance of the welding place of the wire 20 and the flexible board body 10.

For the process of connecting the flexible board bodies by using wires, the process of fixedly connecting two ends of one wire to the corresponding flexible board bodies needs to be carried out twice, and meanwhile, a heat-shrinkable sleeve needs to be additionally added to fix the connection positions of the wires, so that the steps of fixing the wires, sleeving the heat-shrinkable sleeve, shrinking the heat-shrinkable sleeve and the like all need to occupy working hours in the process, and the added heat-shrinkable sleeve also needs to occupy certain cost, so that the production cost of the lamp strip is increased.

Disclosure of Invention

The utility model aims to provide a flexible lamp strip and a lamp, which are used for solving the technical problems that in the existing lamp strip processing technology, a flexible circuit board is divided into a plurality of flexible board bodies, wires are used for connecting the flexible board bodies, the wires are used for turning installation and storage, when two ends of the wires are respectively fixedly connected to two flexible board bodies, the two assembly and connection technologies are required to be respectively carried out, and meanwhile, a heat shrinkage sleeve is required to be added to fix the connection position of the wires, so that the operation man-hour is required to be occupied, and the production cost of the lamp strip is increased.

The utility model is realized in the following way:

the utility model provides a flexible light strip, comprising:

a first light emitting segment;

the connecting section extends along one end of the first light-emitting section, the connecting section and the first light-emitting section are integrally formed, and the connecting section can be bent;

a first conductive terminal portion connected to an end portion of the connection section remote from the first light emitting section;

the second luminous section is fixedly connected with the connecting section through the first conductive terminal part.

Further, the width of the connection section is not greater than the width of the first light-emitting section; and/or the number of the groups of groups,

the width of the connecting section is not larger than the width of the second light-emitting section.

Further, the width of the connecting section is smaller than that of the first light-emitting section, and the first light-emitting section is in arc transition connection with the connecting section.

Further, the width of the connecting section is smaller than that of the first light-emitting section, the flexible light strip further comprises a plurality of connecting wires, and two adjacent connecting wires are arranged at intervals along the width direction of the flexible light strip;

one end of each connecting wire is electrically connected with the first light-emitting section, the other end of each connecting wire extends to the connecting section along the first light-emitting section to be electrically connected with the first conductive terminal part, and the line width of each connecting wire is the same;

the minimum distance between two adjacent connecting wires in the first light-emitting section is defined as a first wire distance, and the maximum distance between two adjacent connecting wires in the connecting section is defined as a second wire distance, wherein the second wire distance is smaller than the first wire distance.

Further, the flexible light strip further comprises:

the second conductive terminal part is arranged at the end part of the first luminous section away from the connecting section, and is used for realizing the fixed connection of the first luminous section and the third luminous section, or is used for realizing the fixed connection of the first luminous section and the external control component.

Further, the first conductive terminal part comprises a plurality of first welding terminals arranged at intervals, and the second luminous section and the connecting section are connected through the first welding terminals; and/or the number of the groups of groups,

the second conductive terminal part comprises a plurality of second welding terminals arranged at intervals, wherein the second welding terminals are used for realizing the fixed connection of the first luminous section and the third luminous section, or the second welding terminals are used for realizing the fixed connection of the first luminous section and the external control component.

Further, the width of the first light emitting section is equal to the width of the second light emitting section.

Further, the connecting section is linear, wavy or folded.

Further, when the connection section is in a curled state, the first light emitting section extends in a first direction, the second light emitting section extends in a second direction, and the first direction and the second direction intersect.

The utility model also provides a lamp, which comprises the flexible lamp strip.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the flexible lamp strip is provided with the connecting section to replace wires in the prior art, one end of the connecting section is connected with the first light-emitting section and is integrally formed, so that the connecting part of the connecting section and the first light-emitting section does not need to adopt a fixed connection process, meanwhile, a heat-shrinkable sleeve is not required to be wrapped, the other end of the connecting section is connected with the second light-emitting section through the first conductive terminal part, and compared with the traditional wire fixing mode, the flexible lamp strip can reduce the assembly connection times, and meanwhile, the use of the heat-shrinkable sleeve and the heat-shrinkable man-hour of the heat-shrinkable sleeve are also saved, thereby greatly improving the production efficiency and saving the cost.

Drawings

FIG. 1 is a schematic view of a conventional light strip in the industry;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic view of a flexible light strip according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a lamp provided in an embodiment of the present utility model after being mounted on a back surface of a display device;

fig. 5 is a schematic structural diagram of a first flexible light bar according to an embodiment of the present utility model;

fig. 6 is a schematic structural diagram of a second flexible light bar according to an embodiment of the present utility model.

In the figure:

10. a flexible board body; 20. a wire rod; 30. a heat-shrinkable sleeve; 40. a flexible light strip; 41. a first flexible light bar; 411. a first light emitting segment; 4111. a first flexible light panel; 4112. a first light emitting member; 412. a connection section; 413. a first conductive terminal portion; 4131. a first welding terminal; 414. connecting wires; 415. a second conductive terminal portion; 4151. a second welding terminal; 42. a second flexible light bar; 421. a second light emitting section; 4211. a second flexible light panel; 4212. a second light emitting member; 4213. a third conductive terminal portion; 4214. a third welding terminal; 43. a narrowed section; 50. a display device; 60. a third light emitting section; x, a first direction; y, second direction.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Referring to fig. 3 to 4, the embodiment of the utility model discloses a lamp, which comprises at least one flexible light strip 40, wherein the lamp is installed on the back of a display device 50, the lamp can be externally connected with a power supply, the independent power supply is used for providing electricity, the number of the flexible light strips 40 in the lamp can be set according to the requirement, and the lamp can make multi-directional turning at the corner of the display device 50 through the flexible light strips 40, so that the lamp is installed and adapted to the display device 50 with different sizes, and the effect of providing environment light for the display device 50 is achieved.

In this embodiment, the flexible light strip 40 includes a first flexible light strip 41 and a second flexible light strip 42, one end of the first flexible light strip 41 is connected with the second flexible light strip 42, and the other end of the first flexible light strip 41 can be fixedly connected with another first flexible light strip 41 or another third flexible light strip or an external control component.

The first flexible light bar 41 includes the first lighting segment 411, the connecting segment 412 and the first conductive terminal portion 413, the connecting segment 412 extends along one end of the first lighting segment 411, the connecting segment 412 can be bent, replace the wire rod 20 with the connecting segment 412 and can be installed at the corner of the back of the display device 50 in a multidirectional turning mode, because the connecting segment 412 and the first lighting segment 411 are integrally formed, welding is not needed at the connection of the connecting segment 412 and the first lighting segment 411, meanwhile, the heat-shrinkable sleeve 30 does not need to be wrapped, the first conductive terminal portion 413 is connected at the end, far away from the first lighting segment 411, of the connecting segment 412, namely, the first conductive terminal portion 413 can be partially located at the end of the first lighting segment 411, and can also be completely located at the end of the first lighting segment 411, the second flexible light bar 42 includes the second lighting segment 421, the connecting segment 412 in the first flexible light bar 41 is fixedly connected with the second flexible light bar 421 through the first conductive terminal portion 413, and the fixed mode of welding is adopted between the first flexible light bar 41 and the second flexible light bar 42 for example, and then the traditional heat-shrinkable sleeve 20 is needed to be welded once, and the number of times of the traditional heat-shrinkable sleeve is reduced, and the number of times of welding is reduced, and the heat-shrinkable sleeve 30 is saved, and the time of the traditional heat-shrinkable sleeve is also required to be welded, and time is reduced, and the time is 40.

In some embodiments, the width of the connection section 412 is not greater than the width of the first light-emitting section 411, and/or the width of the connection section 412 is not greater than the width of the second light-emitting section 421, in which embodiment the width of the connection section 412 is smaller than the width of the first light-emitting section 411, and the width of the connection section 412 is smaller than the width of the second light-emitting section 421, which corresponds to providing one narrowing section 43 in the flexible light strip 40, the width of the flexible light strip 40 provided with the narrowing section 43 at both ends of the narrowing section 43 is greater than the width of the portion of the narrowing section 43, and the narrowing section 43 can be curled at the corner of the back of the display device 50.

Of course, in other embodiments, the width of the connection section 412 and the width of the first light-emitting section 411 may be equal, and/or the width of the connection section 412 and the width of the second light-emitting section 421 may be equal.

In some embodiments, the flexible light strip 40 is a flat strip, the length of the narrowed section 43 can be set as desired, and the flexibility of the flexible light strip 40 can be improved by providing the flexible light strip 40 with a longer narrowed section 43, the narrowed section 43 facilitating multi-directional turning curl.

The main use of the flexible light strip 40 provided with the narrowing section 43 is to attach the flexible light strip 40 to the back of the display device 50, so as to provide additional ambient light for the display device 50, when adapting to different sizes of display devices 50, the narrowing section 43 of the flexible light strip 40 can be curled as shown in fig. 4, and then the curled portion is fixed to the back of the display device 50, so that the ambient light emitted by the flexible light strip 40 can not be seen when the display device 50 is watched, but the body of the flexible light strip 40 is seen, and the sense-looking visual feeling can be better brought.

In this embodiment, the connection section 412 may be in a straight line shape, a wavy line shape or a zigzag line shape, so as to disperse the bending stress generated by the connection section 412 in the curled state, and reduce the risk of breakage of the connection section 412 when curled.

Referring to fig. 4 to 6, in some embodiments, the first light emitting section 411 includes a first flexible light plate 4111 and a plurality of first light emitting members 4112 disposed at intervals, the first flexible light plate 4111 is in a strip shape, each first light emitting member 4112 is sequentially fixed on the first flexible light plate 4111 along the length direction of the first flexible light plate 4111 and electrically connected with the first flexible light plate 4111, the first flexible light plate 4111 and the connection section 412 are integrally formed, the first light emitting member 4112 can emit soft ambient light after being electrified, the connection section 412 in the flexible circuit board is not provided with the first light emitting member 4112, therefore, the connection section 412 can be curled at will, and the first light emitting member 4112 is an LED light emitting chip.

In this embodiment, the flexible light strip 40 further includes a plurality of connection wires 414, and two adjacent connection wires 414 are disposed at intervals along the width direction of the flexible light strip 40; one end of each of the plurality of connection wires 414 is electrically connected with the first light emitting member 4112 on the first light emitting section 411, and the other end extends to the connection section 412 along the first light emitting section 411 to be electrically connected with the first conductive terminal portion 413, and the line width of each of the connection wires 414 is the same; in an embodiment, the width of the connection section 412 is smaller than the width of the first light emitting section 411, wherein the minimum distance between two adjacent connection wires 414 in the first light emitting section 411 is defined as a first line distance L1, the maximum distance between two adjacent connection wires 414 in the connection section 412 is defined as a second line distance L2, and the second line distance L2 is smaller than the first line distance L1, and a line width of a certain width can be maintained by reducing the line distance to avoid increasing the voltage drop.

In some embodiments, the width of the connection section 412 is smaller than that of the first light-emitting section 411, and the first light-emitting section 411 and the connection section 412 are connected by adopting an arc transition, the first light-emitting section 411 uses an arc to transition from the conventional width to the portion of the narrowed section 43, the arc transition is smoother, and mechanical stress generated in the transition region can be uniformly distributed, so that the transition region is prevented from being deformed and cracked due to mechanical stress generated when the narrowed section 43 is bent, and therefore, the heat-shrinkable sleeve 30 does not need to be additionally added in the transition region for protection treatment.

The flexible light strip 40 further includes a second conductive terminal portion 415 disposed at an end portion of the first light emitting section 411 away from the connection end, where the second conductive terminal portion 415 is used to achieve fixed connection between the first light emitting section 411 and the third light emitting section 60, or the second conductive terminal portion 415 is used to achieve fixed connection between the first light emitting section 411 and an external control component, so as to achieve assembly of the flexible light strip 40.

The first conductive terminal portion 413 may be a welding connection terminal or a welding-free connection terminal, so that the first conductive terminal portion 413 may be used for being connected to the second light emitting section 421, the connection manner thereof may be a clamping connection, welding or fastening connection, the second conductive terminal portion 415 may be a welding connection terminal or a welding-free connection terminal, the second conductive terminal portion 415 may be used for being connected to the third light emitting section 60 or an external control component, the connection manner thereof may be a clamping connection, welding or fastening connection, the specific installation manner may be selected according to the actual needs, and the connection manner of the first conductive terminal portion 413 and the second conductive terminal portion 415 is not particularly limited.

In this embodiment, the first conductive terminal portion 413 includes a plurality of first soldering terminals 4131 disposed at intervals, and the second light emitting section 421 and the connection section 412 are electrically connected by the first soldering terminals 4131; the second conductive terminal portion 415 includes a plurality of second welding terminals 4151 disposed at intervals, where the second welding terminals 4151 are used to achieve the fixed connection between the first light emitting section 411 and the third light emitting section 60, or the second welding terminals 4151 are used to achieve the fixed connection between the first light emitting section 411 and the external control component, and the welding terminals are used to save production cost and reduce installation time.

In some embodiments, the width of the first light emitting section 411 may be equal to the width of the second light emitting section 421, which is convenient for manufacturing and production, so as to reduce the production cost of the flexible light strip, and also to maintain the aesthetic degree of the flexible light strip.

The second light-emitting section 421 includes a second flexible light board 4211, a plurality of second light-emitting members 4212 disposed at intervals, and two third conductive terminal portions 4213, the two third conductive terminal portions 4213 are respectively connected to two end portions of the second flexible light board 4211, the second light-emitting member 4212 is disposed on the second flexible light board 4211 and between the two third conductive terminal portions 4213, at least one of the two third conductive terminal portions 4213 is electrically connected with the first conductive terminal portion 413, the second flexible light board 4211 can control the second light-emitting member 4212 to emit soft ambient light, and the second light-emitting member 4212 can be an LED light-emitting chip.

The second light-emitting section 421 is a conventional flexible light bar without the narrowed section 43, that is, the remaining structure of the narrowed section 43 is removed from the first flexible light bar 41, the second light-emitting section 421 is not mounted at the corner of the display device 50, the second light-emitting section 421 does not need to be bent, and can be mounted on the long side of the back of the display device 50, and of course, the second light-emitting section 421 can also be in other structural forms, and the structural shape of the second light-emitting section 421 can be set according to actual needs.

In some embodiments, the third conductive terminal portion 4213 includes a plurality of third welding terminals 4214 disposed at intervals, each third welding terminal 4214 is electrically connected to the second flexible light board 4211, and the third welding terminal 4214 may be used for welding with one first flexible light bar 41 to achieve the connection effect.

The connection of the first flexible light bar 41 and the second flexible light bar 42 achieves the connection effect through the welding process of the first conductive terminal part 413 at the tail end of the connecting section 412 and one of the third conductive terminal parts 4213 on the second flexible light plate 4211, the widths of the first conductive terminal part 413 at the tail end of the connecting section 412 and the third conductive terminal parts 4213 at the two ends of the second flexible light plate 4211 are equal, after the first flexible light bar 41 and the second flexible light bar 42 are welded, the fixing effect of the heat-shrinkable sleeve 30 is not required to be wrapped at the welding part, the use of the heat-shrinkable sleeve 30 and the heat-shrinkable man-hour of the heat-shrinkable sleeve 30 are further saved, so that the production efficiency is greatly improved, and the cost is saved.

In this embodiment, by arranging the flexible light strip 40 with a longer connecting section 412 to replace the wire 20 to perform the multi-directional turning installation, one end of the connecting section 412 of the flexible light strip 40 is directly connected with the first light emitting section 411, the welding frequency of the connecting section is not required to be reduced once, and meanwhile, the end is not required to be wrapped with the heat shrinkable sleeve 30, the other end of the connecting section 412 is required to be welded with a third conductive terminal portion 4213 on the next second light emitting section 421 through the first conductive terminal portion 413, and the welding frequency is required to be performed once.

As shown in fig. 4, in this embodiment, when the connection section 412 is in a curled state, the first light emitting section 411 extends along a first direction X of the display device 50, the second light emitting section 421 extends along a second direction Y of the display device 50, the first direction X and the second direction Y intersect, the number and positions of the first light emitting section 411 and the second light emitting section 421 can be selectively connected as required, the connection section 412 in the flexible light strip 40 can be curled and mounted at a corner of the display device 50, the first direction X is a length direction of the display device 50, and the second direction Y is a width direction of the display device 50.

The lamp further includes a converter and a plug for connection with an external power source, the plug being electrically connected with the flexible light strip 40 through the converter to provide an amount of electricity and convert the external amount of electricity into an amount of electricity required by the flexible light strip 40.

The flexible light strip 40 of the present embodiment may be applied to a light fixture, and the light fixture may be considered as a light fixture as a whole, in which a plurality of longer connection sections 412 are provided along the length direction of the light fixture, and the width of the connection sections 412 is smaller than the widths of the first flexible light plate 4111 and the second flexible light plate 4211 located at two sides of the connection sections 412; the first light emitting members 4112 and the second light emitting members 4212 are respectively arranged on the first flexible light panel 4111 and the second flexible light panel 4211, and the first light emitting members 4112 and the second light emitting members 4212 are distributed on two sides of the connecting section 412 in the length direction, the flexible light strip 40 provided by the application can provide additional ambient light for the display device 50, the connecting section 412 of the flexible light strip 40 is convenient for multidirectional turning installation, and meanwhile the length of the connecting section 412 can be adjusted through the curled connecting section 412 to enable the set of lamps to be adapted to the display device 50 in different sizes.

In summary, according to the present utility model, the flexible light strip 40 is provided with the connection section 412 to replace the wire 20 in the prior art, and one end of the connection section 412 is connected to the first light-emitting section 411 and is integrally formed, so that the connection between the connection section 412 and the first light-emitting section 411 does not need to adopt a fixed connection process, and meanwhile, the heat-shrinkable sleeve 30 does not need to be wrapped, and the other end of the connection section 412 is connected to the second light-emitting section 421 through the first conductive terminal 413.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (10)

1. A flexible light strip, comprising:

a first light emitting segment;

the connecting section extends along one end of the first light-emitting section, the connecting section and the first light-emitting section are integrally formed, and the connecting section can be bent;

a first conductive terminal portion connected to an end portion of the connection section remote from the first light emitting section;

the second luminous section is connected with the connecting section through the first conductive terminal part.

2. The flexible light strip of claim 1, wherein the width of the connection section is no greater than the width of the first light emitting section; and/or the number of the groups of groups,

the width of the connecting section is not larger than the width of the second light-emitting section.

3. The flexible light strip of claim 2, wherein the width of the connecting segment is less than the width of the first lighting segment, and wherein the first lighting segment is in arcuate transition with the connecting segment.

4. The flexible light strip of claim 1, wherein the width of the connecting segment is less than the width of the first light emitting segment;

the flexible light strip further comprises a plurality of connecting wires, and two adjacent connecting wires are arranged at intervals along the width direction of the flexible light strip;

one end of each connecting wire is electrically connected with the first light-emitting section, the other end of each connecting wire extends to the connecting section along the first light-emitting section to be electrically connected with the first conductive terminal part, and the line width of each connecting wire is the same;

the minimum distance between two adjacent connecting wires in the first light-emitting section is defined as a first wire distance, and the maximum distance between two adjacent connecting wires in the connecting section is defined as a second wire distance, wherein the second wire distance is smaller than the first wire distance.

5. The flexible light strip of claim 1, further comprising:

the second conductive terminal part is arranged at the end part of the first luminous section away from the connecting section, and is used for realizing the fixed connection of the first luminous section and the third luminous section, or is used for realizing the fixed connection of the first luminous section and the external control component.

6. The flexible light strip of claim 5, wherein the first conductive terminal portion comprises a plurality of first solder terminals disposed at intervals, the second light emitting section and the connecting section being connected by the first solder terminals; and/or the number of the groups of groups,

the second conductive terminal part comprises a plurality of second welding terminals arranged at intervals, wherein the second welding terminals are used for realizing the fixed connection of the first luminous section and the third luminous section, or the second welding terminals are used for realizing the fixed connection of the first luminous section and the external control component.

7. The flexible light strip of any one of claims 1-6, wherein the width of the first light emitting segment is equal to the width of the second light emitting segment.

8. The flexible light strip of any one of claims 1-6, wherein the connecting section is linear, wavy, or folded.

9. The flexible light strip of any one of claims 1-6, wherein the first light emitting segment extends in a first direction and the second light emitting segment extends in a second direction when the connection segment is in a crimped state, the first and second directions intersecting.

10. A luminaire comprising a flexible light strip as claimed in any one of claims 1 to 9.