CN111585061A - Flexible wire array and LED lamp strip using same - Google Patents

Abstract

The invention discloses a flexible lead array and an LED lamp strip, wherein the flexible lead array comprises a plurality of flat leads and an insulating film, the flat leads are fixed on the insulating film at intervals side by side, the insulating film is provided with a plurality of hollowed-out areas at intervals along the length direction of the flat leads, each hollowed-out area is provided with a plurality of hollowed-out holes at positions corresponding to the flat leads, the hollowed-out holes are arranged along the width direction of the insulating film, exposed parts of the flat leads in the hollowed-out holes form a flat lead connecting area, a connecting conductor is fixed on the flat lead connecting area and comprises two plug connectors for plugging and at least one conductor connecting sheet, the two plug connectors are respectively and electrically connected with the flat leads, the two plug connectors are connected through the conductor connecting sheet, and the plug connectors are in. The flexible lead array is simple in structure, only the hollow area is required to be cut, the cut end portion of the flexible lead array forms a hollow column capable of being spliced, and the flexible lead array is conveniently electrically connected with an external electric device.

Description

Flexible wire array and LED lamp strip using same

Technical Field

The invention relates to a flexible wire array and an LED lamp belt using the same.

Background

Present flexible LED lamp area includes: the light-transmitting lamp strip comprises a strip-shaped lead array, a flexible circuit board and a light-transmitting coating layer, wherein the coating layer extends along the length direction of the lamp strip to coat the lead array and the flexible circuit board; the lead array comprises two or more flat leads arranged side by side at intervals, each flat lead extends along the length direction of the lead array, and the flat leads are fixed on the insulating film at intervals side by side; the flexible circuit board comprises a plurality of flexible circuit board units arranged at intervals, the flexible circuit board units are arranged along the length direction of the lead array, gaps are formed between every two adjacent flexible circuit board units, each flexible circuit board unit is welded with an LED element on the front surface of the flexible circuit board unit, the back surface of each flexible circuit board unit faces the lead array, each flexible circuit board unit is provided with at least one alignment and negative electrode welding point, an insulating film is arranged between the flexible circuit board and the lead array, the insulating film is in surface contact with each flat lead, the insulating film comprises more than two strip-shaped film units, the strip-shaped film units are distributed at intervals along the length direction of the lead array, the gap regions of the flat leads between the adjacent strip-shaped film units are exposed to form flat lead connecting regions, and the positive electrode welding points and the flat. In the flexible LED lamp strip with the structure, each flexible circuit board, the lead array and the coating layer cannot generate wrinkles, and the flexible circuit board and the lead array cannot generate relative wrinkles or relative desoldering due to continuous bending and stretching of the lamp strip; when the LED lamp strip is used, a user can cut off the LED lamp strip along a gap between the two flexible circuit board units according to the required length of the LED lamp strip, and the positive electrode welding spot and the negative electrode welding spot are used for being electrically connected with the lead array and also used for electrically connecting the flexible LED lamp strip with an external electric device. However, in the LED strip with such a structure, the flat wires in the gap region are easily broken, and the connection between the positive and negative electrode pads and the external electrical device is troublesome and unstable, so improvement is required.

Disclosure of Invention

The invention provides a flexible lead array and an LED lamp strip applied by the same, which are used for solving the problem that the existing LED lamp strip is inconvenient to connect with other electric devices.

The technical scheme of the invention is realized as follows:

a first object of the present invention is to provide a flexible wire array including at least two flat wires and an insulating film, the flat wires being fixed side by side at intervals on one side of the insulating film, characterized in that: the insulating film is provided with a plurality of fretwork areas along flat wire length direction interval, every fretwork area is equipped with a plurality of fretwork holes in the position that corresponds flat wire, each fretwork hole is arranged along the width direction of insulating film, each flat wire exposes the part in the fretwork hole and forms flat wire connection area, be fixed with the connecting conductor on the flat wire connection area, the connecting conductor includes two plug connectors and at least one conductor connection piece that are used for pegging graft, two plug connectors are fixed respectively on same flat wire, and with this flat wire electric connection, connect by at least one conductor connection piece between two plug connectors, two plug connectors that constitute the connecting conductor all are hollow column.

The connecting conductors are fixed to the flat conductor connecting regions by welding.

The conductor connecting sheet and the plug connector connected with the conductor connecting sheet are integrally formed.

The conductor connecting sheet has a bending radian, and the conductor connecting sheet and the two plug connectors are integrally formed by bending a sheet-shaped body.

The number of the conductor connecting sheets is one, and the conductor connecting sheets are connected with the top or the bottom of the edge of the plug-in port of the two plug connectors.

The number of the conductor connecting sheets is two, the two conductor connecting sheets are respectively connected with the top and the bottom of the edge of the splicing opening of the two plug connectors, or the two conductor connecting sheets are respectively connected with the left side and the right side of the edge of the splicing opening of the two plug connectors.

The above object is also achieved by a flexible conductor array comprising at least two flat conductors and an insulating film, the flat conductors being fixed side by side at intervals on one side of the insulating film, characterized in that: the insulating film includes a plurality of cubic membrane units, each cubic membrane unit is arranged and interval distribution along flat wire length direction, be equipped with the clearance between two adjacent cubic membrane units, each flat wire exposes the part in the clearance and forms flat wire connection area, the welding has connecting conductor on the flat wire connection area, connecting conductor includes two plug connectors and at least one conductor connection piece that are used for pegging graft, two plug connectors are fixed respectively on same flat wire, and with this flat wire electric connection, connect by at least one conductor connection piece between two plug connectors, two plug connectors of constituteing connecting conductor all are hollow column.

The connecting conductors are fixed to the flat conductor connecting regions by welding.

The conductor connecting sheet and the plug connector connected with the conductor connecting sheet are integrally formed.

The conductor connecting sheet has a bending radian, and the conductor connecting sheet and the two plug connectors are integrally formed by bending a sheet-shaped body.

The number of the conductor connecting sheets is one, and the conductor connecting sheets are connected with the top or the bottom of the edge of the plug-in port of the two plug connectors.

The number of the conductor connecting sheets is two, the two conductor connecting sheets are respectively connected with the top and the bottom of the edge of the splicing opening of the two plug connectors, or the two conductor connecting sheets are respectively connected with the left side and the right side of the edge of the splicing opening of the two plug connectors.

The invention also provides a flexible circuit board, which comprises a flexible lead array, a flexible circuit board and a coating layer, wherein the flexible lead array and the flexible circuit board are arranged in the coating layer, the front surface of the flexible circuit board is welded with a plurality of LED elements, the flexible lead array is arranged on the back surface of the flexible circuit board, and the flexible circuit board is provided with at least one pair of positive and negative welding spots, and the LED lamp strip is characterized in that: the flexible conductor array is the flexible conductor array, and the positive electrode welding spot and the negative electrode welding spot are respectively welded with different flat conductors.

The flexible circuit board comprises a plurality of flexible circuit board units, the flexible circuit board units are arranged along the length direction of the flexible lead array, gaps are reserved between adjacent flexible circuit board units, the gaps correspond to the flat lead connecting areas, and the positive and negative welding spots are arranged at the end parts of the flexible circuit board units and are welded on the flat lead connecting areas.

Compared with the prior art, the invention has the following advantages:

1. flexible wire array, including two at least flat wire and insulating film, each flat wire interval is fixed side by side on the insulating film one side, its characterized in that: the insulating film is provided with a plurality of fretwork areas along flat wire length direction interval, every fretwork area is equipped with a plurality of fretwork holes in the position that corresponds flat wire, each fretwork hole is arranged along the width direction of insulating film, each flat wire exposes the part in the fretwork hole and forms flat wire connection area, be fixed with the connecting conductor on the flat wire connection area, the connecting conductor includes two plug connectors and at least one conductor connection piece that are used for pegging graft, two plug connectors are fixed respectively on same flat wire, and with this flat wire electric connection, connect by at least one conductor connection piece between two plug connectors, two plug connectors that constitute the connecting conductor all are hollow column. The flexible lead array has a simple structure, and the connecting conductor has a reinforcing effect on the flat lead in the flat lead connecting area, so that the flat lead is prevented from being broken; when the flexible lead array is used, the insulating film, the flat lead and the conductor connecting sheet are cut along the hollowed-out area, and a hollow column capable of being spliced is formed at the end part of the flexible lead array after cutting, so that the flexible lead array is conveniently and electrically connected with an external electric device.

2. LED lamp area, including flexible conductor array, flexible line way board and coating, flexible conductor array and flexible line way board are installed in the coating, and the flexible line way board has a plurality of LED components in its welding on openly, and the flexible conductor array sets up at the back of flexible line way board, is equipped with at least one on the flexible line way board and adjusts well, negative pole solder joint, its characterized in that: the flexible conductor array is the flexible conductor array, and the positive electrode welding spot and the negative electrode welding spot are respectively welded with different flat conductors. The LED lamp strip is more convenient and faster to be electrically connected with an external electric device.

3. Other advantages of the present invention are described in detail in the examples section.

Drawings

Fig. 1 is a schematic structural diagram of a flexible lead array according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a flexible wire array according to the first embodiment;

FIG. 3 is a schematic structural diagram of a connection conductor in a flexible lead array according to the first embodiment;

fig. 4 is a schematic structural diagram of a flexible lead array provided in the second embodiment;

fig. 5 is a schematic structural diagram of a connection conductor in a flexible lead array according to a third embodiment;

FIG. 6 is a cross-sectional view of a flexible lead array provided in accordance with the fourth embodiment;

fig. 7 is a schematic structural diagram of an LED strip provided in the fifth embodiment;

fig. 8 is a schematic structural diagram of the LED strip after the flexible circuit board and the lead array are combined;

fig. 9 is a cross-sectional view of the LED strip flexible circuit board and the lead array provided in the fifth embodiment after being combined;

fig. 10 is a schematic structural diagram of a flexible circuit board and a lead array in the LED light strip provided in the sixth embodiment after being combined;

fig. 11 is a cross-sectional view of the LED strip flexible circuit board and the wire array provided in the sixth embodiment after being combined.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

The first embodiment is as follows:

as shown in fig. 1 to 3, the present embodiment provides a flexible wire array including at least two flat wires 12 and an insulating film 11, wherein the flat wires 12 are fixed on one surface of the insulating film 11 side by side at intervals, and is characterized in that: the insulation film 11 is provided with a plurality of hollow-out areas 114 at intervals along the length direction of the flat wire 12, each hollow-out area 114 is provided with a plurality of hollow-out holes 111 at the position corresponding to the flat wire 12, each hollow-out hole 111 is arranged along the width direction of the insulation film 11, the exposed part of each flat wire 12 in each hollow-out hole 111 forms a flat wire connection area 121, a connection conductor 13 is fixed on the flat wire connection area 121, the connection conductor 13 comprises two plug connectors 131 used for plugging and at least one conductor connecting sheet 132, the two plug connectors 131 are respectively fixed on the same flat wire 12 and electrically connected with the flat wire 12, the two plug connectors 131 are connected by the at least one conductor connecting sheet 132, and the two plug connectors 131 forming the connection conductor 13 are all in a hollow column shape. The flexible lead array has a simple structure, and the connecting conductor 13 reinforces the flat lead 12 in the flat lead connecting area 121 to prevent the flat lead 12 from being broken; when the flexible lead array is used, the insulating film 11, the flat lead 12 and the conductor connecting sheet 132 are only required to be cut along the hollow area 114, and hollow columns capable of being spliced are formed at the end parts of the flexible lead array after cutting, so that the flexible lead array is conveniently and electrically connected with external electric devices.

The connecting conductors 13 are fixed to the flat wire connection area 121 by soldering. The insulating film 11 and the connection conductors 13 are respectively disposed on the upper and lower sides of the flat wire 12.

The conductor connecting piece 132 is integrally formed with the plug-in connector 131 to which it is connected. The connection conductor 13 is convenient to produce and has high yield.

The conductor connecting piece 132 has a curved arc, and the conductor connecting piece 132 and the two plug-in connectors 131 are integrally formed by bending a sheet-shaped body. The two plug connectors 131 can have certain elasticity, so that the electric connection between the plug connectors 131 and an external electric device is more stable.

The number of the conductor connecting sheets 132 is one, and the conductor connecting sheets 132 are connected with the top or the bottom of the socket opening edges of the two plug connectors 131. The plug-in unit 131 is not easy to deform and damage during shearing, so that the plug-in unit 131 is more convenient to plug in.

Example two:

as shown in fig. 4, the flexible wire array provided in this embodiment is similar to the flexible wire array described in the first embodiment, except that:

the flexible wire array comprises at least two flat wires 12 and an insulating film 11, wherein the flat wires 12 are fixed on one surface of the insulating film 11 side by side at intervals, and the flexible wire array is characterized in that: the insulating film comprises a plurality of block-shaped film units 112, each block-shaped film unit 112 is arranged along the length direction 12 of the flat wire and distributed at intervals, a gap 113 is arranged between every two adjacent block-shaped film units 112, the exposed part of each flat wire 12 in the gap 113 forms a flat wire connection area 121, a connection conductor 13 is welded on the flat wire connection area 121, the connection conductor 13 comprises two plug connectors 131 used for plugging and at least one conductor connecting sheet 132, the two plug connectors 131 are respectively fixed on the same flat wire 12 and electrically connected with the flat wire 12, the two plug connectors 131 are connected through the at least one conductor connecting sheet 132, and the two plug connectors 131 forming the connection conductor 13 are all in a hollow column shape. The flexible lead array is more convenient to produce and cut.

Example three:

as shown in fig. 5, the flexible conductive wire array provided in this embodiment is similar to the flexible conductive wire array described in the first embodiment or the second embodiment, except that:

the number of the conductor connecting sheets 132 of the connecting conductor 13 is two, the two conductor connecting sheets 132 are respectively connected with the top and the bottom of the socket opening edges of the two plug connectors 131, or the two conductor connecting sheets 132 are respectively connected with the left and the right sides of the socket opening edges of the two plug connectors 131.

Example four:

as shown in fig. 6, the flexible conductive wire array provided in this embodiment is similar to the flexible conductive wire array described in the first embodiment, the second embodiment, or the third embodiment, except that:

the connection conductor 13 and the insulating film 11 are both disposed on the upper side of the flat wire 12.

Example five:

as shown in fig. 7 to 9, this embodiment provides a LED light strip, including flexible conductor array 1, flexible circuit board 2 and coating 3, flexible conductor array 1 and flexible circuit board 2 are installed in coating 3, and flexible circuit board 2 has a plurality of LED elements 21 in its welding on openly, and flexible conductor array 1 sets up at the back of flexible circuit board 2, is equipped with at least one on the flexible circuit board 2 and adjusts well, negative pole solder joint 24, its characterized in that: the flexible lead array 1 is the flexible lead array described in the first embodiment, the second embodiment or the third embodiment, and the positive and negative electrode pads 24 are respectively welded to different flat leads 12.

The LED lamp strip is improved in structure of the flexible lead array, the connecting conductor 13 reinforces the flexible lead array 1, the overall strength of the LED lamp strip is increased, the LED lamp strip is prevented from being easily broken when twisted, and the performance of the LED lamp strip is more stable; the connector 131 is used for being electrically connected with an external electric device after being cut, so that the connection is more convenient and quicker.

The insulating film 11 is located between the flexible wiring board 2 and the flat wire 12, and the connection conductor 13 is located below the flat wire 12.

The flexible printed circuit 2 includes a plurality of flexible printed circuit units 22, the flexible printed circuit units 22 are arranged along the length direction of the flexible printed circuit array 1, a gap 23 is left between adjacent flexible printed circuit units 22, the gap 23 corresponds to the flat printed circuit connection area 121, the positive and negative solder joints 24 are arranged at the end of each flexible printed circuit unit 23, and the positive and negative solder joints 24 are soldered on the flat printed circuit connection area 121.

Example six:

as shown in fig. 10 to 11, the LED strip provided in this embodiment is similar to the LED strip described in the fifth embodiment, except that:

the flexible lead array 1 is the flexible lead array according to the fourth embodiment, the insulating film 11 is located between the flexible circuit board 2 and the flat leads 12, and the connecting conductors 13 are located above the flat leads 12. The connecting conductor 13 does not occupy space and is not easy to be pressed and damaged, so that the LED lamp strip is thinner and more stable.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (14)

1. A flexible wire array comprising at least two flat wires (12) and an insulating film (11), the flat wires (12) being fixed side by side at intervals on one side of the insulating film (11), characterized in that: the insulation film (11) is provided with a plurality of hollow-out areas (114) at intervals along the length direction of the flat wires (12), each hollow-out area (114) is provided with a plurality of hollow-out holes (111) at the position corresponding to the flat wires (12), each hollow-out hole (111) is arranged along the width direction of the insulation film (11), the exposed part of each flat wire (12) in each hollow-out hole (111) forms a flat wire connection area (121), a connection conductor (13) is fixed on the flat wire connection area (121), the connection conductor (13) comprises two plug connectors (131) for plugging and at least one conductor connecting sheet (132), the two plug connectors (131) are respectively fixed on the same flat wire (12), and is electrically connected with the flat lead (12), the two plug connectors (131) are connected by at least one conductor connecting sheet (132), and the two plug connectors (131) forming the connecting conductor (13) are both in a hollow column shape.

2. A flexible wire array according to claim 1, wherein: the connecting conductor (13) is fixed to the flat conductor connection region (121) by welding.

3. A flexible wire array according to claim 2, wherein: the conductor connecting sheet (132) and the plug connector (131) connected with the conductor connecting sheet are integrally formed.

4. A flexible wire array according to claim 3, wherein: the conductor connecting sheet (132) has a bending radian, and the conductor connecting sheet (132) and the two plug connectors (131) are integrally formed by bending a sheet-shaped body.

5. The flexible wire array of claim 4, wherein: the number of the conductor connecting sheets (132) is one, and the conductor connecting sheets (132) are connected with the top or the bottom of the edge of the plug interface of the two plug connectors (131).

6. The flexible wire array of claim 4, wherein: the number of the conductor connecting sheets (132) is two, the two conductor connecting sheets (132) are respectively connected with the top and the bottom of the plug port edges of the two plug connectors (131), or the two conductor connecting sheets (132) are respectively connected with the left side and the right side of the plug port edges of the two plug connectors (131).

7. A flexible wire array comprising at least two flat wires (12) and an insulating film (11), the flat wires (12) being fixed side by side at intervals on one side of the insulating film (11), characterized in that: the insulating film comprises a plurality of block-shaped film units (112), each block-shaped film unit (112) is arranged along the length direction (12) of the flat wire and distributed at intervals, a gap (113) is arranged between every two adjacent block-shaped film units (112), the exposed part of each flat wire (12) in the gap (113) forms a flat wire connecting area (121), a connecting conductor (13) is fixed on the flat wire connecting area (121), the connecting conductor (13) comprises two plug connectors (131) used for plugging and at least one conductor connecting sheet (132), the two plug connectors (131) are respectively fixed on the same flat wire (12) and electrically connected with the flat wire (12), the two plug connectors (131) are connected through the at least one conductor connecting sheet (132), and the two plug connectors (131) forming the connecting conductor (13) are both in a hollow column shape.

8. A flexible wire array according to claim 7, wherein: the connecting conductor (13) is fixed to the flat conductor connection region (121) by welding.

9. A flexible wire array according to claim 8, wherein: the conductor connecting sheet (132) and the plug connector (131) connected with the conductor connecting sheet are integrally formed.

10. A flexible wire array according to claim 9, wherein: the conductor connecting sheet (132) has a bending radian, and the conductor connecting sheet (132) and the two plug connectors (131) are integrally formed by bending a sheet-shaped body.

11. A flexible wire array according to claim 10, wherein: the number of the conductor connecting sheets (132) is one, and the conductor connecting sheets (132) are connected with the top or the bottom of the edge of the plug interface of the two plug connectors (131).

12. A flexible wire array according to claim 10, wherein: the number of the conductor connecting sheets (132) is two, the two conductor connecting sheets (132) are respectively connected with the top and the bottom of the plug port edges of the two plug connectors (131), or the two conductor connecting sheets (132) are respectively connected with the left side and the right side of the plug port edges of the two plug connectors (131).

13. The utility model provides a LED lamp area, includes flexible conductor array (1), flexible line way board (2) and coating (3), installs in coating (3) flexible conductor array (1) and flexible line way board (2), and flexible line way board (2) have a plurality of LED components (21) in its welding on openly, and flexible conductor array (1) sets up at the back of flexible line way board (2), is equipped with at least one on flexible line way board (2) and adjusts well, negative pole solder joint (24), its characterized in that: the flexible lead array (1) is as claimed in any one of claims 1 to 12, and the positive and negative electrode pads (24) are respectively welded with different flat leads (12).

14. A LED strip according to claim 13, wherein: the flexible printed circuit (2) comprises a plurality of flexible printed circuit units (22), the flexible printed circuit units (22) are arranged along the length direction of the flexible conductor array (1) and gaps (23) are reserved between the adjacent flexible printed circuit units (22), the gaps (23) and the flat conductor connecting area (121) are correspondingly arranged, and the positive and negative welding spots (24) are arranged at the end parts of the flexible printed circuit units (23) and are welded on the flat conductor connecting area (121).

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