CN114165743B

CN114165743B - LED lamp strip and manufacturing process thereof

Info

Publication number: CN114165743B
Application number: CN202111514935.8A
Authority: CN
Inventors: 段明刚
Original assignee: Guangdong Shuangan Lighting Co ltd
Current assignee: Guangdong Shuangan Lighting Co ltd
Priority date: 2021-12-13
Filing date: 2021-12-13
Publication date: 2024-05-03
Anticipated expiration: 2041-12-13
Also published as: CN114165743A

Abstract

The invention relates to the field of LED lamp manufacturing, in particular to an LED lamp strip and a manufacturing process thereof. The utility model provides a LED lamp area, includes soft area, cut-off groove and LED lamp, from a plurality of LED lamps of left to right fixedly connected with on the soft area, fixedly connected with cuts-off groove between two adjacent LED lamps, cuts-off groove fixed connection on the soft area. Further, the LED lamp strip also comprises an inserting sheet, and the upper side of the LED lamp is fixedly connected with and can be detached. The manufacturing process of the LED lamp strip comprises the following steps: s1: bonding a plurality of LED lamps on the soft belt; s2: cutting grooves are formed in the soft belt between two adjacent LED lamps; s3: connecting the first lead with a plurality of negative electrode posts; s4: resistors are connected to the positive electrode posts; s5: the second wire is connected to a plurality of resistors.

Description

LED lamp strip and manufacturing process thereof

Technical Field

The invention relates to the field of LED lamp manufacturing, in particular to an LED lamp strip and a manufacturing process thereof.

Background

An LED light emitting diode is a solid state semiconductor device capable of converting electrical energy into visible light, which can directly convert electricity into light. The heart of the LED is a semiconductor wafer, one end of the wafer is attached to a support, the other end is a negative electrode, and the other end is connected with the positive electrode of a power supply, so that the whole wafer is encapsulated by epoxy resin. In the prior art, LED lamp strip circuit boards of LED lamps are welded together by jointed boards; the glue plates are overlapped on the LED lamp strip circuit board, punching holes are formed in the glue plates according to arrangement intervals of the LED lamps, the size of the punching holes is matched with that of the LED lamps, and the glue plates are flush or nearly flush with the luminous surfaces of the LED lamps; and cutting the LED lamp strips of the whole glue-sticking plate which are spliced together by using a cutting die to obtain a plurality of independent LED lamp strips. However, the LED lamp strip in the prior art is not easy to cut off at will.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the LED lamp strip and the manufacturing process thereof, and the LED lamp strip has the beneficial effect of being capable of being cut off at will.

The utility model provides a LED lamp area, includes soft area, cut-off groove and LED lamp, from a plurality of LED lamps of left to right fixedly connected with on the soft area, fixedly connected with cuts-off groove between two adjacent LED lamps, cuts-off groove fixed connection on the soft area.

Further, the LED lamp strip also comprises an inserting sheet, and the upper side of the LED lamp is fixedly connected with the detachable inserting sheet.

Further, the LED lamp strip also comprises a lens groove and a fixed barrel, the upper side of the LED lamp is fixedly connected with the fixed barrel, the fixed barrel is fixedly connected with the lens groove, and the inserting sheet is inserted in the lens groove.

Further, the inserting sheet is a convex lens.

Further, the insert is a concave lens.

Further, the LED lamp strip also comprises an anti-slip sheet, the lens groove is fixedly connected with the anti-slip sheet, and the inserting sheet is contacted with the anti-slip sheet.

Further, the LED lamp strip also comprises an elastic band and a lug, wherein the lug is fixedly connected to two sides of each cutting groove on the soft strip, and the elastic band is fixedly connected between the two corresponding lugs.

Further, the LED lamp strip also comprises a metal wire, and the metal wire is fixedly connected to the lower side of the soft strip.

Further, the LED lamp strip still includes positive pole post, negative pole post, first wire, second wire and resistance, and the equal fixedly connected with positive pole post of downside of every LED lamp and negative pole post, first wire link to each other with a plurality of negative poles, all is connected with the resistance on a plurality of positive poles, links to each other through the second wire between a plurality of resistance.

Further, the manufacturing process of the LED lamp strip comprises the following steps:

S1: bonding a plurality of LED lamps on the soft belt;

S2: cutting grooves are formed in the soft belt between two adjacent LED lamps;

s3: connecting the first lead with a plurality of negative electrode posts;

s4: resistors are connected to the positive electrode posts;

s5: the second wire is connected to a plurality of resistors.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of a structure of an LED light strip;

FIG. 2 is a schematic diagram of a second structure of an LED light strip;

FIG. 3 is a schematic diagram of a wiring harness;

FIG. 4 is a schematic diagram of an LED lamp strip manufacturing apparatus;

FIG. 5 is a schematic diagram II of an LED lamp strip manufacturing apparatus;

FIG. 6 is a schematic diagram of a resistor strip;

FIG. 7 is a schematic diagram of a base strip and a resistor strip;

FIG. 8 is a schematic diagram II of the structure of the bottom strip and the resistor strip;

FIG. 9 is a schematic diagram of an LED light strip and an LED light strip fitting;

fig. 10 is a schematic diagram of a second embodiment of an LED strip and an LED strip fitting.

In the figure: a soft belt 101; a cut-off groove 102; an elastic band 103; a tab 104; a wire 105;

An LED lamp 201; a lens slot 202; a fixed cylinder 203; a non-slip sheet 204; a tab 205; a positive electrode column 206; a negative electrode column 207; a first wire 208; a second wire 209; a resistor 210;

A wiring lead 301; a connection base 302; a screw 303; collar 304;

A bottom strip 401; a slide rail 402; a bracket 403; a telescopic column I404; a gantry 405; a motor 406; a wire groove 407; angle iron 408; a motor frame 409; friction wheel 410; telescoping column II411;

a resistive backing strip 501; a rib 502; cambered surface edge 503; a connector 504.

Detailed Description

Referring to fig. 1-2, an embodiment is shown in which LED strips of different lengths are cut as desired, wherein,

Since the LED lamp strip includes the soft strip 101, the cutting groove 102 and the LED lamps 201, and the plurality of LED lamps 201 are disposed on the soft strip 101 from left to right, and the plurality of cutting grooves 102 are disposed between two adjacent LED lamps 201, the cutting groove 102 is disposed on the soft strip 101, and then the soft strip 101 can be cut through the cutting groove 102, and then LED lamp strips with different lengths can be cut out according to need.

Referring to fig. 1, an embodiment of an LED lamp 201 is shown, wherein,

Because the LED lamp strip also comprises the inserting sheet 205, the inserting sheet 205 is detachably connected to the upper side of the LED lamp 201, and then the direction of light rays emitted by the LED lamp 201 can be changed through the inserting sheet 205, so that different light emitting modes are realized, and the LED lamp 201 emits light rays in different directions.

Referring to fig. 1-2, an embodiment is shown for facilitating removal of the tab 205 from the stationary barrel 203, wherein,

Since the LED strip further comprises the lens groove 202 and the fixing barrel 203, the fixing barrel 203 is disposed on the upper side of the LED lamp 201, the lens groove 202 is disposed on the fixing barrel 203, the inserting sheet 205 is detachably connected in the lens groove 202, the fixing barrel 203 is used for connecting the inserting sheet 205, and the lens groove 202 on the fixing barrel 203 is used for facilitating the detachment of the inserting sheet 205 from the fixing barrel 203.

Referring to fig. 1, an embodiment of the concentrated emission of light from an LED lamp 201 is shown, wherein,

Since the insert 205 is a convex lens, the convex lens has a condensing effect, so that the light of the LED lamp 201 is condensed and emitted.

Referring to fig. 1, an embodiment of the LED lamp 201 is shown in which light is emitted in a dispersed manner, wherein,

Since the insert 205 is a concave lens, the concave lens has the effect of dispersing light, so that the light of the LED lamp 201 is dispersed and emitted.

Referring to fig. 1, an embodiment is shown in which the tab 205 is not easily slid off of the stationary barrel 203, wherein,

Because the LED lamp strip also comprises the non-slip sheet 204, the non-slip sheet 204 is arranged at the lens groove 202, the inserting sheet 205 is contacted with the non-slip sheet 204, and then the friction between the inserting sheet 205 and the fixed cylinder 203 is increased, so that the inserting sheet 205 is not easy to slide off from the fixed cylinder 203.

Referring to fig. 1, an embodiment is shown that facilitates placement of an LED strip in a relatively complex-shaped area, wherein,

Because the LED lamp area still includes elastic cord 103 and lug 104, the both sides of every cut-off groove 102 all are provided with lug 104, be provided with elastic cord 103 between two lugs 104, after soft area 101 cuts off from cut-off groove 102, can carry out the soft connection of elasticity with the soft area 101 after cutting off through the mode of elastic cord 103 connection two lugs 104, and then can only crooked for ordinary LED lamp area, more position changes can be made to the part of two sections separation of soft area 101 in this embodiment, and then the setting of LED lamp area in the region of shape is more complicated of being convenient for.

Referring to fig. 2, there is shown an embodiment in which the flexible strap 101 is easily secured in a fixed, curved shape, wherein,

Because the LED light strip further comprises the metal wire 105, the metal wire 105 is located at the lower side of the soft strip 101, the metal wire 105 has the effect that the shape of the metal wire can be fixed after bending, and then the soft strip 101 can be fixed along with the shape of the metal wire 105 after bending, so that the soft strip 101 can be fixed in a certain fixed bending shape more easily.

Referring to fig. 2, there is shown an embodiment in which a plurality of LED lamps 201 may still be lit when the flexible tape 101 is cut from the cut groove 102 on the flexible tape 101, wherein,

The LED lamp strip further comprises a positive pole 206, a negative pole 207, a first lead 208, a second lead 209 and resistors 210, wherein the positive pole 206 and the negative pole 207 are equivalent to two electrodes of the LED lamp 201, the positive pole 206 and the negative pole 207 are arranged on the lower side of the LED lamp 201, the first lead 208 is connected with the plurality of negative poles 207, the plurality of positive poles 206 are connected with the resistors 210, and the plurality of resistors 210 are connected through the second lead 209. Further, when the plurality of LED lamps 201 are connected in parallel by the first wire 208 and the second wire 209, and the flexible tape 101 is cut from the cutting groove 102 on the flexible tape 101, the first wire 208 and the second wire 209 are also cut therefrom, and at this time, the ends of the first wire 208 and the second wire 209 are respectively connected to the positive and negative poles of the motor, and the plurality of LED lamps 201 can still be lighted.

The manufacturing process of the LED lamp strip comprises the following steps:

s1: bonding a plurality of LED lamps 201 to the flexible tape 101;

s2: a cutting groove 102 is pressed out on the soft belt 101 between two adjacent LED lamps 201;

s3: connecting the first wire 208 with a plurality of negative electrode posts 207;

S4: resistor 210 is connected to each of the plurality of positive electrode posts 206;

S5: the second wire 209 is connected to a plurality of resistors 210.

The LED lamp strip further comprises a wiring lead 301, a connecting seat 302, screws 303 and a lantern ring 304, wherein the connecting seat 302 and the lantern ring 304 are respectively arranged at two ends of the lead 301, the screws 303 are connected to the connecting seat 302 in a threaded manner, the connecting seat 302 can be inserted into the end part of the first lead 208 or the end part of the second lead 209, and the screws 303 fix the connecting seat 302.

Referring to fig. 1 and 3, an embodiment is shown that facilitates connection of a power source to a plurality of LED lamps 201, wherein,

The wiring lead 301 can be connected to the first lead 208 or the second lead 209 through a connecting seat 302 thereon, so that the first lead 208 or the second lead 209 is LED into the position of the battery, and then the collar 304 is conveniently connected to the anode and the cathode of the battery through conductive screws, so that the power supply can be conveniently connected to the plurality of LED lamps 201.

Manufacturing LED lamp area still uses an LED lamp area manufacturing installation, including sill bar 401, slide rail 402, support 403, portal 405, metallic channel 407, angle bar 408 and telescopic column II411, be provided with slide rail 402 on the sill bar 401, two supports 403 are sliding connection respectively at the front and back both ends of slide rail 402, the middle part of sill bar 401 is provided with two telescopic column II411, the outer end of two telescopic column II411 is fixed connection respectively at the tip of two supports 403, the upper portion of two supports 403 all is provided with angle bar 408, the middle part of every support 403 all is provided with portal 405, the both ends of portal 405 all are provided with metallic channel 407.

Referring now to fig. 4-10, there is shown an embodiment in which electrical connection of the first and second wires 208 and 209 to the plurality of LED lamps 201 is accomplished, wherein,

The telescopic column II411 can drive the support 403 to slide back and forth on the slide rail 402 when being telescopic, so as to adjust the distance between the two supports 403, so as to adjust the distance between the two angle irons 408, after the distance between the two angle irons 408 is adjusted, the front edge and the rear edge of the soft belt 101 are respectively placed on the two angle irons 408, so that the LED lamp 201 is conveniently installed on the soft belt 101, two wire slots 407 on the front side of the portal 405 are used for placing the second wires 209, and at the moment, the second wires 209 are contacted with the negative pole columns 207 on the LED lamps 201, so that the plurality of negative pole columns 207 are conveniently welded on the second wires 209 through electric soldering irons; two wire slots 407 on the rear door 405 are used to place the first wire 208, so that the first wire 208 and the plurality of resistors 210 are soldered together by an electric soldering iron, and the electrical connection between the first wire 208 and the second wire 209 and the plurality of LED lamps 201 is completed.

The LED lamp strip manufacturing device further comprises a resistor supporting strip 501, ribs 502, cambered surface ribs 503 and connecting pieces 504, wherein the connecting pieces 504 are fixedly connected to the support 403 on the front side, the resistor supporting strip 501 is fixedly connected to the connecting pieces 504, the cambered surface ribs 503 are arranged in the middle of the upper side of the resistor supporting strip 501, the ribs 502 are arranged at the front edge and the rear edge of the cambered surface ribs 503, and the resistor supporting strip 501 is located below the two angle irons 408.

Referring to fig. 4-10, there is shown an embodiment that facilitates the connection of both ends of a resistor 210 to the positive post 206 and a second wire 209, respectively, by an electric soldering iron, wherein,

The resistor supporting strip 501 is used for placing the resistor 210, the front side and the rear side of the resistor 210 are respectively contacted with the two convex edges 502, the middle part of the resistor 210 is thin and the two ends are thick, and then the resistor 210 is prevented from moving randomly by placing the middle part of the resistor 210 on the cambered surface edge 503 on the resistor supporting strip 501, so that the resistor 210 is firmly placed on the resistor supporting strip 501, and the two ends of the resistor 210 are conveniently connected to the positive pole 206 and the second lead 209 respectively through electric soldering irons.

The LED lamp strip manufacturing device further comprises telescopic columns I404, motors 406, motor frames 409 and friction wheels 410, each support 403 is vertically and slidably connected with the motor frame 409, each support 403 is provided with the telescopic columns I404, movable ends of the two telescopic columns I404 are fixedly connected to the lower portions of the two motor frames 409 respectively, motors 406 are arranged on the upper portions of the motor frames 409, friction wheels 410 are fixedly connected to output shafts of the motors 406 respectively, and each friction wheel 410 is located above each angle iron 408 respectively.

Referring to fig. 4-10, there is shown an embodiment in which the motor 406 rotates the friction wheel 410 to drive the soft band 101 to slide between two angle irons 408, wherein,

When the telescopic column I404 stretches and contracts, the motor frame 409 is driven to slide up and down, the motor 406 and the friction wheel 410 are driven to move up and down, the height of the friction wheel 410 is convenient to adjust, when the friction wheel 410 is contacted with the soft belt 101 at the angle iron 408, the motor 406 drives the friction wheel 410 to rotate, the soft belt 101 can be driven to slide in the left-right direction between the two angle irons 408, and when a part of the soft belt 101 is provided with the LED lamp 201, the new continuous soft belt 101 can be slid between the two angle irons 408, the LED lamp can be conveniently installed on the new soft belt 101, and assembly line operation is realized.

Claims

1. The utility model provides a LED lamp area, includes soft area (101), cuts off groove (102) and LED lamp (201), its characterized in that: a plurality of LED lamps (201) are arranged on the soft belt (101) from left to right, a cutting groove (102) is arranged between two adjacent LED lamps (201), and the cutting groove (102) is arranged on the soft belt (101);

The LED lamp strip further comprises an inserting sheet (205), and the detachable inserting sheet (205) is arranged on the upper side of the LED lamp (201);

The LED lamp strip further comprises a lens groove (202) and a fixing barrel (203), the fixing barrel (203) is arranged on the upper side of the LED lamp (201), the lens groove (202) is arranged on the fixing barrel (203), and the inserting sheet (205) is inserted into the lens groove (202);

The LED lamp strip further comprises an anti-slip sheet (204), the anti-slip sheet (204) is arranged at the lens groove (202), and the inserting sheet (205) is contacted with the anti-slip sheet (204);

The LED lamp strip further comprises elastic strips (103) and protruding pieces (104), protruding pieces (104) are arranged on two sides of each cutting groove (102) on the soft strip (101), and the elastic strips (103) are arranged between the two corresponding protruding pieces (104);

the LED lamp strip further comprises a metal wire (105), and the metal wire (105) is arranged on the lower side of the soft strip (101);

The LED lamp strip further comprises a positive pole (206), a negative pole (207), a first lead (208), a second lead (209) and resistors (210), wherein the positive pole (206) and the negative pole (207) are arranged on the lower side of each LED lamp (201), the first lead (208) is connected with the plurality of negative poles (207), the plurality of positive poles (206) are connected with the resistors (210), and the plurality of resistors (210) are connected through the second lead (209);

The LED lamp strip further comprises a wiring lead (301), a connecting seat (302), screws (303) and a lantern ring (304), wherein the connecting seat (302) and the lantern ring (304) are respectively arranged at two ends of the lead (301), the screws (303) are connected to the connecting seat (302) in a threaded mode, the connecting seat (302) can be inserted into the end portion of the first lead (208) or the end portion of the second lead (209), and the screws (303) fix the connecting seat (302);

Manufacturing the LED lamp strip also uses an LED lamp strip manufacturing device, which comprises a bottom strip (401), a sliding rail (402), brackets (403), a portal (405), wire grooves (407), angle irons (408) and telescopic columns II (411), wherein the sliding rail (402) is arranged on the bottom strip (401), the two brackets (403) are respectively connected at the front end and the rear end of the sliding rail (402) in a sliding way, the middle part of the bottom strip (401) is provided with two telescopic columns II (411), the outer ends of the two telescopic columns II (411) are respectively and fixedly connected at the end parts of the two brackets (403), the upper parts of the two brackets (403) are respectively provided with the angle irons (408), the middle part of each bracket (403) is provided with the portal (405), and the two ends of the portal (405) are respectively provided with the wire grooves (407);

The LED lamp strip manufacturing device further comprises a resistor supporting strip (501), ribs (502), cambered ribs (503) and connecting pieces (504), wherein the connecting pieces (504) are fixedly connected to the support (403) located on the front side, the resistor supporting strip (501) is fixedly connected to the connecting pieces (504), the cambered ribs (503) are arranged in the middle of the upper side of the resistor supporting strip (501), the ribs (502) are arranged at the front edge and the rear edge of the cambered ribs (503), and the resistor supporting strip (501) is located below the two angle irons (408);

The LED lamp strip manufacturing device further comprises telescopic columns I (404), motors (406), motor frames (409) and friction wheels (410), each support (403) is vertically and slidably connected with the motor frame (409), each support (403) is provided with the telescopic columns I (404), movable ends of the two telescopic columns I (404) are fixedly connected to the lower portions of the two motor frames (409) respectively, the upper portion of each motor frame (409) is provided with a motor (406), the friction wheels (410) are fixedly connected to the output shafts of the motors (406), and each friction wheel (410) is located above each angle iron (408) respectively.

2. The light strip of claim 1, wherein: the insert (205) is a convex lens.

3. The light strip of claim 1, wherein: the insert (205) is a concave lens.

4. The manufacturing process of the lamp strip according to claim 1, comprising:

S1: bonding a plurality of LED lamps (201) on the soft belt (101);

s2: a cutting groove (102) is pressed out on the soft belt (101) between two adjacent LED lamps (201);

s3: connecting the first wire (208) with a plurality of negative electrode posts (207);

S4: resistors (210) are connected to the plurality of positive electrode posts (206);

s5: the second wire (209) is connected to a plurality of resistors (210).