CN219160243U - Lighting lamp assembled by LED module lamp - Google Patents

Abstract

The utility model provides an illuminating lamp assembled by LED module lamps, which is formed by assembling a plurality of assembled conducting pieces (3), wherein the LED module lamp I (1) and the LED module lamp II (2) are assembled, the LED module lamp I (1) comprises a lamp body (101), a light diffusion piece (102), an LED lamp strip I (4), an end cover (104) and an input DC line (105), the LED module lamp II (2) comprises the lamp body (101), the light diffusion piece (102), the LED lamp strip II (5) and the end cover (104), the lamp body (101) is made of aluminum or plastic through an extrusion process, a hole I (1011) or a clamping groove I (1013) is arranged in the extrusion direction of the lamp body, and the assembled conducting pieces (3) are of a structure of a plastic insulating layer (301) wrapping a metal sheet (302) or are individual metal sheets. The scheme adopts the modularized design, and has the advantages of simple assembly for users, low cost, small volume and low transportation cost.

Description

Lighting lamp assembled by LED module lamp

Technical Field

The utility model belongs to the technical field of illumination, and particularly relates to an illuminating lamp assembled by LED module lamps.

Background

In particular, the LED lighting lamp with the size of 600mmX600mm is mentioned, and the lamp is basically in two structures: the earliest LED side-emitting illuminating lamp adopts a light guide plate, a diffusion plate and reflective paper, the full screen emits light, the light is soft, the lamp can be thinnest, but has the fatal weaknesses that the light guide plate is made of PS or PMMA materials, the expansion caused by heat and contraction caused by cold are large, the light turns yellow and deforms quickly at high temperature for a long time, the brightness is obviously reduced, the illumination effect is seriously affected, four sides of the lamp are packed by foam, the single lamp is packed with 610mm x 40mm, the size is obviously not small, the transportation cost is high, and the risk of damage in transportation is high; the LED direct-light-emitting structure which is circulated in the current market adopts a lamp housing with the height of 20mm and punched by 0.3mm iron plates, a plurality of LED lamp bodies are attached to the inner bottom of the lamp housing, and a diffusion plate is clamped between the iron lamp housings by adopting a welded aluminum frame at the lower part of the lamp housing. In view of the drawbacks of the foregoing solutions, a lower cost and more volume-saving structural solution is to be proposed.

Disclosure of Invention

The utility model discloses an illuminating lamp assembled by LED module lamps, which comprises an LED module lamp I, a plurality of LED module lamps II and a plurality of assembled conductive pieces, wherein the LED module lamp I and the LED module lamps II are assembled by adopting the assembled conductive pieces.

The utility model relates to a lighting lamp assembled by an LED module lamp, which comprises a lamp body, a light diffusion piece, an LED lamp strip I, a DC input line and an end cover, wherein the LED lamp strip I is fixed on the lamp body, the DC input line penetrates through the lamp body and is connected with the LED lamp strip, the light diffusion piece covers the LED lamp strip I, the end cover is arranged at two ends of the lamp body and the light diffusion piece, and the LED lamp strip I is sealed. The LED module lamp II comprises a lamp body, a light diffusion piece, an LED lamp strip II and an end cover, wherein the LED lamp strip II is fixed on the lamp body, the light diffusion piece covers the LED lamp strip II, the end cover is arranged at two ends of the lamp body and the light diffusion piece, and the LED lamp strip II is sealed.

The utility model relates to an illuminating lamp assembled by LED module lamps, wherein a lamp body is made of aluminum materials or plastic materials by adopting an extrusion process, the plastic materials are opaque or invisible light-transmitting plastic materials, and a light diffusion piece is made of atomized light-transmitting plastic materials by adopting the extrusion process.

Furthermore, the illuminating lamp assembled by the LED module lamp is manufactured by adopting a plastic material and adopting an integral structure extrusion process, so that the processing cost and the subsequent assembly cost are greatly reduced.

Further, in order to facilitate the assembly of the lamp strip of the module lamp and the assembly of the assembled conductive piece and each module lamp, the utility model provides the illuminating lamp assembled by the LED module lamp, wherein the lamp body is provided with the first hole in the extrusion direction, the lamp body is provided with the second hole in the front view of the lamp body close to two ends, or the lamp body is provided with the first symmetrical clamping groove and the second symmetrical clamping groove in the extrusion direction. According to the illuminating lamp assembled by the LED module lamps, the assembled conductive piece is of a structure of a plastic insulating layer coated with a metal sheet or of a structure of a single metal sheet, and two ends of the assembled conductive piece are respectively inserted into a first LED module lamp and a second LED module lamp, and the first holes or the first clamping grooves of the lamp body are used for realizing physical and mechanical structure splicing.

Further, in order to solve a circuit loop, the lighting lamp assembled by the LED module lamp is provided with the DC input anode and cathode bonding pads and the independent jumper bridging bonding pads at one end of the LED lamp strip, the cathode end bonding pad I is arranged at the other end of the LED lamp strip, the cathode end bonding pad II is arranged at one end of the LED lamp strip, the anode end bonding pad is arranged at the other end of the LED lamp strip, the independent jumper bridging bonding pad and the cathode end bonding pad I of the LED lamp strip, and the anode end bonding pad II and the anode end bonding pad of the LED lamp strip are respectively provided with the elastic electrode parts. The two ends of the assembled conductive piece are respectively inserted into the first LED module lamp and the second LED module lamp, the first hole or the first clamping groove of the lamp body is contacted with the elastic electrode piece to conduct electricity, and the electric connection of each LED module lamp is realized.

According to the illuminating lamp assembled by the LED module lamp, the negative electrode end of the first LED lamp strip is connected with the positive electrode end of the second LED lamp strip, the negative electrode end of the second LED lamp strip is connected with an elastic electrode piece on an independent jumper bridge bonding pad on the first LED lamp strip, the elastic electrode piece on the independent jumper bridge bonding pad is connected with a negative electrode pad of a DC input, and the DC input wire is correspondingly welded with the positive electrode pad and the negative electrode pad of the DC input on the first LED lamp strip.

Drawings

The utility model will be further described with reference to the drawings and the detailed description.

Fig. 1 is an exploded view of one preferred embodiment of a lighting lamp assembled from LED module lamps according to the present utility model.

Fig. 2 is an exploded view of a first LED module lamp of one preferred embodiment of the lighting lamp assembled by the first LED module lamp of the present utility model.

Fig. 3 is an exploded view of a second LED module lamp of one preferred embodiment of the lighting lamp assembled by the LED module lamp of the present utility model.

Fig. 4 is a schematic cross-sectional view of an assembled conductive member of one preferred embodiment of an illumination lamp assembled by LED module lamps according to the present utility model.

Fig. 5 is a schematic partial cross-sectional view of an assembled structure of an illumination lamp assembled by LED module lamps according to one preferred embodiment of the present utility model.

Fig. 6 is an exploded view of a second preferred embodiment of a lighting lamp assembled from LED module lamps according to the present utility model.

Fig. 7 is a front view of an assembled product of a lighting lamp assembled by LED module lamps according to a second preferred embodiment of the present utility model.

Fig. 8 is a schematic partial cross-sectional view of a lighting lamp assembled by LED module lamps according to the present utility model, showing a second preferred embodiment of the assembled structure.

Fig. 9 is an exploded view of a third preferred embodiment of a lighting lamp assembled from LED module lamps according to the present utility model.

Fig. 10 is an exploded view of a third preferred embodiment of a first LED module lamp of the lighting lamp assembled by the first LED module lamp of the present utility model.

Fig. 11 is an exploded view of a second LED module lamp of a third preferred embodiment of the illumination lamp assembled by LED module lamps according to the present utility model.

Fig. 12 is a schematic partial sectional view of a lighting lamp assembled by LED module lamps according to the present utility model, showing a third preferred embodiment of the assembled structure.

Fig. 13, 14, 15, 16 and 17 are respectively exploded views of an illumination lamp assembled by LED module lamps according to the present utility model.

Fig. 18 is a schematic circuit diagram of an LED light bar of an illumination lamp assembled by LED module lamps according to the present utility model.

Fig. 19 is a schematic diagram of the whole circuit loop of the lighting lamp assembled by the LED module lamp according to the present utility model.

In the figure, 1, an LED module lamp I, 101, a lamp body, 1011, a hole I, 1012, a hole II, 1013, a clamping groove I, 1014, a clamping groove II, 102, a light diffusion member 1031, an elastic electrode member, 104 and an end cover; 105. a DC input line 2, a second LED module lamp 3, an assembled conductive piece 301, a plastic insulating layer 302, a metal sheet 4, a first LED lamp strip 41 and a DC input positive and negative electrode bonding pad, 42, an independent jumper bridge pad, 43, a first negative electrode terminal pad, 5, a second LED light bar, 51, a second negative electrode terminal pad, 52 and a positive electrode terminal pad.

Detailed Description

Fig. 1 shows that one of the preferable schemes of the illuminating lamp assembled by the LED module lamps comprises an LED module lamp I (1), a plurality of LED module lamps II (2) and a plurality of assembled conducting pieces (3). Fig. 2 shows that the first LED module lamp (1) comprises a lamp body (101), a light diffusion member (102), a first LED lamp strip (4), a DC input line (105) and an end cover (104), wherein a DC input positive and negative electrode bonding pad (41) and an independent jumper bridging bonding pad (42) are arranged at one end of the first LED lamp strip (4), a negative electrode end bonding pad (43) is arranged at the other end of the first LED lamp strip, and an elastic electrode member (1031) is arranged on the independent jumper bridging bonding pad (42) and the negative electrode end bonding pad (43) of the first LED lamp strip (4). Fig. 3 shows that the second LED module lamp (2) comprises a lamp body (101), a light diffusion member (102), a second LED light bar (5) and an end cover (104), wherein the second LED light bar (5) is provided with a second negative electrode terminal pad (51) at one end, and a second positive electrode terminal pad (52) at the other end, and elastic electrode members (1031) are respectively arranged on the second LED light bar. Fig. 4 shows a structure in which the assembled conductive member (3) is a plastic insulating layer (301) wrapped with a metal sheet (302). Fig. 5 shows that the first LED light bar (4) of the first LED module light (1) is fixed on the light body (101), the first LED light bar (4) is covered by the light diffusion member (102), the end covers (104) are arranged at two ends of the light body (101) and the light diffusion member (102), the first LED light bar (4) is sealed, the second LED module light (2) is also fixed on the light body (101) by the second LED light bar (5), the second LED light bar (5) is covered by the light diffusion member (102), and the second LED light bar (5) is sealed by the end covers (104) arranged at two ends of the light body (101) and the light diffusion member (102). Fig. 5 also shows that the elastic electrode parts (1031) on the first LED light bar (4) and the second LED light bar (5) penetrate through the second hole (1012) on the light body (101), two ends of the assembled conductive part (3) are respectively inserted into the first hole (1011) of the light body (101) and the second hole (1011) of the light body (101), and the metal sheet (302) on the assembled conductive part (3) is in contact with the elastic electrode parts (1031) for power transmission.

Fig. 6 and 7 show that a second preferred scheme of the illumination lamp assembled by the LED module lamps of the present utility model comprises a first LED module lamp (1), a plurality of second LED module lamps (2) and a plurality of assembled conductive members (3), wherein the first LED module lamp (1) and the second LED module lamps (2) are assembled by the plurality of assembled conductive members (3). Fig. 6 shows that the plurality of assembled conductive pieces (3) are of independent metal sheet structures, and the lamp body (101) of the corresponding LED module lamp is manufactured by adopting a plastic extrusion process, so that the purpose of electric conduction and insulation is achieved. Fig. 8 shows that the first LED light bar (4) of the first LED module light (1) is fixed on the light body (101), the first LED light bar (4) is covered by the light diffusion member (102), the end cover (104) is arranged at two ends of the light body (101) and the light diffusion member (102), the first LED light bar (4) is sealed, the second LED module light (2) is also fixed on the light body (101) by the second LED light bar (5), the second LED light bar (5) is covered by the light diffusion member (102), the end cover (104) is arranged at two ends of the light body (101) and the light diffusion member (102), the second LED light bar (5) is sealed, the elastic electrode members (1031) on the first LED light bar (4) and the second LED light bar (5) penetrate through the second holes (1012) on the light body (101), and the two ends of the assembled conductive member (3) are respectively inserted into the first LED module light (1) and the second LED module light (2), and the first hole (1011) of the light body (101) is electrically contacted with the elastic electrode members (1031).

Fig. 9 shows a third preferred embodiment of the lighting lamp assembled by the LED module lamps according to the present utility model, which includes the first LED module lamp (1), the second LED module lamps (2) and the assembled conductive members (3), wherein the first LED module lamp (1) and the second LED module lamp (2) are assembled by the assembled conductive members (3), and the assembled conductive members (3) are in a single sheet metal structure. Fig. 10 shows that the first LED module lamp (1) includes a lamp body (101), a light diffusion member (102), a first LED light bar (4), a DC input line (105) and an end cover (104), the lamp body (101) and the light diffusion member (102) are integrally extruded by plastic materials, the lamp body (101) is made of opaque plastic or invisible plastic, the light diffusion member (102) is made of atomized light-transmitting plastic, the lamp body (101) is provided with a first clamping groove (1013) and a second clamping groove (1014) in the extrusion direction, and the first LED light bar (4) is provided with an elastic electrode (1031).

Fig. 11 shows that the LED module lamp two (2) includes a lamp body (101), a light diffusion member (102), an LED lamp strip two (5) and an end cover (104), the lamp body (101) and the light diffusion member (102) are integrally extruded with plastic materials, the lamp body (101) is made of opaque plastic or invisible plastic materials, the light diffusion member (102) is made of atomized light-transmitting plastic materials, the lamp body (101) is provided with a clamping groove one (1013) and a clamping groove two (1014) in the extrusion direction, and the LED lamp strip two (5) is provided with an elastic electrode (1031). Fig. 12 shows that the first LED light bar (4) and the second LED light bar (5) are fixed in the second clamping groove (1014) on the light body (101), two ends of the assembled conductive member (3) are inserted into the first clamping groove (1013) on the light body (101), the elastic electrodes (1031) on the first LED light bar (4) and the second LED light bar (5) are in contact with the assembled conductive member (3) for power transmission, the light diffusion member (102) covers the first LED light bar (4) and the second LED light bar (5), and the end covers (104) are arranged at two ends of the light body (101) and the light diffusion member (102) for sealing the first LED light bar (4) and the second LED light bar (5).

Fig. 13, 14 and 15 show an exploded structure of an illumination lamp assembled by an LED module lamp, in which a lamp body (101) and a light diffusion member (102) are shown as separate structures, the lamp body (101) can be made of aluminum or plastic materials by extrusion process, and the light diffusion member (102) is made of light-transmitting plastic materials by extrusion. Fig. 13 also shows that the lamp body (101) is provided with a hole one (1011) and a slot two (1014) in the extrusion direction thereof, and is also provided with a hole two (1012) on both near ends of the front view thereof. Fig. 14 also shows that the lamp body (101) is provided with a first symmetrical clamping groove (1013) and a second symmetrical clamping groove (1014) in the extrusion direction, and the second clamping groove (1014) is arranged outside the upper side wall surface of the first clamping groove (1013). Fig. 15 also shows that the lamp body (101) is provided with a first symmetrical clamping groove (1013) and a second symmetrical clamping groove (1014) in the extrusion direction, which are different from the arrangement shown in fig. 13 and 14 on the outer side wall of the lamp body (101), but are symmetrically arranged on the rib plates which are arranged separately in the lamp body (101).

Fig. 16 and 17 show an exploded structure of an illumination lamp assembled by an LED module lamp, in which a lamp body (101) and a light diffusion member (102) are integrally formed, the lamp body (101) is made of an opaque or opaque plastic material by an extrusion process, and the light diffusion member (102) is made of a transparent plastic material by extrusion. Fig. 16 also shows that the lamp body (101) is provided with a hole one (1011) in the extrusion direction, a symmetrical clamping groove two (1014) is arranged above the hole one (1011), and a hole two (1012) is also arranged on a main view plane near both ends of the lamp body (101). Fig. 17 also shows that the lamp body (101) is provided with a first symmetrical clamping groove (1013) and a second symmetrical clamping groove (1014) in the extrusion direction, and the first symmetrical clamping groove (1013) and the second symmetrical clamping groove (1014) are symmetrically arranged on a symmetrical rib plate arranged on the inner bottom surface of the lamp body (101).

Fig. 18 shows a parallel circuit of LED beads of a first LED strip (4) and a second LED strip (5) and conductive connection pads at two ends of the lighting lamp assembled by LED module lamps. In the figure, the upper side is LED lamp strip one (4), is provided with independent jumper wire bridging pad (42) on its left end, is provided with DC input positive negative pole pad (41) on its slightly right, is provided with negative pole end pad one (43) on the right-hand member, and the left side on the figure, right and the lower side are LED lamp strip two (5), see LED lamp strip two on the right (5), and its upper end is provided with anodal end pad (52), and its lower extreme is provided with negative pole end pad two (51), and its serial-parallel number is 3 and 6 circuit.

Fig. 19 shows that after the non-conductive structural part is hidden by the illuminating lamp assembled by the LED module lamp, the rest whole lamp circuit element is driven to be positively charged by the positive welding plate of the positive and negative electrode welding plate (41) of the DC input of the first LED lamp strip (4) and connected with the positive electrode of the 3 parallel lamp bead at the left end, the first (43) of the right end terminal welding plate is connected with the elastic electrode part (1031), the elastic electrode part (1031) is connected with the splicing conductive part (3) below the elastic electrode part, the splicing conductive part (3) is connected with the elastic electrode part (1031) on the positive electrode terminal welding plate (52) of the second LED lamp strip (5), the elastic electrode part (1031) on the negative electrode terminal welding plate (51) at the lower end of the second LED lamp strip (5) is connected with the splicing conductive part (3) below the positive electrode welding plate (52) of the second LED lamp strip (5), the splicing conductive part (3) is connected with the elastic electrode part (1031) at the right end of the second LED lamp strip (5) above the upper end of the lower end of the second LED lamp strip (5) in a clockwise direction, the elastic electrode piece (1031) on the negative electrode terminal bonding pad II (51) at the upper end of the LED light bar II (5) on the left side of the drawing is connected with the spliced conductive piece (3) below the elastic electrode piece, the spliced conductive piece (3) is connected with the elastic electrode piece (1031) on the independent jumper bridging bonding pad (42) of the LED light bar I (4) on the top of the drawing, the elastic electrode piece (1031) on the independent jumper bridging bonding pad (42) is connected with the negative electrode bonding pad of the DC input positive and negative electrode bonding pad (41), and finally, the positive and negative electrode wires of the DC input line (105) are respectively connected with the DC input positive and negative electrode bonding pad (41).

The illuminating lamp is formed by assembling a plurality of LED module lamps, the assembling is quick and convenient, the assembling is tight, the electricity transmission is safe and reliable, the linear module lamps are packaged by smaller assembled conducting pieces when leaving the factory, the size is very small, and the LED module lamps adopt a structure of bottom light emitting and light dispersing pieces, so that the light emitting surface is never yellow, the light is soft and uniform, and the brightness is high. In the service period, the user can replace the same LED module lamp in case that one or a plurality of modules are damaged, so that the cost for replacing the whole lamp can be saved.

Claims (9)

1. An illuminating lamp assembled by LED module lamps, which is characterized in that: the LED module lamp comprises a first LED module lamp (1), a plurality of second LED module lamps (2) and a plurality of spliced conductive pieces (3), wherein the first LED module lamp (1) and the second LED module lamps (2) are spliced by the spliced conductive pieces (3).

2. The lighting lamp assembled by the LED module lamp as set forth in claim 1, wherein: the LED module lamp I (1) comprises a lamp body (101), a light diffusion piece (102), an LED lamp strip I (4) and an end cover (104), the LED lamp strip I (4) is fixed on the lamp body (101), the light diffusion piece (102) covers the LED lamp strip I (4), the end cover (104) is arranged on the lamp body (101) and two ends of the light diffusion piece (102) to seal the LED lamp strip I (4), the LED module lamp II (2) comprises the lamp body (101), the light diffusion piece (102), an LED lamp strip II (5) and the end cover (104), the LED lamp strip II (5) is fixed on the lamp body (101), the light diffusion piece (102) covers the LED lamp strip II (5), and the end cover (104) is arranged on two ends of the lamp body (101) and the light diffusion piece (102) to seal the LED lamp strip II (5).

3. The lighting lamp assembled by the LED module lamp as set forth in claim 2, wherein: the lamp body (101) is made of aluminum or plastic materials and is made of extrusion technology, and the light diffusion piece (102) is made of light-transmitting plastic materials and is made of extrusion technology.

4. The lighting lamp assembled by the LED module lamp as set forth in claim 2, wherein: the lamp body (101) and the light diffusion piece (102) are made of plastic materials and are manufactured by adopting an integral structure extrusion process.

5. The lighting lamp assembled by the LED module lamp as set forth in claim 2, wherein: the lamp body (101) is provided with a first hole (1011) in the extrusion direction, and the lamp body (101) is provided with a second hole (1012) in the front view close to the two ends.

6. The lighting lamp assembled by the LED module lamp as set forth in claim 2, wherein: the lamp body (101) is provided with a symmetrical clamping groove I (1013) in the extrusion direction.

7. The lighting lamp assembled by the LED module lamp as set forth in claim 2, wherein: the lamp body (101) is provided with a symmetrical clamping groove II (1014) in the extrusion direction.

8. The lighting lamp assembled by the LED module lamp as set forth in claim 1, wherein: the spliced conductive piece (3) is of a structure that a plastic insulating layer (301) is wrapped by a metal sheet (302), or of a single metal sheet structure.

9. The lighting lamp assembled by the LED module lamp as set forth in claim 2, wherein: the LED lamp strip I (4) is provided with DC input positive and negative electrode bonding pads (41) and independent jumper bridging bonding pads (42) on one end, is provided with negative electrode terminal bonding pads I (43) on the other end, is provided with negative electrode terminal bonding pads II (51) on one end of LED lamp strip II (5), is provided with positive electrode terminal bonding pads (52) on the other end, independent jumper bridging bonding pads (42) with negative electrode terminal bonding pads I (43), and negative electrode terminal bonding pads II (51) with on positive electrode terminal bonding pads (52), all be provided with elastic electrode piece (1031).

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