CN216844250U - Novel silica gel lamp area - Google Patents

Abstract

The utility model discloses a novel silica gel lamp strip, including the lamp strip body, the lamp strip body includes first silica gel layer, second silica gel layer, LED circuit board, and first silica gel layer, second silica gel layer, LED circuit board are rectangular shape setting, and first silica gel layer and second silica gel layer surround to form rectangular column, and the LED circuit board is set up between first silica gel layer and second silica gel layer and the LED circuit board is the slope form setting; a first spacing gap is arranged between the back surface of the LED circuit board and the first silica gel layer, a plurality of LED lamp beads are arranged on the front surface of the LED circuit board along the length direction of the LED circuit board, a second spacing gap is arranged between the front surface of the LED circuit board and the second silica gel layer, and the LED lamp beads are positioned in the second spacing gap; and a third spacing gap is arranged in the second silica gel layer and is arranged outside the second spacing gap.

Description

Novel silica gel lamp area

Technical Field

The utility model relates to a lamp area field especially relates to a novel silica gel lamp area.

Background

The LED lamp strip is named after a strip-shaped FPC or PCB hard board is assembled with LEDs, and the product shape of the LED lamp strip is like a strip. Because of long service life, energy conservation, green and environmental protection, the method gradually exposes the corners in various decoration industries. In the interior decoration operation process, need set up LED lamp area at indoor top edge usually, because LED lamp area is level or vertical setting to lead to receiving the influence of wall after LED lamp area installation, making the light in LED lamp area be horizontal direction or vertical direction, its irradiation range in indoor is less, has seriously influenced the result of use in LED lamp area, consequently, is necessary to improve it.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a simple structure, the better novel silica gel lamp area of illuminating effect.

In order to realize the purpose, the technical scheme of the utility model is that:

a novel silica gel lamp strip comprises a lamp strip body, wherein the lamp strip body comprises a first silica gel layer, a second silica gel layer and an LED circuit board, the first silica gel layer, the second silica gel layer and the LED circuit board are all arranged in a strip shape, the first silica gel layer and the second silica gel layer are encircled to form a rectangular column shape, the LED circuit board is arranged between the first silica gel layer and the second silica gel layer, and the LED circuit board is arranged in an inclined shape; a first spacing gap is arranged between the back surface of the LED circuit board and the first silica gel layer, a plurality of LED lamp beads are arranged on the front surface of the LED circuit board along the length direction of the LED circuit board, a second spacing gap is arranged between the front surface of the LED circuit board and the second silica gel layer, and the LED lamp beads are positioned in the second spacing gap; and a third spacing gap is arranged in the second silica gel layer and is arranged outside the second spacing gap.

Furthermore, the cross sections of the first silica gel layer and the second silica gel layer are in a right-angled triangle shape, and the inclined plane of the first silica gel layer is connected with the inclined plane of the second silica gel layer.

Further, the LED circuit board is arranged in an inclined mode at 45 degrees, and the LED circuit board is a flexible PCB.

Further, the edge of the back face of the LED circuit board is connected with the first silica gel layer, and the first interval gap is located below the middle portion of the back face of the LED circuit board.

Furthermore, the edge of the front face of the LED circuit board is connected with a second silica gel layer, a second spacing gap is positioned above the middle part of the front face of the LED circuit board, and one side, far away from the LED circuit board, of the second spacing gap is in an arc shape.

Furthermore, one side of the third spacing gap, which is close to the second spacing gap, is arranged in an arc shape, and the distance between one side of the third spacing gap, which is close to the second spacing gap, and the second spacing gap is kept consistent; one side of the third spacing gap, which is far away from the second spacing gap, is arranged at a right angle, and the distance between one side of the third spacing gap, which is far away from the second spacing gap, and the outer side wall of the second silica gel layer is kept consistent.

Furthermore, the first spacing gap, the second spacing gap and the third spacing gap are all in a strip shape, and the length directions of the first spacing gap, the second spacing gap and the third spacing gap are consistent with the length directions of the first silica gel layer and the second silica gel layer.

Further, be provided with a plurality of anti-skidding recess on the lateral wall on first silica gel layer, a plurality of anti-skidding recess sets up side by side in proper order along the width direction of lamp area body.

Further, the first silica gel layer is milky silica gel, and the second silica gel layer is transparent silica gel.

Compared with the prior art, the utility model has the advantages and positive effect be:

the utility model adopts the design that the LED circuit board is obliquely arranged between the first silica gel layer and the second silica gel layer, so that when in use, the first silica gel layer is arranged along the corner at the top in the room, at the moment, the LED lamp beads on the LED circuit board are also obliquely arranged and matched with the arc surface in the second interval gap, thereby effectively increasing the irradiation range of the LED lamp beads in the room and improving the irradiation effect of the lamp strip; in addition, the design of the second interval gap and the third interval gap in the utility model ensures that the distance from the light of the LED lamp bead to the outer side wall of the second silica gel layer is kept consistent, thereby ensuring the uniformity of the light irradiated by the lamp strip and avoiding the occurrence of the condition of uneven light irradiation; meanwhile, the flexibility of the lamp strip can be improved due to the arrangement of the first spacing gap, the second spacing gap and the third spacing gap, the lamp strip can be conveniently bent at will, the condition that the LED circuit board and the LED lamp beads are damaged when the lamp strip is bent is avoided, and the using effect of the lamp strip is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view A-A of FIG. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, any modifications, equivalent replacements, improvements, etc. made by other embodiments obtained by a person of ordinary skill in the art without creative efforts shall be included in the protection scope of the present invention.

As shown in fig. 1 and 2, the embodiment discloses a novel silica gel lamp strip, which includes a lamp strip body 1, where the lamp strip body 1 includes a first silica gel layer 11, a second silica gel layer 12, and an LED circuit board 13, and the first silica gel layer 11, the second silica gel layer 12, and the LED circuit board 13 are all arranged in a strip shape; the first silica gel layer 11 is milky silica gel, and the second silica gel layer 12 is transparent silica gel; the opalescent silica gel has higher hardness and better structural stability when the walls are connected; the LED circuit board 13 is a flexible PCB;

the sections of the first silica gel layer 11 and the second silica gel layer 12 are in right-angled triangle shapes, the inclined plane of the first silica gel layer 11 is connected with the inclined plane of the second silica gel layer 12 to form a rectangular column shape, the LED circuit board 13 is arranged between the first silica gel layer 11 and the second silica gel layer 12, and the LED circuit board 13 is arranged in a 45-degree inclined manner;

the edge of the back face of the LED circuit board 13 is connected with the first silica gel layer 11, a first spacing gap 111 is arranged between the middle of the back face of the LED circuit board 13 and the first silica gel layer 11, the first spacing gap 111 is operated by using the heat dissipation of the LED circuit board, a plurality of LED lamp beads 14 are arranged on the front face of the LED circuit board 13 along the length direction of the LED circuit board 13, the LED circuit board 13 is electrically connected with the LED lamp beads 14, the edge of the front face of the LED circuit board 13 is connected with the second silica gel layer 12, a second spacing gap 121 is arranged between the middle of the front face of the LED circuit board 13 and the second silica gel layer 12, one side of the second spacing gap 121 far away from the LED circuit board 13 is arranged in an arc shape, and the arc-shaped design can enable light emitted by the LED lamp beads to have a certain light scattering effect; the LED lamp beads 14 are positioned in the second spacing gap 121; a third spacing gap 122 is arranged in the second silica gel layer 12, and the third spacing gap 122 is arranged outside the second spacing gap 121; the first spacing gap 111, the second spacing gap 121, and the third spacing gap 122 are all long-strip-shaped, and the length direction of the first spacing gap 111, the second spacing gap 121, and the third spacing gap 122 is consistent with the length direction of the first silica gel layer 11 and the second silica gel layer 12.

The side of the third spacing gap 122 close to the second spacing gap 121 is arc-shaped, and the side of the third spacing gap 122 close to the second spacing gap 121 is consistent with the distance between the second spacing gap 121; one side of the third spacing gap 122 away from the second spacing gap 121 is arranged in a right angle and is parallel to the outer side wall of the second silicone rubber layer 12, and the distance between one side of the third spacing gap 122 away from the second spacing gap 121 and the outer side wall of the second silicone rubber layer 12 is kept consistent. The distance that the light that this design made to send from LED lamp pearl spreads the second silica gel layer lateral wall is unanimous, has guaranteed the light homogeneity in lamp area, has improved the illuminating effect in lamp area.

Be provided with a plurality of anti-skidding recess 112 on the lateral wall of first silica gel layer 11, a plurality of anti-skidding recess 112 sets up side by side in proper order along the width direction of lamp area body 1. The anti-skidding recess can increase the frictional force between first silica gel layer and the wall, makes the connection structure between the two more firm.

When the lamp area was produced, at first be connected second silica gel layer with LED circuit board, LED lamp pearl, then carry out the operation of moulding plastics on first silica gel layer at the inclined plane edge on the LED circuit board back and second silica gel layer through the injection molding machine to obtain novel silica gel lamp area, its production operation is more convenient, has further improved the utility model discloses an effect of use.

The utility model adopts the design that the LED circuit board is obliquely arranged between the first silica gel layer and the second silica gel layer, so that when in use, the first silica gel layer is arranged along the corner at the top in the room, at the moment, the LED lamp beads on the LED circuit board are also obliquely arranged and matched with the arc surface in the second interval gap, thereby effectively increasing the irradiation range of the LED lamp beads in the room and improving the irradiation effect of the lamp strip; in addition, the design of the second interval gap and the third interval gap in the utility model ensures that the distance from the light of the LED lamp bead to the outer side wall of the second silica gel layer is kept consistent, thereby ensuring the uniformity of the light irradiated by the lamp strip and avoiding the occurrence of the condition of uneven light irradiation; meanwhile, the flexibility of the lamp strip can be improved due to the arrangement of the first spacing gap, the second spacing gap and the third spacing gap, the lamp strip can be conveniently bent at will, the condition that the LED circuit board and the LED lamp beads are damaged when the lamp strip is bent is avoided, and the using effect of the lamp strip is further improved.

Claims (9)

1. The utility model provides a novel silica gel lamp area, includes the lamp area body, its characterized in that: the lamp strip body comprises a first silica gel layer, a second silica gel layer and an LED circuit board, wherein the first silica gel layer, the second silica gel layer and the LED circuit board are arranged in a strip shape, the first silica gel layer and the second silica gel layer surround to form a rectangular column shape, the LED circuit board is arranged between the first silica gel layer and the second silica gel layer, and the LED circuit board is arranged in an inclined shape; a first spacing gap is formed between the back surface of the LED circuit board and the first silica gel layer, a plurality of LED lamp beads are arranged on the front surface of the LED circuit board along the length direction of the LED circuit board, a second spacing gap is formed between the front surface of the LED circuit board and the second silica gel layer, and the LED lamp beads are positioned in the second spacing gap; and a third spacing gap is arranged in the second silica gel layer and is arranged outside the second spacing gap.

2. A novel silicone strip as claimed in claim 1, wherein: the cross-sections of the first silica gel layer and the second silica gel layer are in right-angled triangle shapes, and the inclined plane of the first silica gel layer is connected with the inclined plane of the second silica gel layer.

3. A novel silicone strip as claimed in claim 2, wherein: the LED circuit board is 45 degrees slope settings, and the LED circuit board is flexible PCB board.

4. A novel silicone strip as claimed in claim 3, wherein: the edge of the back face of the LED circuit board is connected with the first silica gel layer, and the first interval gap is located below the middle portion of the back face of the LED circuit board.

5. A novel silicone strip as set forth in claim 4, wherein: the edge of the front face of the LED circuit board is connected with the second silica gel layer, the second spacing gap is located above the middle of the front face of the LED circuit board, and one side, away from the LED circuit board, of the second spacing gap is in an arc shape.

6. A novel silicone strip as claimed in claim 5, wherein: one side of the third spacing gap, which is close to the second spacing gap, is arranged in an arc shape, and the distance between one side of the third spacing gap, which is close to the second spacing gap, and the second spacing gap is kept consistent; one side of the third spacing gap, which is far away from the second spacing gap, is arranged at a right angle, and the distance between one side of the third spacing gap, which is far away from the second spacing gap, and the outer side wall of the second silica gel layer is kept consistent.

7. A novel silicone strip as claimed in claim 6, wherein: the first spacing gap, the second spacing gap and the third spacing gap are all long-strip-shaped, and the length directions of the first spacing gap, the second spacing gap and the third spacing gap are consistent with the length directions of the first silica gel layer and the second silica gel layer.

8. A novel silicone strip as claimed in claim 7, wherein: be provided with a plurality of anti-skidding recess on the lateral wall on first silica gel layer, a plurality of anti-skidding recess sets up side by side in proper order along the width direction of lamp area body.

9. A novel silicone strip as claimed in claim 8, wherein: the first silica gel layer is milky silica gel, and the second silica gel layer is transparent silica gel.

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