SIMULATING NEON LAMP

Abstract

A simulating neon lamp is disclosed, which comprises a bottom base (10), a back, light source (20), a display assembly (30) and a cover plate (40); wherein the bottom case (10) is opaque and hollow and has an opening facing upward; the back light source (20) is mounted in the bottom case (10); the display assembly (30) is translucent and fixed onto the bottom case (10) to close the opening; the display assembly (30) comprises a first display panel (31); the sectional width of the first display panel (31) is less than that of the bottom case (10), and an upper surface of a connection where the first display panel (31) is connected with the bottom case (10) is not higher than a top end of the bottom case (10): the cover plate (40) is opaque and covers the connection where the first display panel (31) is connected with the bottom case (10) so as to shield the light penetrating from a gap of the connection where the first display panel (31) is connected with the bottom case (10). The present invention has such advantages as safety, energy-conservation and low cost, excellent effect simulating a neon lamp and so on.

Claims

1. A simulating neon lamp comprises: a bottom base (10), a back light source (20), a display assembly (30) and a cover plate (40); wherein the bottom case (10) is opaque, and hollow and as an opening facing upward; the back light source (20) is mounted within the bottom base (10); the display assembly (30) is translucent and fixed onto the bottom base (10) to dose the opening; the display assembly (30) comprises a first display panel (31); the sectional width of the first display panel (31) is less than that of the bottom base (10), and an upper surface of a connection where the first display panel (31) is connected with the bottom base (10) is not higher than a top end of the bottom case (10); the cover plate (40) is opaque and covers the connection where the first display panel (31) is connected with the bottom case (10), so as to block the light penetrating from a gap of the connection where the first display panel (31) is connected with the bottom case (10).

2. The simulating neon lamp according to claim 1, wherein the top end of the bottom base (10) has an insertion groove (11) in which the first display panel (31) is fixed.

3. The simulating neon lamp according to claim 1, wherein the first display panel (31) is a lamp strip, and the cover plate (40) is fixed onto an edge of the lamp strip and the top end of the bottom base (10).

4. The simulating neon lamp according to claim 3, wherein the lamp strip is a convex lamp strip and/or a planar lamp strip, wherein the convex lamp strip has a “Ω”-shaped section.

5. The simulating neon lamp according to claim 1, wherein the display assembly (30) is further provided with a second display panel.

6. The simulating neon lamp according to claim 5, wherein the sectional width of the second display panel is less than that of the bottom base (10), and an upper surface of a connection where the second display panel is connected with, the bottom base (10) is not higher than the top end of the bottom case (10); the cover plate (10) further covers the connection where the second display panel is connected with the bottom case (10), so as to block the light penetrating from a gap of the connection where the second display panel is connected with the bottom case (10).

7. The simulating neon lamp according to claim 5, wherein the second display panel is a printed sheet.

8. The simulating neon lamp according to claim 1, wherein the cover plate (40) is black in color; the bottom base (10) is black in color.

9. The simulating neon lamp according to claim 1, wherein the back light source (20) comprises several LED lamp beads (21) and a PCB substrate (22), wherein the LED lamp beads (21) are mounted on the PCB substrate (22), and the PCB substrate (22) is mounted within the bottom case (10).

10. The simulating neon lamp according to clam 1, wherein the simulating neon lamp further comprises a bracket (50) disposed below the bottom base (10).

Description

DESCRIPTION OF THE DRAWINGS

[0017] FIG. 1 is an integral three-dimensional exploded view of a simulating neon lamp according to the first embodiment;

[0018] FIG. 2 is a partial three-dimensional exploded view of a simulating neon lamp according to the first embodiment;

[0019] FIG. 3 is a longitudinal semi-sectional view of a single section of a simulating neon lamp according to the first embodiment;

[0020] FIG. 4 is an integral three-dimensional exploded view of a simulating neon lamp according to the second embodiment.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0021] Hereinafter, specific embodiments of the present invention will be described by reference to the drawings.

The First Embodiment

[0022] As shown in FIGS. 1, 2 and 3, this embodiment relates to a simulating neon lamp which comprises: a bottom case 10, a back light source 20, a display assembly 30, a cover plate 40 and a bracket 50, wherein the display assembly 30 comprises a first display panel 31. In the embodiment, the first display panel 31 is a convex lamp strip.

[0023] The bottom case 10 is hollow, and has an opening facing, upward, which has a shape consistent with the convex lamp strip 31, i.e. the shape designed for the simulating neon lamp. The top end of the bottom base 10 is provided with an insertion groove 11 for fixing the convex lamp strip 31. The bottom case 10 is opaque and black in color so as to simulate the appearance of a neon lamp more vividly. The material of the bottom base 10 is ABS or any other opaque material.

[0024] The back light source 20 comprises several LED tamp beads 21 and a PCB substrate 22, which is mounted within the bottom base 10. The LED lamp beads are mounted on the PCB substrate, and the PCB substrate is fixed and mounted within the bottom base 10 via threaded connection and so on, so as to form a back light source 20 in consistent shape with the convex lamp strip 31, for the purpose of providing a light source for the simulating neon lamp. The coloring of the light source could be customized according to design requirements.

[0025] The convex lamp strip 31 is translucent, and has a Ω-shaped section with flat edges 311 and an arc-shaped projection 312 therebetween, so as to simulate a neon lamp tube more vividly. The sectional width of the convex lamp strip 31 is less than that of the bottom base 10, and the convex lamp strip 31 is fixed in the insertion groove 11 via the edges 311 so as to close the opening of the groove and shield the back light source 20. The upper surface of the edge 311 is not higher than the top end of the bottom base 10, so that the light irradiating from the back light source 20 cannot be emitted from the lateral side of the lamp strip 31, but instead, only from the surface thereof.

[0026] The convex lamp strip 31 is fixed to the bottom base 10 by such connecting manners as adhering, threading and so on. The convex lamp strip 31 is produced by the suction-molding or injection-molding method, so as to make it possible to produce various shapes and colors. The material of the convex, lamp strip 31 is PMMA or any other translucent material.

[0027] The cover plate 40 is opaque, covering the connection where the convex lamp strip 31 is connected with the bottom base 10, so as to block the light penetrating from the gap of, the connection where the convex lamp strip 31 is connected with the bottom base 10. As such, the light irradiating from the back light source 20 could be emitted from the arc-shaped projection 312 in a more concentrated way. The cover plate 40 is black in color, which simulates the appearance and effect of a neon lamp more vividly. The material of the cover plate 40 is PVC or, any other opaque material.

[0028] The bracket 50 is disposed under the bottom base 10 for fixing the simulating neon lamp, so as to integrally fasten the lamp at the targeted use position. In this embodiment, the bracket 50 is an iron-made bracket.

[0029] In this embodiment, the convex lamp strip 31 could be planar shaped, or could have any other shape.

The Second Embodiment

[0030] As shown in FIG. 4, this embodiment provides a simulating neon lamp whose structure is substantially the same as, that of the first embodiment, with the only difference in regard to the first display panel 31′. In this embodiment, the first display panel 31′ consists of the combination of a convex lamp strip 31-1′ and a planar lamp strip 31-2′, so as to achieve cooperatively the designed shape of the simulating neon lamp.

[0031] Wherein, the convex lamp strip 31-1′ is similar to that of the first embodiment. The section of the planar lamp strip 31-2′ has a flat shape, and its width is less than the sectional width of the bottom base. The edge of the planar lamp strip is not higher than the top end of the bottom base. The cover plate 40′ is fixed to the edge of the planar lamp strip 31-2′ and the top end of the bottom base 10′, so as to shield the light penetrating from the gap of the connection where the planar lamp strip 31-2′ is connected to the bottom case 10′, so that the light is concentrated and penetrated from the center of the planar lamp strip 31-2′ to finally achieve the effect of simulating the neon lamp,

[0032] In this embodiment, the display assembly could further comprise a second display panel which could be a printed sheet. The printed sheet is a translucent sheet material whose section is similar to that of the planar lamp strip and exhibits a flat shape. Below the printed sheet there are disposed the back light source and the bottom case, wherein the sectional width of the printed sheet is less than that of the bottom base, and wherein the upper surface of the connection where the printed sheet is connected with the bottom base is not higher than the top end of the bottom case. The cover plate covers the connection where the printed sheet is connected with the bottom case, so as to block the light penetrating from the gap of the connection where the printed sheet is connected, with the bottom case. The printed sheet could be of any shape, with various patterns and colors printed on its surface, so as to enrich the decoration. The printed sheet could be used in combination with the first display panel.