CN220720715U - Double-layer luminous glass ornament - Google Patents

Abstract

The utility model provides a double-layer luminous glass ornament, comprising: the first layer of glass is provided with a first cavity and a second cavity which are concave inwards, the bottom surface of the first cavity is provided with a color printing wire pinching pattern, and the second cavity is arranged around the first cavity; the top surface of the second layer of glass is provided with a third cavity which is concave inwards, a lamp strip is embedded in the third cavity, the positions of the third cavity and the second cavity are staggered, and the second layer of glass further comprises at least one liquid injection nozzle and an exhaust nozzle which penetrate through the second layer of glass body; the top surface of the second layer of glass is tightly adhered to the bottom surface of the first layer of glass; and the bottom bracket is provided with a power supply component. The second cavity can be sealed by bonding two layers of glass, colored solution is injected into the second cavity by the liquid injection nozzle, redundant gas is discharged from the exhaust nozzle, power is supplied to the lamp belt by the power supply component of the bottom bracket, and the colored solution in the second cavity is irradiated after the lamp belt emits light, so that an observer can simultaneously see the color printing wire pinching pattern and the colored aperture on the front face.

Description

Double-layer luminous glass ornament

Technical Field

The utility model belongs to the technical field of glass products, and particularly relates to a double-layer luminous glass ornament.

Background

Glass products are commonly called as articles for daily use and industrial articles which are processed by adopting glass as a main raw material. With the increasing maturity of glass manufacturing technology by people, combining the characteristics of glass, more and more ornaments are developed by taking glass as a material, and more people pay attention to the field of furnishing ornaments, wherein a great part of artwork models are manufactured by glass.

However, the existing glass ornament generally has a single-layer structure, the expressive force is general, the layering sense is lacking, and if the glass ornament is intended to emit light on the basis of a layer of glass structure, the original display pattern can be influenced, and the structural design is complex.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, provide a double-layer luminous glass ornament, and solve the defects of complex luminous design structure, poor expressive force and the like of a single-layer glass ornament in the prior art.

In order to solve the problems, the technical scheme adopted by the utility model is as follows:

the utility model provides a double-layer luminous glass ornament, comprising:

the first layer of glass is provided with a first cavity and a second cavity which are concave inwards, the bottom surface of the first cavity is provided with color printing wire pinching patterns, and the second cavity is arranged around the first cavity;

the top surface of the second layer of glass is provided with a third cavity which is concave inwards, a lamp strip is embedded in the third cavity, the positions of the third cavity and the second cavity are staggered, the second layer of glass further comprises at least one liquid injection nozzle and an exhaust nozzle which penetrate through the second layer of glass body, the positions of the liquid injection nozzle and the exhaust nozzle correspond to the second cavity, and the liquid injection nozzle is used for injecting a colored solution into the second cavity; the top surface of the second layer of glass is tightly adhered to the bottom surface of the first layer of glass;

the bottom support is provided with a power supply assembly, the first layer of glass and the second layer of glass are adhered and then placed on the bottom support, and the power supply assembly is used for supplying power to the lamp strip.

In some embodiments, the first cavity is a circular cavity, the second cavity is an annular cavity connected end to end, and the second cavity surrounds the first cavity.

In some embodiments, the third cavity is an annular cavity end to end, and the third cavity has a smaller diameter than the second cavity.

In some embodiments, the number of the liquid filling nozzles and the number of the air discharging nozzles are one, and the liquid filling nozzles and the air discharging nozzles are respectively arranged at the bottom and the top of the second layer of glass.

In some embodiments, the projected area of the second layer of glass along the central axis is greater than the first layer of glass.

Compared with the prior art, the utility model at least comprises the following beneficial effects:

the second cavity on the bottom surface of the first layer of glass can be sealed by bonding the two layers of glass, the colored solution is injected into the second cavity by the liquid injection nozzle, redundant gas is discharged from the exhaust nozzle, a lamp strip is embedded in the third cavity of the bonding surface, the lamp strip is powered by a power supply component of the bottom bracket, and after the lamp strip emits light, the colored solution in the second cavity is irradiated, so that an observer can see the color printing wire pinching pattern and the colored aperture at the front surface at the same time, but the lamp strip cannot be seen directly, the structure is simple, and layering sense is presented.

Drawings

The utility model will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the utility model, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

Fig. 1 is a schematic view of a structure of a double-layer luminescent glass ornament according to an embodiment.

FIG. 2 is a schematic cross-sectional view of a first glass layer and a second glass body according to one embodiment.

FIG. 3 is a schematic cross-sectional view of a completed assembly formed by bonding a first glass ply to a second glass ply in accordance with one embodiment.

FIG. 4 is a schematic view of a first glass layer in vertical section, under an embodiment.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, when it is described that a specific device is located between a first device and a second device, an intervening device may or may not be present between the specific device and the first device or the second device. When it is described that a particular device is connected to other devices, the particular device may be directly connected to the other devices without intervening devices, or may be directly connected to the other devices without intervening devices.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

The inventors found that:

for the glass ornament for decoration and appreciation, generally, only a single-layer structure is adopted, only the front side of the single-layer structure can be utilized for display, if the luminous element is needed to be added on the basis, the lamp strip can be stuck on the back side of the glass plate, but in this way, the lamp strip can protrude out of the glass plate, sealing protection cannot be obtained, the structure is complex, the use reliability and the appearance integrity are affected, and the display mode of the lamplight is too single.

In view of this, referring to fig. 1 to 3, an embodiment of the present disclosure provides a double-layer light-emitting glass ornament including:

the first layer of glass 10, the bottom surface has first cavity 11 and second cavity 12 recessed inwards, the cavity bottom surface of the first cavity 11 has color printing wire pinching pattern 13, from the front of the first layer of glass 10, can see the color printing wire pinching pattern 13 in the first cavity 11 directly, and the second cavity 12 is located around the first cavity 11;

the second layer of glass 20, the top surface has third cavity 21 recessed inwards, the third cavity 21 has embedded the light strip 22, the third cavity 21 is staggered with the position of the second cavity 12, also include at least one liquid injection mouth 23 and exhaust mouth 24 penetrating the body of the second layer of glass 20, the liquid injection mouth 23 and exhaust mouth 24 positions correspond to second cavity 12, the liquid injection mouth 23 is used for injecting the colored solution 14 into second cavity 12; the top surface of the second layer glass 20 is closely adhered to the bottom surface of the first layer glass 10;

the bottom bracket 30 is provided with a power supply component 31, the first layer glass 10 and the second layer glass 20 are adhered and then placed on the bottom bracket 30, and the power supply component 31 is used for supplying power to the lamp strip 22.

After the top surface of the second glass layer 20 and the bottom surface of the first glass layer 10 are bonded, the second glass layer 20 and the bonding surface of the first glass layer 10 are closely bonded, the third cavity 21 of the second glass layer 20 and the second cavity 12 of the first glass layer 10 are not overlapped, the liquid filling nozzle 23 and the air discharging nozzle 24 of the second glass layer 20 are opposite to the second cavity 12 of the first glass layer 10, the colored solution 14 is injected into the second cavity 12 through the liquid filling nozzle 23, the colored solution 14 is a liquid with pigment, and the redundant gas in the second cavity 12 is discharged from the air discharging nozzle 24.

Optionally, after the second glass layer 20 is adhered to the first glass layer 10, the adhered assembly can be laid flat, the colored solution 14 injected from the liquid injection nozzle 23 is subjected to gravity, so that the air in the second cavity 12 can be discharged, and finally, the liquid injection nozzle 23 and the air exhaust nozzle 24 are sealed by gluing, so that the colored solution 14 in the second cavity 12 cannot flow outwards.

The bonded assembly is placed on the bottom bracket 30, the power supply assembly 31 of the bottom bracket 30 is utilized to supply power to the lamp strip 22 embedded in the third cavity 21, the position of the third cavity 21 needs to be changed to the position of the liquid injection nozzle 23 and the position of the air exhaust nozzle 24, so that the position of the third cavity 21 is wrong with the position of the second cavity 12, the lamp strip 22 positioned in the third cavity 21 emits light after being electrified, the first layer glass 10 and the second layer glass 20 are both made of transparent materials, so that the light irradiates the colored solution 14 of the second cavity 12 through the body of the second layer glass 20, and the colored liquid is illuminated to present a colored aperture with vivid colors.

The viewer can see the color printing wire pinching pattern 13 and the colored light ring at the front side, but can not see the lamp belt 22 directly, the lamp belt 22 can not directly irradiate the colored solution 14 from the bottom, the colored solution 14 can not generate a strip of light with strong light in a certain area, and the illumination brightness is gradually weakened from the inner ring of the colored solution 14 to the outer ring by utilizing the irradiation with a certain inclination, the brightness is gradually changed, and the expression tension is improved; and the back of the second glass layer 20 can not touch the lamp strip 22, so the structure is simple.

Referring to fig. 4, in this embodiment, the first cavity 11 is a circular concave cavity, the second cavity 12 is an annular concave cavity connected end to end, the second cavity 12 surrounds the periphery of the first cavity 11, that is, along a vertical section parallel to the front surface of the first layer of glass 10, the vertical section of the first cavity 11 is circular, the vertical section of the second cavity 12 is annular, and the annular surrounds the circular periphery to form a package shape.

Optionally, there is a gap between the ring shape and the circular shape.

As an embodiment, the third cavity 21 is an annular concave cavity connected end to end, that is, along a vertical section of the second layer of glass 20 parallel to the front surface thereof, the vertical section of the third cavity 21 is annular, the surrounding diameter of the third cavity 21 is smaller than that of the second cavity 12, and gaps are formed between the vertical sections formed by the second cavity 12 and the third cavity 21 respectively.

As an embodiment, the number of the liquid injection nozzles 23 and the exhaust nozzles 24 is one, the liquid injection nozzles 23 and the exhaust nozzles 24 are respectively arranged at the bottom and the top of the second layer glass 20, the center of the annular concave cavity formed by the third cavity 21 is taken as the midpoint, the connecting line between the liquid injection nozzles 23 and the exhaust nozzles 24 passes through the midpoint, the liquid injection nozzles 23 are positioned at the bottom of the second layer glass 20 in a 180-degree relationship, the exhaust nozzles 24 are positioned at the top of the second layer glass 20, so that the colored solution 14 is injected from the bottom, and the gas is exhausted from the exhaust nozzles 24 at the top.

As an embodiment, a wire 32 is led out from the lamp strip 22, the wire 32 is arranged at a position staggered from the liquid injection nozzle 23 and extends downwards to be connected with a power supply assembly 31 in the bottom bracket 30, and sealing is realized between the wire 32 and the second layer of glass 20 through glue spraying treatment.

Optionally, the projected area of the second layer of glass 20 along the central axis is larger than the first layer of glass 10.

Compared with the prior art, the embodiment provides a double-layer luminous glass ornament, the second cavity 12 positioned on the bottom surface of the first layer glass 10 can be sealed by bonding two layers of glass, the colored solution 14 is injected into the second cavity 12 by the liquid injection nozzle 23, redundant gas is discharged from the exhaust nozzle 24, the lamp strip 22 is embedded in the third cavity 21 of the bonding surface, the lamp strip 22 is powered by the power supply assembly 31 of the bottom bracket 30, and after the lamp strip 22 emits light, the colored solution 14 in the second cavity 12 is irradiated, so that an observer can see the color printing wire pinching pattern 13 and the colored ring at the same time on the front surface, but can not directly see the lamp strip 22, and the double-layer luminous glass ornament has a simple structure and is characterized by layering.

Finally, it should be emphasized that the present utility model is not limited to the above-described embodiments, but is merely preferred embodiments of the utility model, and any modifications, equivalents, improvements, etc. within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (5)

1. A double-layer luminescent glass ornament, comprising:

the first layer of glass is provided with a first cavity and a second cavity which are concave inwards, the bottom surface of the first cavity is provided with color printing wire pinching patterns, and the second cavity is arranged around the first cavity;

the top surface of the second layer of glass is provided with a third cavity which is concave inwards, a lamp strip is embedded in the third cavity, the positions of the third cavity and the second cavity are staggered, the second layer of glass further comprises at least one liquid injection nozzle and an exhaust nozzle which penetrate through the second layer of glass body, the positions of the liquid injection nozzle and the exhaust nozzle correspond to the second cavity, and the liquid injection nozzle is used for injecting a colored solution into the second cavity; the top surface of the second layer of glass is tightly adhered to the bottom surface of the first layer of glass;

the bottom support is provided with a power supply assembly, the first layer of glass and the second layer of glass are adhered and then placed on the bottom support, and the power supply assembly is used for supplying power to the lamp strip.

2. A double-layer luminescent glass ornament as in claim 1, wherein the first cavity is a circular cavity, the second cavity is an annular cavity connected end to end, and the second cavity surrounds the first cavity.

3. A double-layer luminescent glass ornament as in claim 2 wherein said third cavity is an annular cavity joined end to end, and wherein said third cavity has a smaller diameter than said second cavity.

4. A double-layer luminescent glass ornament as in claim 3 wherein the number of said liquid filling nozzles and said gas discharge nozzles is one, said liquid filling nozzles and said gas discharge nozzles being disposed at the bottom and top of said second layer glass, respectively.

5. A double layer luminescent glass ornament as in claim 4 wherein said second layer of glass has a larger projected area along the central axis than said first layer of glass.