CN213207309U - Three-cavity radiating intelligent bulb - Google Patents

Abstract

The utility model relates to a radiating intelligent bulb of three chambeies, including cell-shell chamber, intelligent control chamber and lamp holder chamber, intelligent control chamber upper end is connected with the lamp holder chamber, and the lower extreme and the cell-shell chamber in intelligent control chamber are connected. The bulb shell cavity comprises an LED luminous core column, a glass bracket and a bulb shell; the intelligent control cavity comprises an intelligent control electric appliance shell, an intelligent control electric appliance assembly and a signal receiver, the lamp holder cavity comprises a rectification electric appliance assembly and a lamp holder, and the rectification electric appliance assembly is arranged in the lamp holder. This technical scheme intelligence bulb during operation, the LED luminous core column that can produce the temperature, intelligent control electrical apparatus assembly and rectification electrical apparatus assembly set up in three difference and divided cavity for the heat that their during operation produced does not superpose, and derive the extraventricular with the heat rapidly through respective cavity, thereby guaranteed the steady operation of intelligence bulb, the radiating efficiency of intelligence bulb has been improved, increase the life and the security of intelligence bulb, it is significant to the popularization and application of intelligence bulb product.

Description

Three-cavity radiating intelligent bulb

Technical Field

The utility model relates to an energy-conserving technical field of illumination especially relates to a three-cavity radiating intelligent bulb.

Background

Along with the extensive people pay attention to and use of intelligent air-dwelling and intelligent product, the market is to the demand of intelligent bulb bigger and bigger, and all electric apparatus circuit of most intelligent bulb structures in the market all place in a cavity, and the heat that produces when LED light source during operation and drive power supply and intelligent chip circuit during operation all are by the heat dissipation of same cavity, consequently either the power does not do greatly or the power is big must use great radiator, can just be with temperature control at the operating temperature scope of design. Therefore, the intelligent bulb has extremely high cost, poor product aesthetic property and large volume, and does not hinder the wide application of the lamp in the first place.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a three radiating intelligent bulbs of chamber to solve the problem that intelligent bulb is short because of the high job stabilization life of temperature on the existing market, make LED intelligent lamp bulb realize that operating condition is stable, long-life, safe and reliable's guarantee, more can satisfy the consumer's life taste requirement that improves day by day.

The utility model discloses a realize through following technical scheme:

an intelligent bulb with three-cavity heat dissipation comprises a bulb shell cavity, an intelligent control cavity and a lamp holder cavity, wherein the upper end of the intelligent control cavity is connected with the bulb shell cavity, and the lower end of the intelligent control cavity is connected with the lamp holder cavity;

the bulb shell cavity comprises an LED luminous core column, a glass bracket and a bulb shell; the LED luminous core column is arranged on the glass support, the bulb shell and the glass support provided with the LED luminous core column are sintered together at high temperature to form a closed bulb shell cavity, and heat-conducting gas is filled in the bulb cavity;

the intelligent control cavity comprises an intelligent control electric appliance shell, an intelligent control electric appliance assembly and a signal receiver, and the intelligent control electric appliance assembly and the signal receiver are arranged in the intelligent control electric appliance shell;

the lamp holder cavity comprises a rectifier electric assembly and a lamp holder, and the rectifier electric assembly is arranged in the lamp holder;

the LED luminous core column and the signal receiver are electrically connected with an intelligent control electric appliance assembly, the intelligent control electric appliance assembly is electrically connected with a rectifier electric appliance assembly, and the rectifier electric appliance assembly is electrically connected with the positive electrode and the negative electrode on the lamp holder.

Preferably, the bulb shell is a glass bulb shell, and the shape of the bulb shell is a round ball type, a cylindrical type, an oval type, a conical type, an olive type or a mushroom type.

Preferably, the LED light-emitting core column is made by attaching light source particles on a circuit board, or the chip is directly closed on the circuit board by a COB method to form a product.

Preferably, the shape of the intelligent control electric appliance shell is matched with the appearance of the bulb.

Preferably, the signal receiver is arranged in the middle gap of the glass bracket.

Preferably, the lamp cap cavity is filled with heat-conducting glue.

The utility model has the advantages that:

this technical scheme intelligence bulb during operation, the LED luminous core column that can produce the temperature, intelligent control electrical apparatus assembly and rectification electrical apparatus assembly set up in three difference and divided cavity for the heat that their during operation produced does not superpose, and derive the extraventricular with the heat rapidly through respective cavity, thereby guaranteed the steady operation of intelligence bulb, the radiating efficiency of intelligence bulb has been improved, increase the life and the security of intelligence bulb, it is significant to the popularization and application of intelligence bulb product.

Drawings

In order to more clearly illustrate the specific embodiments of the present invention, the drawings used in the embodiments will be briefly described below.

Fig. 1 is a schematic view of an intelligent bulb with three chambers for heat dissipation according to the present invention;

FIG. 2 is a schematic view of a blister cavity;

FIG. 3 is a schematic diagram of an intelligent control chamber;

fig. 4 is a schematic view of the burner cavity.

Description of the reference numerals

1 cell-shell, 2 glass support, 3 cell-shell chambeies, 4 LED luminous stem stems, 5 pump drainage trachea, 6 intelligent control electrical apparatus shells, 7 intelligent control electrical apparatus assemblies, 8 intelligent control chambeies, 9 lamp holders, 10 rectifier electrical apparatus assemblies, 11 lamp holder chambeies, 12 signal receiver.

Detailed Description

In order to make the technical field better understand the solution of the embodiments of the present invention, the following embodiments are further described in detail with reference to the accompanying drawings and the implementation manner.

The intelligent bulb aims at the problems that all electric appliance circuits in the current intelligent bulb are placed in one cavity, heat generated by a light source and the circuits is accumulated in one cavity to be radiated, and the radiating efficiency is low easily.

The utility model provides a three radiating intelligent bulbs of chamber solves the phenomenon that intelligent bulb is short-lived because of the temperature is high on the existing market for LED intelligent bulb has realized operating condition stability, and long-lived, safe and reliable's guarantee more can satisfy the requirement of consumer's life taste that improves day by day.

As shown in fig. 1 to 4, the intelligent bulb with three heat-dissipating cavities comprises a bulb shell cavity 3, an intelligent control cavity 8 and a lamp holder cavity 11, wherein the upper end of the intelligent control cavity is connected with the bulb shell cavity, and the lower end of the intelligent control cavity is connected with the lamp holder cavity.

As shown in fig. 2, the LED light emitting core column 4 is mounted on the glass support 2, the bulb 1 and the glass support 2 mounted with the LED light emitting core column 4 are sintered together at a high temperature to form a sealed bulb cavity 3, a pumping exhaust pipe 5 is arranged in the glass support, the sealed bulb cavity is pumped by the pumping exhaust pipe and filled with heat conducting gas, then the end of the pumping exhaust pipe is sealed to obtain a high heat conducting bulb assembly, and the temperature generated by the LED light emitting core column is ensured to be transferred and cooled.

In the embodiment of the application, the cannon shell 1 is a glass bulb shell, the shape of the cannon shell is a spherical shape, a cylindrical shape, an elliptical shape, a conical shape, an olive shape or a mushroom shape, and the cannon shell can also be in any other shape, and the key point of the application is that the intelligent bulb is provided with three cavities.

The LED luminous core column 4 is made by attaching light source particles on a circuit board, or a chip is directly sealed on the circuit board by a COB method to form a product.

As shown in fig. 3, the lower end of the bulb shell is glued on the intelligent control electrical appliance shell 6, the intelligent control electrical appliance assembly 7 is installed in the cavity of the intelligent control electrical appliance shell to obtain an intelligent control cavity 8, as shown in fig. 3, heat conducting glue can be poured into the intelligent control cavity to conduct heat, and heat generated during the operation of the intelligent control electrical appliance assembly is rapidly led out of the intelligent control electrical appliance shell. In the technical scheme of this application, intelligent control electrical apparatus shell is the metal material for the temperature is rapidly to diffusion in the ambient air, guarantees the stable work of intelligent control electrical apparatus assembly under the temperature of settlement. In other embodiments of the present application, the housing of the intelligent control electrical appliance may also be made of plastic or other materials.

The shape of the intelligent control electric appliance shell is matched according to the appearance of the bulb, no special emphasis is placed on the shape of the intelligent control electric appliance shell, but the aesthetic property of the appearance design of the intelligent bulb is required to be maintained generally.

The LED luminous core column is connected with the intelligent control electric appliance assembly through a soft or hard guide pin on the glass support to ensure the electric conduction. The signal receiver 12 can be arranged in the middle gap of the glass bracket 2, and the shielding effect of the metal intelligent control electric appliance shell is eliminated.

As shown in fig. 4, the lamp cap 9 is fixed at the lower end of the intelligent control electrical apparatus shell by glue, a rectifier electrical apparatus assembly 10 for rectifying external power supply is arranged in the lamp cap cavity 11, the rectifier electrical apparatus assembly is connected with the circuit of the intelligent control assembly through a circuit for power supply, heat conducting glue can be filled in the lamp cap cavity, heat generated during the operation of the rectifier electrical apparatus assembly is quickly conducted to the lamp cap and then conducted out, and the intelligent lamp bulb with three-cavity heat dissipation is formed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An intelligent bulb with three-cavity heat dissipation is characterized by comprising a bulb shell cavity, an intelligent control cavity and a lamp holder cavity, wherein the upper end of the intelligent control cavity is connected with the bulb shell cavity, and the lower end of the intelligent control cavity is connected with the lamp holder cavity;

the bulb shell cavity comprises an LED luminous core column, a glass bracket and a bulb shell; the LED luminous core column is arranged on the glass support, the bulb shell and the glass support provided with the LED luminous core column are sintered together at high temperature to form a closed bulb shell cavity, and heat-conducting gas is filled in the bulb shell cavity;

the intelligent control cavity comprises an intelligent control electric appliance shell, an intelligent control electric appliance assembly and a signal receiver, and the intelligent control electric appliance assembly and the signal receiver are arranged in the intelligent control electric appliance shell;

the lamp holder cavity comprises a rectifier electric assembly and a lamp holder, and the rectifier electric assembly is arranged in the lamp holder;

the LED luminous core column and the signal receiver are electrically connected with an intelligent control electric appliance assembly, the intelligent control electric appliance assembly is electrically connected with a rectifier electric appliance assembly, and the rectifier electric appliance assembly is electrically connected with the positive electrode and the negative electrode on the lamp holder.

2. The three-cavity heat dissipation intelligent bulb as recited in claim 1, wherein the bulb shell is a glass bulb shell with a spherical, cylindrical, elliptical, conical, olive or mushroom shape.

3. The three-cavity heat-dissipation intelligent bulb according to claim 1, wherein the LED light-emitting core column is made by attaching light source particles on a circuit board, or a chip is made by directly sealing a chip on the circuit board by a COB method.

4. The three-cavity heat dissipating intelligent bulb as claimed in claim 1, wherein the shape of the intelligent control appliance housing is matched to the appearance of the bulb.

5. The three-cavity heat dissipating smart bulb of claim 1, wherein the signal receiver is disposed within a central void of the glass bracket.

6. The three-cavity heat-dissipation intelligent bulb as recited in claim 1, wherein the lamp cap cavity is filled with heat-conducting glue.

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