JP3232585U - Filament lamp - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a filament lamp which does not require a stem for supporting an LED filament, improves utilization efficiency of an internal space, and effectively reduces a manufacturing cost.
A filament lamp 1 includes a translucent lamp housing 10, a base 20, a light source assembly 30, and a drive assembly 40, and the base is placed over an opening of the translucent lamp housing to form a light source assembly. Is housed in the internal cavity of the translucent lamp housing, the drive assembly is housed in the internal cavity of the base and is electrically connected to the light source assembly, which is the pedestal and rigid light strip 32 and / or A flexible filament 33 is included, the pedestal covers the opening of the translucent lamp housing, and the rigid light strip and / or the flexible filament is provided on the pedestal. The pedestal can support hard light strips and / or flexible filaments.
[Selection diagram] Fig. 1

Description

The present invention belongs to the technical field of luminaires, and more specifically relates to filament lamps.

With the growing awareness of energy conservation and environmental protection among people, each country has added incandescent light bulb products with high energy consumption to the selection list, and instead, LED filament lamp products with low energy consumption are becoming more and more widely used. There is. Currently, commercially available LED filament lamps generally need to support the LED filament via a stem, but the stem needs to occupy a certain space in the lamp, and it is necessary for the shape design and space arrangement of the LED filament. On the other hand, there is a certain demand, which limits the combination between the LED filament and the LED filament.

An object of the present invention is to provide a filament lamp that solves the technical problem that an LED filament lamp needs to support an LED filament via a stem. However, the problem to be solved by the present invention is not limited to that.

In order to solve the above technical problems, an embodiment of the present invention includes a translucent lamp housing, a base, a light source assembly, and a drive assembly, wherein the base is an opening of the translucent lamp housing. Overlaid, the light source assembly is housed in the internal cavity of the translucent lamp housing, the drive assembly is housed in the internal cavity of the mouthpiece, and is electrically connected to the light source assembly. The filament lamp, the light source assembly,
A pedestal that covers the opening of the translucent lamp housing and
A filament lamp comprising a rigid light strip and / or a flexible filament provided on the pedestal is provided.

Further, the pedestal has a base in which one end is covered with an opening of the translucent lamp housing and the other end extends into an internal cavity of the translucent lamp housing.
One end of a conductor that is penetrating the base and penetrating the base is a conductor that extends into the internal cavity of the mouthpiece and is connected to the drive assembly and is penetrating the base. The ends include at least two conductors extending into the internal cavity of the translucent lamp housing and connected to the electrodes of the rigid light strip or the flexible filaments.

Also, the light source assembly includes two hard light strips and one flexible filament, the pedestal contains two conductors, and one electrode of the two hard light strips has two of the above. Connected to one end of the conductor exposed from the internal cavity of the translucent lamp housing, the two electrodes of the flexible filament are connected to the other electrode of the two hard light strips, respectively.

Also, the light source assembly includes one hard light strip and one flexible filament, the pedestal contains two conductors, and one electrode of the hard light strip is one of the conductors. One electrode of the flexible filament is connected to one end exposed from the internal cavity of the translucent lamp housing of the translucent lamp housing and one electrode of the flexible filament is connected to one end exposed from the internal cavity of the translucent lamp housing of the other conductor. The other electrode of the flexible filament is connected to the other electrode of the rigid light strip.

Also, the pedestal comprises three conductors, the light source assembly comprises two rigid light strips, and one electrode of the two rigid light strips is of the translucent lamp housing of the two conductors. Each connected to one end exposed from the internal cavity, the other electrode of the two hard light strips is connected to the opposite ends of the other conductor, respectively.
Alternatively, the light source assembly comprises two flexible filaments, one electrode of the two flexible filaments at one end exposed from the internal cavity of the translucent lamp housing of the two conductors. The other electrodes of the two flexible filaments are connected to opposite ends of the other conductor, respectively.

Also, the pedestal includes two conductors, the light source assembly includes one rigid light strip, and the two electrodes of the rigid light strip are exposed from the internal cavities of the translucent lamp housing of the two conductors. It is connected to each end
Alternatively, the light source assembly comprises one flexible filament, the two electrodes of the flexible filament being connected to one end of each of the two conductors exposed from the internal cavity of the translucent lamp housing. ing.

Further, the color temperature of the hard filament and the color temperature of the flexible filament are different.

Further, an exhaust passage is formed inside the base, and a first exhaust hole communicating with the exhaust passage is opened in the base.

Further, the filament lamp further includes an inner liner that is housed in the internal cavity of the mouthpiece and wraps the drive assembly so as to separate the drive assembly from the mouthpiece.

Further, the filament lamp further includes a thumbtack whose one end extends into the internal cavity of the mouthpiece and is connected to the drive assembly and the other end is exposed to the outside of the mouthpiece.

The beneficial effects of the filament lamp provided by the present invention are as follows. Rigid light strips and / or flexible filaments can be supported on the pedestal without the need for a stem (nickel or glass stem), which requires the LED filament lamp to support the LED filament via the stem. Effectively solves the technical problem of having, the spatial constraints of the stem are lifted, the usage of rigid light strips and / or flexible filaments becomes more flexible and variable, and the translucent lamp housing By improving the efficiency of internal space utilization and eliminating the need for stems, the manufacturing cost of filament lamps is effectively reduced.

In order to further clarify the technical solution according to the embodiment of the present invention, the drawings that need to be used for the description of the embodiment or the prior art will be briefly described below, but clearly, the following description will be given. The drawings in are only some embodiments of the present invention. Those skilled in the art can obtain other drawings from these drawings without any creative ingenuity.

FIG. 5 is a schematic vertical cross-sectional view of the filament lamp provided in the embodiment of the present invention. It is a perspective exploded schematic view of the filament lamp provided in the Example of this invention. FIG. 5 is a perspective schematic view of a light source assembly in the filament lamp provided in Example 1 of the present invention.

In order to make it easier to understand the technical problems, technical solutions and beneficial effects to be solved by the present invention, the present invention will be described in detail with reference to the accompanying drawings and examples below. It should be understood that the specific examples described herein are merely for interpreting the present invention and not for limiting the present invention.

It should be noted that when a part is "fixed" or "installed" on another part, it may be directly located on the other part or indirectly located on the other part. When a component is "connected" to another component, it may be directly or indirectly connected to the other component. When one part is "electrically connected" to another part, it may be an electrical connection by a conductor, or it may be electrically connected wirelessly, or it can transmit an electrical signal. Other various connection forms may be used. In technical terms, the orientation or positional relationship indicated by "top", "bottom", "left", "right", etc. is based on the orientation or positional relationship shown in the drawings, and it is easy to explain the present invention. As a limitation to the present invention, as it is merely for the purpose, not to indicate or imply that the indicated device or part has a particular orientation and needs to be constructed or operated in a particular orientation. It should not be understood that there is, and for those skilled in the art, it is possible to understand the specific meaning of the above technical terms depending on the specific situation. Also, the terms "first" and "second" are used for explanatory purposes only to indicate or imply relative importance or to imply the number of technical features shown. It should not be understood as a thing. Unless otherwise specified and specified, "plural" means two or more.

Example 1
As shown in FIGS. 1 to 3, the filament lamp 1 of the present invention includes a translucent lamp housing 10, a base 20, a light source assembly 30, and a drive assembly 40, of which the base 20 is translucent. It covers the opening of the lamp housing 10, that is, the base 20 is fitted into the open end of the translucent lamp housing 10, the light source assembly 30 is housed in the internal cavity of the translucent lamp housing 10, and the drive assembly 50. Is housed in the internal cavity of the base 20, and the drive assembly 50 is electrically connected to the light source assembly 30, specifically, the light source assembly 30 has a pedestal 31, two hard light strips 32, and one. The flexible filament 33 of the book is included, of which the pedestal 31 covers the opening of the translucent lamp housing 10, and the two rigid light strips 32 and the flexible filament 33 are pedestals, respectively. It is attached to 31. The filament lamp 1 provided in the present invention can now support the hard light strip 32 and the flexible filament 33 on the pedestal 31 without the need for a stem (nickel or glass stem). , Effectively solves the technical problem that the LED filament lamp needs to support the LED filament through the stem, the space constraint by the stem is released, and the usage method of the hard light strip 32 and the flexible filament 33. Is more flexible and variable, the efficiency of utilizing the internal space of the translucent lamp housing 10 is improved, and the stem is no longer required, so that the manufacturing cost of the filament lamp 1 is effectively reduced.

Further, as shown in FIGS. 1 and 2, in this embodiment, the pedestal 31 includes a base 311 and two conductors 312, of which one end of the base 311 is in the opening of the translucent lamp housing 10. It is covered, that is, one end of the base 311 is placed inside the opening of the translucent lamp housing 10, and the other end of the base 311 extends into the internal cavity of the translucent lamp housing 10. The two conductors 312 are respectively arranged through the base 311 and one end of the two conductors 312 extends into the internal cavity of the base 20 and is connected to the drive assembly 40, and the other end of the two conductors 312 is a translucent lamp. Extending into the internal cavity of the housing 10 and connected to one electrode of the two hard light strips 32, the two electrodes of the flexible filament 33 connect to the other electrode of the two hard light strips 32, respectively. Has been done. Specifically, the conductor 312 has a certain degree of rigidity, i.e., the conductor 312 can serve to support the hard light strip 32 even if the stem is abolished, and so does the hard light strip 32. Since it has a certain rigidity and plays a role of supporting the flexible filament 33, the hard light strip 32 functions as both a support and a light emitting body, and in the case of the same internal space of the translucent lamp housing 10. , The luminous flux of the filament lamp 1 is improved.

Further, as shown in FIGS. 1 and 3, in this embodiment, an exhaust passage 3111 is formed inside the base 311 and a first exhaust hole 3112 communicating with the exhaust passage 3111 is opened in the base 311. To. Specifically, the exhaust passage 3111 is penetrated through the base 311 and a second exhaust hole is opened at one end of the base 311 so as to cover the opening of the translucent lamp housing 10, and the first exhaust hole 3112 and the second are provided. The exhaust holes communicate with both opposite ends of the exhaust passage 3111, respectively. As described above, when the evacuation step is performed, the external evacuation device uses the air in the internal cavity of the light transmitting lamp housing 10 via the first exhaust hole 3112, the exhaust passage 3111, and the second exhaust hole. Can be exhausted. When injecting the inert gas, the external air pump passes the inert gas through the first exhaust hole 3112, the exhaust passage 3111, and the second exhaust hole into the internal cavity of the translucent lamp housing 10. It can be injected into the interior, which can improve the heat dissipation efficiency of the hard light strip 32 and / or the flexible filament 33. After the injection of the inert gas is completed, the base 311 surrounds the internal cavity of the translucent lamp housing 10 in a closed space only by closing the second exhaust hole, and the leakage of the inert gas can be prevented.

Further, as shown in FIGS. 1 and 2, in the present embodiment, the filament lamp 1 further includes an inner liner 50, the inner liner 50 is housed in the inner cavity of the base 20, and the drive assembly 40 and the base 20 are combined. Wrap the drive assembly 40 so that it is separated. Specifically, the inner liner 50 is made of a material having insulating properties and thermal conductivity, and is filled between the drive assembly 40 and the base 20 to directly conduct the drive assembly 40 and the base 20. It is advantageous to improve the heat dissipation efficiency of the drive assembly 40 as well as to prevent the above.

Further, as shown in FIGS. 1 and 2, as one specific embodiment of the filament lamp provided in the present invention, the filament lamp 1 further includes a thumbtack 60, and one end of the thumbtack 60 is an internal cavity of the base 20. It extends inward and is connected to the drive assembly 40, with the other end of the thumbtack 60 exposed to the outside of the base 20. Specifically, a mounting hole is formed at the end of the mouthpiece 20, the thumbtack 60 is made of a conductive material, its outer contour is like a mushroom, and the thin end of the thumbtack 60 is. The thumbtack 60 serves as a conductive electrode by extending through the mounting hole into the internal cavity of the mouthpiece 20 and connecting to the drive assembly 40, and the thick end of the thumbtack 60 projecting to the end of the mouthpiece 20. The drive assembly 40 can be connected to an external power source, which eliminates the need for a lead wire for connecting the drive assembly 40 and the base 20, which is advantageous for realizing automatic assembly of the filament lamp 1. The assembly efficiency of 1 is improved.

Example 2
The filament lamp provided in this embodiment is almost the same as that in the first embodiment, and the difference is as follows. The light source assembly 30 includes one rigid light strip 32 and one flexible filament 33, one electrode of the rigid light strip 32 being an internal cavity of the translucent lamp housing 10 of one conductor 312. One electrode of the flexible filament 33 is connected to one end exposed from the inner cavity of the translucent lamp housing 10 of the other conductor 312 and is connected to the other end of the flexible filament 33. Electrode is connected to the other electrode of the rigid light strip 32. Thereby, it is possible to provide the customer with a combination method of more rigid light strips 32 and flexible filaments 33.

Example 3
As shown in FIGS. 1 and 2, the filament lamps provided in this embodiment are substantially the same as those in Example 1 or 2, and the differences are as follows. The color temperature of the hard light strip 32 and the color temperature of the flexible filament 33 are different, that is, the color temperature of the light emitted by the hard light strip 32 and the color temperature of the light emitted by the flexible filament 33 are different. There is. By using both in combination in this way, it is advantageous to adjust the color temperature of the filament lamp 1 according to the needs of the customer.

Example 4
The filament lamp provided in this embodiment is almost the same as that in the first embodiment, and the difference is as follows. The pedestal 31 includes three conductors 312, of which two conductors 312 are threaded through the base 311 and the light source assembly 30 includes two hard light strips 32, one electrode of the two hard light strips 32. The other electrode of the two hard light strips 32 is connected to one end exposed from the internal cavity of the translucent lamp housing 10 of the two conductors 312 arranged through the base 311 and the other electrode of the two hard light strips 32 faces the other conductor 312. It is connected to both ends of the light strip 32, which allows the customer to use more rigid light strips 32. Of course, depending on the specific circumstances and needs, in another embodiment of the present invention, the pedestal 31 may include four conductors 312, of which three conductors 312 are pierced through the base 311 and the light source assembly 30. Can include three rigid light strips 32, one electrode of the three rigid light strips 32 exposed from the internal cavity of the translucent lamp housing 10 of the three conductors 312 arranged through the base 311. The other electrode of the three hard light strips 32 is connected to the other conductor 312, respectively, and the number of conductors 312 and the hard light strip 32 installed is not limited to one. ..

Example 5
The filament lamp provided in this embodiment is almost the same as that in Example 4, and the difference is as follows. The light source assembly 30 includes two flexible filaments 33, one electrode of the two flexible filaments 33 being an internal cavity of a translucent lamp housing 10 of two conductors 312 arranged through the base 311. Each connected to one end exposed from, the other electrode of the two flexible filaments 33 is connected to the opposite ends of the other conductor 312, respectively, thereby allowing more flexible filaments 33. It is possible to provide the customer with the usage method of.

Example 6
The filament lamp provided in this embodiment is almost the same as that in the first embodiment, and the difference is as follows. The light source assembly 30 includes one rigid light strip 32, the two electrodes of the rigid light strip 32 being connected to one end exposed from the internal cavity of the translucent lamp housing 10 of the two conductors 312, respectively. As a result, it is possible to provide the customer with more usage methods of the hard light strip 32.

Example 7
The filament lamp provided in this embodiment is almost the same as that in Example 6, and the difference is as follows. The light source assembly 30 includes one flexible filament 33, and the two electrodes of the flexible filament 33 are each connected to one end exposed from the internal cavity of the translucent lamp housing 10 of the two conductors 312. This allows the customer to be provided with more flexible filament 33 usage schemes.

The above is merely a preferred embodiment of the present invention and is not intended to limit the present invention. One of ordinary skill in the art can make various changes and changes to the present invention. Any modifications, replacements and improvements made within the spirit and principles of the present invention should be included in the scope of protection of the present invention.

1 Filament lamp 10 Translucent lamp housing 20 Mouthpiece 30 Light source assembly 40 Drive assembly 50 Inner liner 60 Pushpin 31 Pedestal 32 Rigid light strip 33 Flexible filament 311 Base 312 Conductor 3111 Exhaust passage 3112 First exhaust hole

Further, the color temperature of the hard light strip and the color temperature of the flexible filament are different.

Claims (10)

A translucent lamp housing, a base, a light source assembly, and a drive assembly are included, the base is placed over an opening of the translucent lamp housing, and the light source assembly is an internal cavity of the translucent lamp housing. A filament lamp that is housed within, the drive assembly is housed in an internal cavity of the mouthpiece, and is electrically connected to the light source assembly, wherein the light source assembly is.
A pedestal that covers the opening of the translucent lamp housing and
With the hard light strip and / or flexible filament provided on the pedestal,
A filament lamp characterized by containing. The pedestal
A base in which one end covers the opening of the translucent lamp housing and the other end extends into the internal cavity of the translucent lamp housing.
One end of a conductor that is penetrating the base and penetrating the base is a conductor that extends into the internal cavity of the mouthpiece and is connected to the drive assembly and is penetrating the base. With at least two conductors extending into the internal cavity of the translucent lamp housing and connected to a hard light strip electrode or a flexible filament electrode.
The filament lamp according to claim 1, wherein the filament lamp comprises. The light source assembly includes two hard light strips and one flexible filament, the pedestal contains two conductors, and one electrode of the two hard light strips is of the two conductors. It is connected to one end exposed from the internal cavity of the translucent lamp housing, and the two electrodes of the flexible filament are each connected to the other electrode of the two hard light strips. The filament lamp according to claim 2. The light source assembly includes one hard light strip and one flexible filament, the pedestal contains two conductors, and one electrode of the hard light strip is the transparent of one of the conductors. Connected to one end exposed from the internal cavity of the light lamp housing, one electrode of the flexible filament is connected to one end of the other conductor exposed from the internal cavity of the translucent lamp housing. The filament lamp according to claim 2, wherein the other electrode of the flexible filament is connected to the other electrode of the rigid light strip. The pedestal comprises three conductors, the light source assembly comprises two rigid light strips, and one electrode of the two rigid light strips is an internal cavity of the translucent lamp housing of the two conductors. The other electrode of the two hard light strips, each connected to one end exposed from, is connected to the opposite ends of the other conductor, respectively.
Alternatively, the light source assembly comprises two flexible filaments, one electrode of the two flexible filaments at one end exposed from the internal cavity of the translucent lamp housing of the two conductors. The filament lamp according to claim 2, wherein the other electrodes of the two flexible filaments are connected to the opposite ends of the other conductor, respectively. The pedestal included two conductors, the light source assembly contained one rigid light strip, and the two electrodes of the rigid light strip were exposed from the internal cavities of the translucent lamp housing of the two conductors. Each is connected to one end,
Alternatively, the light source assembly comprises one flexible filament, the two electrodes of the flexible filament being connected to one end of each of the two conductors exposed from the internal cavity of the translucent lamp housing. The filament lamp according to claim 2, wherein the filament lamp is provided. The filament lamp according to claim 3 or 4, wherein the color temperature of the hard filament and the color temperature of the flexible filament are different. The invention according to any one of claims 2 to 6, wherein an exhaust passage is formed inside the base, and a first exhaust hole communicating with the exhaust passage is provided in the base. Filament lamp. The filament according to any one of claims 1 to 6, further comprising an inner liner that is housed in the inner cavity of the mouthpiece and wraps the drive assembly so as to separate the drive assembly from the mouthpiece. lamp. Any one of claims 1-6, wherein one end extends into the internal cavity of the mouthpiece and is connected to the drive assembly, and the other end further comprises a thumbtack exposed to the outside of the mouthpiece. Filament lamp as described in the section.

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