Lamp module with electronic connector adapter

A lamp module includes an external elongated housing made of at least one of a transparent and a translucent material; a lamp terminal with lamp pins at each end of the elongated housing, at least one cold cathode fluorescent lamp (CCFL) disposed in the external elongated housing a reflective layer disposed in the external lamp elongated housing, and an electronic connector adapter having a plurality of contact pins at one end and a plurality of connecting jacks at an opposite end for receiving the lamp pins of one of the lamp terminals.

BACKGROUND OF THE INVENTION

(1) Field of the Invention

The invention relates to a lamp cartridge adapter, and more particularly to an adapter module and a lamp module for cold cathode fluorescent lamp illumination.

(2) Description of the Prior Art

Conventionally, the cold cathode fluorescent lamp module is disposed the lamp cartridge adapter on the above the lamp, but the lamp have the following drawbacks.

First, when the adapter or any one of the CCFLs is damaged, the entire lamp has to be replaced, and the resource is wasted.

Second, for the technological level, the CCFLs and the adapter thereof are disposed in the lamp, the heat dissipating problem cannot be solved, and the thermal effect affects its lifetime.

Third, the lamp has no reflective layer for completely reflecting the visible light rays, diverging upwards, downwards, so that the downward illumination is affected. In addition, if the lamp has two CCFLs, the two CCFLs have the problem of parallelism, and tend to be broken when being transported.

Thus, it is an important subject of the invention to solve the problems of the conventional CCFL illumination device by providing a new solution to design the modularized adapter, disposed outside the lamp and serially connected to the lamp to form a new lamp. In addition, a reflective layer is disposed in the lamp to enhance the light emitting efficiency of the lamp and to solve the above-mentioned problem.

SUMMARY OF THE INVENTION

The technological problem to be solved by this invention is to provide a lamp cartridge adapter and a lamp module, wherein the adapter is modularized and externally connected to the lamp, and the cascaded total length and the lamp head structure are the same as those of the conventional fixture, so that the conventional lamp can be quickly replaced and the original lamp can be kept, the cost for replacing the lamp can be reduced and the light emitting efficiency of the lamp can be enhanced.

To solve the above-mentioned technological problem, the invention adopts the technological scheme to provide a lamp cartridge adapter, applied to a lamp module, comprising: an electronic adapter, having two terminals, one terminal formed with AC power input terminal, and another terminal electrically connected to a lamp pins of the lamp module; a housing, configuring to the electronic adapter, wherein the housing has a first end formed with a power connector, and an opposite second end formed with a lamp connector; a pair of contact pins, having first ends connected to the AC power input terminals of the electronic adapter, and second ends projecting beyond the power connector of the housing; and a pair of jacks penetrating through the lamp connector of the housing and being electrically connected to output terminal of the electronic adapter.

The invention further provides a lamp module, connected to amp cartridge adapter, the lamp module comprising: an external lamp, having at least one of a light-permeable material and a translucent material; two lamp heads, configuring to two terminal of the external lamp, and each lamp head has a plurality of lamp pin; at least one cold cathode fluorescent lamp (CCFL) disposed in the external lamp; and a reflective layer, dispose in the external lamp, the reflective layer having a reflective surface adjacent to and contactless to cold cathode fluorescent lamp.

The invention also further provides a lamp module, connected to amp cartridge adapter, the lamp module comprising: an external lamp, having at least one of a light-permeable material and a translucent material; two lamp heads, configuring to two terminal of the external lamp, and each lamp head has a plurality of lamp pin; at least one cold cathode fluorescent lamp (CCFL) disposed in the external lamp; and an lamp cartridge adapter, further compressing: an electronic adapter, having two terminal, one terminal formed with AC power input terminal, and another terminal electrically connected to a lamp pins of the lamp module; a housing, configuring to the electronic adapter, wherein the housing has a first end formed with a power connector, and an opposite second end formed with a lamp connector; a pair of contact pins, having first ends connected to the AC power input terminals of the electronic adapter, and second ends projecting beyond the power connector of the housing; and a pair of jacks penetrating through the lamp connector of the housing and being electrically connected to output terminal of the electronic adapter. Wherein a length of combining the lamp module with the lamp cartridge adapter satisfies a length specified in a daylight lamp standard.

The benefits that can be achieved by this invention are described in the following. When the CCFL or adapter is damaged, only the damaged lamp or adapter has to be replaced without all the elements being replaced. Thus, the maintenance cost of the lamp of this invention is far lower than that of the design, in which the adapter is disposed inside the lamp, so the resource can be saved, and the replacement can be conveniently and quickly performed. After the lamp and the adapter are modularized, the heat dissipating problem of the adapter can be easily solved because the adapter is disposed outside the lamp, and the poor influence caused by the thermal effect can be solved. In addition, the reflective layer is disposed in the lamp to enhance the light emitting efficiency of the lamp.

Further aspects, objects, and desirable features of the invention will be better understood from the detailed description and drawings that follow in which various embodiments of the disclosed invention are illustrated by way of examples.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The preferred embodiment of the invention will be described with reference to the accompanying drawings.

FIG. 1is a schematic illustration showing a lamp cartridge adapter10and its lamp module according to the invention. The lamp cartridge adapter10is applied to a lamp module, the lamp cartridge adapter includes an electronic adapter11having two terminals, one terminal formed with AC power input terminals, and another terminal electrically connected to lamp pins321of a lamp module20; a housing12, configuring to the electronic adapter11, wherein the housing12has a first end formed with a power connector31and an opposite second end formed with a lamp connector40; a pair of contact pins311having first ends connected to the AC power input terminals of the electronic adapter11, and second ends projecting beyond the power connector31of the housing12; and a pair of jacks41penetrating through the lamp connector40of the housing12and being electrically connected to output terminals of the electronic adapter11. The pair of jacks41, made of an electro conductive metal material and has hollow structure, is to be elastically and electrically connected to the lamp pins321of the lamp module20. The pair of jacks41and the lamp module20may constitute an illumination device.

The lamp module20is connected to amp cartridge adapter, the lamp module, the lamp module20includes an external lamp24, two lamps heads32and at least one CCFL21. The lamp head32has a plurality of lamp pins321. The CCFL21is disposed in the external lamp. The length of combining the lamp module20with the lamp cartridge adapter10satisfies a length specified in a daylight lamp standard, which is specified in the daylight lamp standard and is the same as the length of the conventional daylight lamp of T9, T8, T5 or the like. In order to solve the problem that the CCFL21tends to be broken when the lamp module20is being transported, the lamp module20further includes a plurality of support frame23having at least one support frame hole231. The shape of the surface of the support frame23matches with the shape of a reflective surface141of a reflector14adjacent to the surface of the support frame23. The number of the support frame hole(s)231and the aperture(s) of the support frame hole(s)231are determined according to the CCFL21, and the size of the aperture of the support frame hole231is such that the CCFL21can penetrate therethrough. The support frame23also improves the problem of parallelism of two of CCFLs21. In order to enhance the light emitting efficiency of the lamp module20, the lamp module20further includes the reflector14, dispose in the external lamp24, has the reflective surface141(seeFIGS. 5A and 6A), the reflective surface141is close to the CCFL21without contacting with the CCFL21. The reflective surface141has the function of reflecting the light rays. The reflector14is integrally formed by way of press forming, extruding or injection molding, and the pictorial views after the reflector14is assembled are shown inFIGS. 5B and 6B. The external lamp24is made of a least one of light-permeable material and a translucent material and integrally formed by way of extruding. A sealant is added to the sealing portion between the external lamp24and the lamp head32to prevent the moisture from entering and increase the structural strength of the connection.

FIG. 2is a schematic illustration showing a lamp cartridge adapter and a lamp module thereof according to another embodiment of the invention. As shown inFIG. 2, the CCFL21has two straight CCFLs, and a conductor42is provided to electrically connect the first end of the one straight CCFL to the second end of the other straight CCFL so that the U-shaped CCFL can be replaced with the two straight CCFLs. The technology is the same as the description ofFIG. 1, and the CCFL21may also be modified to have any other shape. After the lamp module20′ of the invention is assembled with the cartridge adapter10, the length of combining the lamp module with the lamp cartridge adapter is equal to the length of the daylight lamp of the conventional T9, T8, T5 or the like to satisfy the standard format of the illumination lamp and save a lot of molding costs.

FIG. 3is a schematic illustration showing a lamp cartridge adapter and a lamp module thereof according to still another embodiment of the invention. Two lamp cartridge adapters10are respectively disposed on left and right ends of the lamp module20″. The technology of the lamp cartridge adapter10is the same as that ofFIG. 1, and detailed descriptions thereof will be omitted.

The lamp module20″ is composed of one external lamp24, a plurality lamp heads32and a plurality of U-shaped CCFLs21. The lamp head has a plurality of lamp pins321. The U-shaped CCFLs21are disposed in the external lamp. Each of two ends of the lamp module20″ is connected to one lamp cartridge adapter10. The length of combining the lamp module20″ with the lamp cartridge adapter10satisfies the length, which is specified in the daylight lamp standard and is the same as the length of the conventional daylight lamp of T9, T8, T5 or the like. In order to solve the problem that the CCFL21tends to be broken when the lamp module20″ is being transported, the lamp module20further includes at least one support frame23having a hole231disposed in the external lamp24. The shape of the surface of the support frame23matches with the shape of the reflective surface141of the reflector14adjacent to the surface of the support frame23. The number of the hole(s)231and the size of the aperture of the support frame hole231are determined according to the CCFL(s)21. The size of the aperture of the hole231is such that the CCFL21can just pass therethrough. The support frame23may also solve the problem of the parallelism of two CCFLs21. In order to enhance the light emitting efficiency of the lamp module20″, the lamp module20″ further includes a reflector14disposed in the external lamp, which has a reflective surface141(as shown inFIGS. 5A and 6A). The reflective surface141is close to the CCFL21without contacting with the CCFL21. The reflective surface141has the technical character of reflecting the light rays. The reflector14is integrally formed by way of press forming, extruding or injection molding, and the assembled pictorial views are shown inFIGS. 5B and 6B. The external lamp24is made of at least one of a light-permeable material and a translucent material. The external lamp24is integrally formed by way of extruding. A sealant is added to the sealing portion between the external lamp24and the lamp head32to prevent the moisture from entering and increase the structural strength of the connection.

FIG. 4is a schematic illustration showing a lamp cartridge adapter and a lamp module20′″ thereof according to yet still another embodiment of the invention. As shown inFIG. 4, the U-shaped CCFL21ofFIG. 3is replaced with two straight CCFLs21connected together using a conductor42on one side. Because two U-shaped CCFLs21are used inFIG. 3, two sets of two straight CCFLs21have to be used and connected together using the conductor42on one side to replace the two U-shaped CCFLs21. The CCFL21may also have any other shape.

After the lamp module20of the invention is combined with two lamp cartridge adapters10, the length thereof is the same as the length of the conventional daylight lamp of T9, T8, T5 or the like.

FIG. 5Ais a schematic illustration showing a lamp module according to an embodiment of the invention. Referring toFIG. 5A, the lamp module20″″ is composed of one external lamp24, one reflector14′ and at least one CCFL21. In order to solve the problem that the CCFL21tends to be broken when the lamp module20″″ is being transported, the lamp module20″″ further includes at least one support frame23′ having at least one support frame hole231. The shape of the surface of the support frame23′ matches with the shape of the reflective surface141′ of the reflector14′ adjacent to the surface of the support frame23′. The number of the support frame hole(s)231and the size of the aperture of the support frame hole231are determined according to the CCFL(s)21. The size of the aperture of the support frame hole231is such that the CCFL21can just pass therethrough. The support frame23′ may also solve the problem of the parallelism of two of CCFLs21. The external lamp24is made of at least one of light-permeable material and translucent material, and is integrally formed by way of extruding. The reflector14′ has one reflective surface141′. The reflective surface141′ is close to the CCFL21without contacting with the CCFL21. The reflective surface141′ has the function of reflecting light rays. The reflector14′ is integrally formed by way of press forming, extruding or injection molding, and the assembled pictorial view thereof is shown inFIG. 5B.

FIG. 6Ais a schematic illustration showing a lamp module according to another embodiment of the invention. The maximum difference betweenFIG. 5Aresides in that the reflective surface141″ of the reflector14″ has the substantial m-shape and can reflect the light rays of the CCFL21uniformly. The reflective surface141″ is close to the CCFL21without contacting with the CCFL21. The reflective surface141″ has the technical character of reflecting the light rays. The support frame23″ has the substantially heart-like shape to match with the contact surface of the reflector14″. The external lamp24″ is integrally formed by way of extruding. The reflector14″ is integrally formed by way of press forming, extruding or injection molding, and the assembled pictorial view thereof is shown inFIG. 6B.

FIG. 7is a schematic illustration showing an external lamp according to another embodiment of the invention. The shape of external lamp24′″ of the lamp module20″″″ is any geometric tubular body.FIG. 8is a schematic illustration showing an external lamp according to another embodiment of the invention. The shape of external lamp24″″ of the lamp module20′″″″ is nearly liked a heart shape, and the connected technology is used by above mention embodies via combining a plurality cold cathode fluorescent lamp (CCFL).

New characteristics and advantages of the invention covered by this document have been set forth in the foregoing description. It is to be expressly understood, however, that the drawings are for the purpose of illustration only and are not intended as a definition of the limits of the invention. Changes in methods, shapes, structures or devices may be made in details without exceeding the scope of the invention by those who are skilled in the art. The scope of the invention is, of course, defined in the language in which the appended claims are expressed.