CN103277758A - Method for modifying existing daylight lamp - Google Patents

Abstract

The invention relates to a method for modifying an existing daylight lamp. The method is characterized in that on the premise that the original position of the existing daylight lamp is maintained, a power source of the lamp is cut off, a ballast of the daylight lamp and a shell body at the position of a starter are opened, the ballast is changed into a constant current driving switch power source except for an existing power source lead, and the starter is removed, and a lamp tube of the daylight lamp is changed into an alternative LED high-power lamp tube which is the same with the existing lamp tube in length. The lamp which is modified not only has good heat dissipating performance, but also is lighter and superior in energy-saving effect due to the structural advantage of the lamp.

Description

A kind of method of transforming existing fluorescent lamp

Technical field

The present invention relates to the LED technical field, particularly a kind of method of transforming existing fluorescent lamp.

Background technology

Along with the development of led light source technology, the application of LED lamp is extensive further.Old large quantities of fluorescent lamps will face to the condition of LED lamp transition, and how efficient, economic transformation has fluorescent lamp now, becomes a technical problem that needs to be resolved hurrily.

Summary of the invention

The present invention provides method a kind of novelty, the existing fluorescent lamp of creative transformation for overcoming above-mentioned technical problem.

For this reason, the invention discloses a kind of method of transforming existing fluorescent lamp, it is characterized in that:

(1) keeps closing its power supply under the prerequisite of original position at existing fluorescent lamp;

(2) open the ballast of described fluorescent lamp and the housing at starter place, except original power supply lead wire, ballast wherein is replaced by constant current driving switch power supply, and removes starter;

(3) fluorescent tube of described fluorescent lamp is replaced by the as described below substituting fluorescent tube consistent with this fluorescent tube length:

Described substituting fluorescent tube is the high-power fluorescent tube of LED, and the high-power fluorescent tube of this LED comprises:

One leaded light post, described leaded light post is solid cylindrical, and light transmittance is greater than 92%;

Two circular aluminium bases or circular copper aluminium base, described two aluminium bases or copper aluminium base are axial along described leaded light post, be arranged on the outside, two ends of described leaded light post symmetrically, and: the inboard of described two substrates or pedestal is towards described leaded light post, described inboard is provided with the LED high power light source, and the light of described high power light source is exported by described leaded light post;

Be provided with two hollow circle tube thermal columns of cable-through hole, its heat dispersion is not less than 6063 extruded aluminium sections, and along described leaded light post axially, described two thermal columns are arranged on the outside of described substrate or pedestal symmetrically, and: described two thermal columns are towards a side of described substrate or the pedestal inboard as thermal column;

Two lamp holders of fluorescent tube, the lamp holder specification compatibility of the described fluorescent lamp that described two lamp holders and quilt are transformed, and along described leaded light post axially, described two lamp holders are arranged on the outside of described thermal column symmetrically, and: described lamp holder connects by the silica gel electric wire, via the cable-through hole of described thermal column, further be connected to the described LED high power light source on described substrate or the pedestal.

Description of drawings

Fig. 1 is an exemplary plot of the high-power fluorescent tube of substituting LED involved in the present invention;

Fig. 2 is example fluorescent tube assembling back schematic diagram among Fig. 1.

A is lamp holder, and B is thermal column, and C is the leaded light post, and D is constant current driving switch power supply, and E is the silica gel electric wire, and F is substrate.

The specific embodiment

For the existing fluorescent lamp of efficient, economic transformation, the invention discloses a kind of method of transforming existing fluorescent lamp, it is characterized in that:

(1) keeps closing its power supply under the prerequisite of original position at existing fluorescent lamp;

(2) open the ballast of described fluorescent lamp and the housing at starter place, except original power supply lead wire, ballast wherein is replaced by constant current driving switch power supply, and removes starter;

(3) fluorescent tube of described fluorescent lamp is replaced by the as described below substituting fluorescent tube consistent with this fluorescent tube length:

Described substituting fluorescent tube is the high-power fluorescent tube of LED, and the high-power fluorescent tube of this LED comprises:

One leaded light post, described leaded light post is solid cylindrical, and light transmittance is greater than 92%;

Two circular aluminium bases or circular copper aluminium base, described two aluminium bases or copper aluminium base are axial along described leaded light post, be arranged on the outside, two ends of described leaded light post symmetrically, and: the inboard of described two substrates or pedestal is towards described leaded light post, described inboard is provided with the LED high power light source, and the light of described high power light source is exported by described leaded light post;

Be provided with two hollow circle tube thermal columns of cable-through hole, its heat dispersion is not less than 6063 extruded aluminium sections, and along described leaded light post axially, described two thermal columns are arranged on the outside of described substrate or pedestal symmetrically, and: described two thermal columns are towards a side of described substrate or the pedestal inboard as thermal column;

Two lamp holders of fluorescent tube, the lamp holder specification compatibility of the described fluorescent lamp that described two lamp holders and quilt are transformed, and along described leaded light post axially, described two lamp holders are arranged on the outside of described thermal column symmetrically, and: described lamp holder connects by the silica gel electric wire, via the cable-through hole of described thermal column, further be connected to the described LED high power light source on described substrate or the pedestal.

Exactly because present embodiment has utilized partial shell and the circuit of original fluorescent lamp innovatively, thereby making needn't waste lot of materials and become the original transformation that realizes fluorescent lamp, so, present embodiment just can significantly reduce improvement cost and reach the effect of energy-conserving and environment-protective.And, for above-described embodiment, centered by the leaded light post, along its axial parts of involved substituting fluorescent tube from inside to outside be successively: leaded light post, substrate or pedestal (it is provided with the LED high power light source), thermal column, lamp holder.

Understand easily, the inboard of thermal column can the snapping substrate or the outside of pedestal, with the compactness that is conducive to install with to be conducive to heat radiation be principle; The leaded light post also is docked with the inboard of thermal column, is principle with the compactness that is conducive to install with being conducive to leaded light.Preferably, the leaded light post is pegged graft or is snapped onto the inboard of thermal column.Be understood that by the such scheme introduction inboard of the present invention and the outside all are dependent on: along the leaded light post axially divide the interior outside, the inboard obviously is the side near the leaded light post, the outside obviously is the side away from the leaded light post.

Preferably, in another embodiment: described leaded light post adopts glass or PMMA material.For present embodiment, be intended to limit the material of leaded light post, mainly considering based on light transmittance and weight.

Preferably, in another embodiment: the surface of described leaded light post adopts nanometer texture processing technology to handle.With regard to this embodiment, purpose is: anti-reflection to inner photon by this kind technology when LED fluorescent tube in working order the time, reduce light loss.

Preferably, in another embodiment: described LED high power light source is welded direct on the described aluminium base, or directly the chip of described LED high power light source is potted directly on the described copper aluminium base by the COB encapsulation technology.Herein only example at substrate or pedestal the mode of described light source is set, the present invention is not limited to these modes.

Preferably, in another embodiment: according to the watt level of described LED high power light source, adjust the length of described thermal column, and the length of the described leaded light post of accommodation is so that the high-power fluorescent tube of described LED is consistent with the length of the fluorescent tube of described fluorescent lamp; Perhaps: the designing requirement of the length of the described leaded light post of foundation, adjust the watt level of described LED high power light source and the length of described thermal column, so that the high-power fluorescent tube of described LED is consistent with the length of the fluorescent tube of described fluorescent lamp.With regard to this embodiment, it means that the high-power fluorescent tube of described LED can average out effectively between leaded light column length and light source heat radiation.

Preferably, in another embodiment: aluminium base is selected 6063 aluminium section bars.

Preferably, in another embodiment: the parameter of described constant current driving switch power supply is: 14 watts, and 2.8 to 3.5 volts.For this embodiment, it defines the technical scheme under a kind of concrete power, and the present invention is not limit by the concrete power of this kind, suppose to get 14 watts herein, owing to two ends, the fluorescent tube left and right sides substrate or pedestal are arranged all so, and corresponding light source, each light source can be got 7 watts so.

For aforesaid base plate or pedestal, the present invention is not subjected to the restriction of specific aluminum section bar or copper aluminium material matter, certainly, and for heat radiation better, those skilled in the art also can carry out accommodation at the concrete structures such as non-cylindrical of heat sink material or even thermal column, use for reference the structural design of various heat radiations.

In addition, the present invention can be used for the replacement of the fluorescent lamp of T5, T8 lamp holder class, the perhaps transformation of both-end fluorescent lamp very flexibly.The embodiment of a related high-power fluorescent tube of substituting LED when Fig. 1 namely is used for the transformation of fluorescent tube of G13 lamp holder class, Fig. 2 then is the schematic diagram after its assembling.

In sum, compared with prior art, remodeling method of the present invention technologically speaking because the flexibility of each several part, and remodeling method can significantly reduce improvement cost to the utilization of old material.Improved lamp not only possesses heat dispersion preferably owing to its structural advantage, and possesses low weight weight and excellent energy-saving effect.

More than method provided by the present invention is described in detail, used specific case herein principle of the present invention and embodiment set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; Simultaneously, for those skilled in the art, according to thought of the present invention, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (7)

1. transform the method that has fluorescent lamp now for one kind, it is characterized in that:

(1) keeps closing its power supply under the prerequisite of original position at existing fluorescent lamp;

(2) open the ballast of described fluorescent lamp and the housing at starter place, except original power supply lead wire, ballast wherein is replaced by constant current driving switch power supply, and removes starter;

(3) fluorescent tube of described fluorescent lamp is replaced by the as described below substituting fluorescent tube consistent with this fluorescent tube length:

Described substituting fluorescent tube is the high-power fluorescent tube of LED, and the high-power fluorescent tube of this LED comprises:

One leaded light post, described leaded light post is solid cylindrical, and light transmittance is greater than 92%;

Two circular aluminium bases or circular copper aluminium base, described two aluminium bases or copper aluminium base are axial along described leaded light post, be arranged on the outside, two ends of described leaded light post symmetrically, and: the inboard of described two substrates or pedestal is towards described leaded light post, described inboard is provided with the LED high power light source, and the light of described high power light source is exported by described leaded light post;

Be provided with two hollow circle tube thermal columns of cable-through hole, its heat dispersion is not less than 6063 extruded aluminium sections, and along described leaded light post axially, described two thermal columns are arranged on the outside of described substrate or pedestal symmetrically, and: described two thermal columns are towards a side of described substrate or the pedestal inboard as thermal column;

Two lamp holders of fluorescent tube, the lamp holder specification compatibility of the described fluorescent lamp that described two lamp holders and quilt are transformed, and along described leaded light post axially, described two lamp holders are arranged on the outside of described thermal column symmetrically, and: described lamp holder connects by the silica gel electric wire, via the cable-through hole of described thermal column, further be connected to the described LED high power light source on described substrate or the pedestal.

2. method according to claim 1 is characterized in that: preferred, described leaded light post adopts glass or PMMA material.

3. method according to claim 1 and 2 is characterized in that: the surface employing nanometer texture processing technology processing of described leaded light post.

4. method according to claim 1 and 2, it is characterized in that: described LED high power light source is welded direct on the described aluminium base, or directly the chip of described LED high power light source is potted directly on the described copper aluminium base by the COB encapsulation technology.

5. method according to claim 1 and 2, it is characterized in that: according to the watt level of described LED high power light source, adjust the length of described thermal column, and the length of the described leaded light post of accommodation is so that the high-power fluorescent tube of described LED is consistent with the length of the fluorescent tube of described fluorescent lamp; Perhaps: the designing requirement of the length of the described leaded light post of foundation, adjust the watt level of described LED high power light source and the length of described thermal column, so that the high-power fluorescent tube of described LED is consistent with the length of the fluorescent tube of described fluorescent lamp.

6. method according to claim 1 and 2, it is characterized in that: aluminium base is selected 6063 aluminium section bars.

7. method according to claim 1 and 2, it is characterized in that: the parameter of described constant current driving switch power supply is: 14 watts, 2.8 to 3.5 volts.

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