阅读说明：本技术 三防灯频闪线路改造工艺 (Three-proofing lamp stroboscopic circuit transformation process ) 是由 王秉铨 陈伟 于 2021-11-03 设计创作，主要内容包括：本发明涉及一种三防灯频闪线路改造工艺,包括以下步骤：S1：对交流信号进行整流；S2：将光源分成多个通道；S3：多组LED灯珠单元交替工作；本发明能在不提高功率的前提下完美的解决了频闪问题,进而既使灯具保持了较低的能耗水平以符合节能环保的趋势,又能有效防止LED芯片发热较大以大幅延长了使用寿命。(The invention relates to a three-proofing lamp stroboscopic circuit transformation process, which comprises the following steps: s1: rectifying the alternating current signal; s2: dividing a light source into a plurality of channels; s3: the LED lamp bead units work alternately; the invention can perfectly solve the stroboscopic problem on the premise of not increasing the power, thereby not only keeping the lamp at a lower energy consumption level to accord with the trend of energy conservation and environmental protection, but also effectively preventing the LED chip from generating heat greatly to greatly prolong the service life.)

1. A three-proofing lamp stroboscopic line transformation process is characterized by comprising the following steps:

s1: rectifying the alternating current signal;

s2: dividing a light source into a plurality of channels;

s3: the LED lamp bead units work alternately;

the step S2 includes:

s21: a driver is arranged in front of each group of LED lamp bead units, or a driver is arranged between each group of LED lamp bead units and the rectifier module;

s22: if a driver is arranged in front of each group of LED lamp bead units, the anodes of a plurality of LED lamp beads in each group of LED lamp bead units are connected in series or in parallel to the output end anode terminal of a corresponding driver, and then the input end anode terminal of each driver is connected in parallel to the output end anode terminal of the rectifier module;

s23: if a driver is arranged between the plurality of groups of LED lamp bead units and the rectifier module, connecting the anodes of the LED lamp beads in each group of LED lamp bead units to the output end anode terminal of the driver in series or in parallel, and then connecting the input end anode terminal of the driver 4 with the output end anode terminal of the rectifier module;

the step S3 includes:

s31: if a driver is arranged in front of each group of LED lamp bead units, the direct current output from the rectifier module is divided into each driver, and each driver is adjusted to a proper power according to the number of the LED lamp beads in the LED lamp bead unit to excite each LED lamp bead to emit light;

s32: if a driver is arranged between the plurality of groups of LED lamp bead units and the rectifier module, the direct current output from the rectifier module is divided into the driver, and the driver divides the current into corresponding number according to the number of the LED lamp beads in the LED lamp bead unit and has a plurality of branches with corresponding power so as to enable the plurality of LED lamp beads in each group of LED lamp bead units to emit light.

2. The tri-proof light stroboscopic line reconstruction process of claim 1, wherein the step S2 includes:

s11: connecting a live wire connecting end and a zero line connecting end with two power input terminal binding posts of a rectifying module respectively, and grounding a negative terminal of an output end of the rectifying module;

s12: divide into multiunit LED lamp pearl unit with a plurality of LED lamp pearls, the quantity of the LED lamp pearl in every group can be the same also can be different, all establish ties or parallelly connected the output positive terminal to rectifier module with the positive pole of a plurality of LED lamp pearls in every group LED lamp pearl unit again on.

3. The three-proofing lamp stroboscopic circuit transformation process of claim 1, wherein multiple groups of LED lamp bead units in step S31 form multiple channels, respectively, when one of the channels is turned on, the other channels are all in an off state, and each driver turns on the corresponding channel in sequence at a certain time interval, so that multiple LED lamp beads in each channel are all lighted to realize alternate lighting, thereby eliminating stroboscopic; .

4. The three-proofing lamp stroboscopic circuit transformation process of claim 1, wherein multiple groups of LED lamp bead units in step S32 form multiple channels, respectively, when one of the channels is turned on, the other channels are all in an open circuit state, and the driver turns on the multiple channels in sequence at a certain time interval, so that the multiple LED lamp beads in each channel are all luminous to realize alternate lighting, thereby eliminating stroboscopic.

Technical Field

The invention relates to a three-proofing lamp stroboscopic circuit transformation process.

Background

The tri-proof lamp is a lamp with waterproof, dustproof and anticorrosion functions, and is generally used in industrial lighting places with strong corrosivity, more dust and rain; with the continuous development of LED light source technology, most of the light sources of the existing tri-proof lamp adopt LED chips; like the common fault of other LED lamps and lanterns, there is comparatively serious stroboscopic phenomenon also in current tri-proof light circuit, generally all is to adopt the method of raising power in order to solve above-mentioned problem, but can lead to the energy consumption higher, runs counter with energy-concerving and environment-protective trend, also can cause the LED chip to generate heat great simultaneously, and then leads to life shorter, therefore needs to wait for the solution urgently.

Disclosure of Invention

In view of the current situation of the prior art, the technical problem to be solved by the invention is to provide a tri-proof light stroboscopic circuit transformation process which not only keeps the lamp at a lower energy consumption level to meet the trend of energy conservation and environmental protection, but also can effectively prevent the LED chip from generating heat greatly to greatly prolong the service life.

The technical scheme adopted by the invention for solving the technical problems is as follows: a three-proofing lamp stroboscopic line transformation process is characterized by comprising the following steps:

s1: rectifying the alternating current signal;

s2: dividing a light source into a plurality of channels;

s3: the LED lamp bead units work alternately;

the step S2 includes:

s21: a driver is arranged in front of each group of LED lamp bead units, or a driver is arranged between each group of LED lamp bead units and the rectifier module;

s22: if a driver is arranged in front of each group of LED lamp bead units, the anodes of a plurality of LED lamp beads in each group of LED lamp bead units are connected in series or in parallel to the output end anode terminal of a corresponding driver, and then the input end anode terminal of each driver is connected in parallel to the output end anode terminal of the rectifier module;

s23: if a driver is arranged between the plurality of groups of LED lamp bead units and the rectifier module, connecting the anodes of the LED lamp beads in each group of LED lamp bead units to an output end anode terminal of the driver in series or in parallel, and then connecting an input end anode terminal of the driver with an output end anode terminal of the rectifier module;

the step S3 includes:

s31: if a driver is arranged in front of each group of LED lamp bead units, the direct current output from the rectifier module is divided into each driver, and each driver is adjusted to a proper power according to the number of the LED lamp beads in the LED lamp bead unit to excite each LED lamp bead to emit light;

s32: if a driver is arranged between the plurality of groups of LED lamp bead units and the rectifier module, the direct current output from the rectifier module is divided into the driver, and the driver divides the current into corresponding number according to the number of the LED lamp beads in the LED lamp bead unit and has a plurality of branches with corresponding power so as to enable the plurality of LED lamp beads in each group of LED lamp bead units to emit light.

Preferably, the step S2 includes:

s11: connecting a live wire connecting end and a zero line connecting end with two power input terminal binding posts of a rectifying module respectively, and grounding a negative terminal of an output end of the rectifying module;

s12: divide into multiunit LED lamp pearl unit with a plurality of LED lamp pearls, the quantity of the LED lamp pearl in every group can be the same also can be different, all establish ties or parallelly connected the output positive terminal to rectifier module with the positive pole of a plurality of LED lamp pearls in every group LED lamp pearl unit again on.

Preferably, the multiple groups of LED lamp bead units in step S31 form multiple channels, when one of the channels is turned on, the other channels are all in an open circuit state, and each driver turns on the corresponding channel in sequence at a certain time interval, so that the multiple LED lamp beads in each channel emit light to realize alternate light emission, thereby eliminating stroboflash; .

Preferably, the multiple groups of LED lamp bead units in step S32 form multiple channels respectively, when one of the channels is turned on, the other channels are all in an open circuit state, and the driver turns on the multiple channels in sequence at a certain time interval, so that the multiple LED lamp beads in each channel emit light to realize alternate light emission, thereby eliminating stroboflash.

Compared with the prior art, the invention has the advantages that: the invention can perfectly solve the stroboscopic problem on the premise of not increasing the power, thereby not only keeping the lamp at a lower energy consumption level to accord with the trend of energy conservation and environmental protection, but also effectively preventing the LED chip from generating heat greatly to greatly prolong the service life.

Drawings

FIG. 1 is a structural diagram of the present invention when a driver is disposed between a plurality of LED lamp bead units and a rectifier module;

fig. 2 is a structural diagram when a driver is arranged in front of each group of LED lamp bead units.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known components of the invention have been omitted.

As shown in fig. 1-2, a three-proofing light stroboscopic circuit transformation process includes the following steps:

s1: rectifying the alternating current signal;

s11: connecting a live wire connecting end and a zero line connecting end with two power input terminal binding posts of a rectifier module respectively, and grounding a negative terminal of an output end of the rectifier module 1;

s12: dividing the plurality of LED lamp beads into a plurality of groups of LED lamp bead units, wherein the number of the LED lamp beads in each group can be the same or different, and connecting the anodes of the plurality of LED lamp beads in each group of LED lamp bead units to an output end anode terminal of the rectifier module in series or in parallel;

s2: dividing a light source into a plurality of channels;

s21: a driver is arranged in front of each group of LED lamp bead units, or a driver is arranged between each group of LED lamp bead units and the rectifier module;

s22: if a driver is arranged in front of each group of LED lamp bead units, the anodes of a plurality of LED lamp beads in each group of LED lamp bead units are connected in series or in parallel to the output end anode terminal of a corresponding driver, and then the input end anode terminal of each driver is connected in parallel to the output end anode terminal of the rectifier module;

s23: if a driver is arranged between the plurality of groups of LED lamp bead units and the rectifier module, connecting the anodes of the LED lamp beads in each group of LED lamp bead units to an output end anode terminal of the driver in series or in parallel, and then connecting an input end anode terminal of the driver with an output end anode terminal of the rectifier module;

s3: the LED lamp bead units work alternately;

s31: if a driver is arranged in front of each group of LED lamp bead units, the direct current output from the rectifier module is divided into each driver, and each driver is adjusted to a proper power according to the number of the LED lamp beads in the LED lamp bead unit to excite each LED lamp bead to emit light; the LED lamp bead units form a plurality of channels respectively, when one channel is conducted, the other channels are in an open circuit state, each driver conducts the corresponding channel in sequence at a certain time interval, and then the LED lamp beads in each channel emit light to realize alternate light emission, so that stroboflash is eliminated;

s32: if a driver is arranged between the plurality of groups of LED lamp bead units and the rectifier module, the direct current output from the rectifier module is divided into the driver, and the driver divides the current into a plurality of branches with corresponding number and power according to the number of the LED lamp beads in the LED lamp bead unit, so that the plurality of LED lamp beads in each group of LED lamp bead units emit light; the multiple groups of LED lamp bead units form multiple channels respectively, when one channel is switched on, other channels are in an open circuit state, the driver sequentially switches on the multiple channels at a certain time interval, and then the multiple LED lamp beads in each channel emit light to achieve alternate light emission, so that stroboflash is eliminated.

The invention can perfectly solve the stroboscopic problem on the premise of not increasing the power, thereby not only keeping the lamp at a lower energy consumption level to accord with the trend of energy conservation and environmental protection, but also effectively preventing the LED chip from generating heat greatly to greatly prolong the service life.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.