JP3158252U - Connection structure of multi-sided LED - Google Patents

Abstract

Provided is a multi-sided LED connection structure that can combine various multi-sided LED modules in various ways, has high expandability and variability, and saves time and cost. A connecting structure of multi-sided LEDs is operated by controlling an LED module assembly by a transformer, and the LED module assembly mainly includes a plurality of multi-sided LED modules. Since the side lengths can be combined in combination with each other, and any side of the LED module can be combined and connected to each other, the user can assemble and combine according to need and preference The LED module assembly can be controlled by a single transformer with high expandability, high brightness, excellent surface light source property, low cost. [Selection] Figure 1

Description

  The present invention relates to a multi-sided LED, and in particular, a multi-sided LED connection structure that combines a plurality of multi-sided LED modules with various changes, has high expandability and variability, and saves time and cost About.

  A light-emitting diode (LED) is a solid semiconductor element that uses a combination of electron holes to emit energy in the form of light, belongs to cold light emission, has a small volume, and a fast reaction speed. It has advantages such as long service life, low power consumption, high vibration resistance, and no pollution, and has already been widely used in various fields as light emitting elements for various electrical appliances, information signs, communication products, etc. It is in operation. In particular, in the current lighting equipment, the use of light-emitting diodes as light-emitting elements was not as good as the efficiency of conventional light-emitting diodes in the early days. These advances are remarkable and are gradually replacing conventional light-emitting elements.

  In the process of the conventional LED module, after individually packaging the LEDs, the LED packages are formed, the electrodes of the LEDs are soldered onto the substrate using surface mounting technology (SMT), and an electric circuit is formed. It is necessary to use an LED module. Of these, the substrate is usually a printed wiring board (PCB).

  Of these, all the LED modules cannot be expanded, and most of them are newly added after being fixed by soldering, and cannot be connected and expanded. If the user wants to increase the number of LED modules, it is necessary to replace all of them, which is a heavy burden in cost. Insufficient scalability leads to an increase in cost and takes time to exchange, all of which can not improve the industrial competitiveness.

  In addition, if any one of the LED modules breaks down or the operation efficiency deteriorates, it is not possible to replace only one, it is necessary to replace the whole, which is also in terms of cost and time Very inefficient.

  Therefore, how to solve the problems and disadvantages of the above-mentioned conventional products is the direction in which the inventor of the present invention and the manufacturer engaged in the related industry research the improvement.

  For this reason, the inventor of the present invention collects related materials in consideration of the above-mentioned drawbacks, and after many trials and corrections based on many years of experience in related industries, through various evaluations and considerations. It has led to the development of a multi-sided LED connection structure that can combine multi-sided LED modules with various changes, has high expandability and variability, and saves time and cost.

  The main object of the present invention is to connect a plurality of multi-sided LED modules with various changes, have high expandability and variability, and save time and cost. Is to provide.

  The multi-sided LED connection structure of the present invention includes a connection structure including a transformer and an LED module assembly, the transformer being electrically connected to the LED module assembly, and controlling the LED module assembly. The LED module assembly is configured by combining a plurality of multi-sided LED modules, and the lengths of the sides of the LED modules can be combined to correspond to each other, and arbitrary sides of the LED modules are joined to each other. When the user wants to expand the LED module, the LED module is connected to each other and fixed by connecting the side of one LED module to the side of another LED module. . The coupling method may be screw fixing, soldering fixing, insertion fixing, close bonding, adhesive fixing, or the like. Due to the above-mentioned technology, the existing LED module cannot be expanded, most of which are newly increased after being fixed by soldering and cannot be connected and expanded. If you want to increase the number of modules, it is necessary to replace all of them, which is a heavy burden in terms of cost, and the lack of expandability leads to an increase in cost and takes time to replace, all of which are industrially competitive If any one of the LED modules breaks down or the operation efficiency deteriorates, it is not possible to replace only one, and it is necessary to replace the whole. This also overcomes the problem of inefficiency in terms of cost and time, and the side lengths of the multi-sided LED modules can be combined correspondingly. Any side of the LED module can be joined and connected to each other, and can be assembled or combined according to need or preference by the user, and has high expandability and high brightness. The LED module assembly is excellent in surface light source property, low in cost, and can control the LED module assembly with a single transformer.

As shown in all the drawings, the following advantages are surely present when using the present invention as compared with the prior art.
one,
By designing the multi-sided LED module 21, the quantity of the LED module 21 can be expanded by itself.
two,
Excellent surface light source.
three,
A plurality of LED modules 21 can be controlled by one transformer 10, and it is not necessary to add the transformer 10, and the purpose of cost saving can be achieved.

It is a top view of the LED module assembly of this invention. 1 is a block diagram of a preferred embodiment of the present invention. It is a three-dimensional view which shows the coupling | bonding of the LED module of Example 1 of this invention. It is a three-dimensional view of Example 2 of the present invention. It is a three-dimensional view of Example 3 of the present invention. It is a three-dimensional exploded view of Example 3 of the present invention.

  In order to achieve the above objects and effects, the technical means and structure employed by the present invention will be described in detail below with reference to the drawings and the best embodiments of the present invention.

  1 and 2 are a plan view of an LED module assembly of the present invention and a block diagram of the best embodiment of the present invention, respectively. As can be clearly seen from these drawings, the present invention controls the LED module assembly 20 with the transformer 10, and the LED module assembly 20 is configured by combining a plurality of multi-sided LED modules 21. The LED module 21 includes at least one LED light emitting element 212, and the length of the side 211 of the LED module 21 can be combined corresponding to each other, and the arbitrary side 211 of the LED module 21 is joined and connected to each other. The LED module 21 can be extended to various different modes by connecting the side edges 211 to increase the surface light source.

  Based on the above-described structure and configuration design, the usage status of the present invention will be described below. 2 and 3 are a block diagram of the best embodiment of the present invention and a three-dimensional view showing the coupling of the LED modules of Embodiment 1. FIG. As can be clearly seen from these figures, the connection structure includes a transformer 10 and an LED module assembly 20, and the transformer 10 is electrically connected to the LED module assembly 20 to connect the LED module assembly 20. The LED module assembly 20 is configured by combining a plurality of multi-sided LED modules 21, and the lengths of the sides 211 of the LED modules 21 can be combined to correspond to each other. Arbitrary sides 211 can be joined and connected to each other, and when the user wants to expand the LED module 21, the side 211 of the LED module 21 and the side 211 of another LED module 21 are connected to each other. To fix the LED modules 21 to each other. That. The connection method may be screw fixing, soldering fixing, insertion fixing, tight bonding, adhesive fixing, or the like. The user can expand the LED module 21 at will, and can control the LED module 21 without the need to install an additional transformer 10.

  FIG. 4 shows a three-dimensional view of the second embodiment of the present invention. As can be clearly seen from this figure, the LED module assembly 20a is configured by combining a plurality of multi-sided LED modules 21a, and the LED module 21a includes at least one LED light emitting element 212a. The lengths of the sides 211a can be combined in correspondence with each other, and can be combined into different shapes such as an annular shape (not limited to this combination of arrays and the number of LED light emitting elements 212a).

  5 and 6 are three-dimensional views of Embodiment 3 of the present invention. As can be clearly seen from these drawings, the LED module assembly 20b is configured by combining a plurality of polygonal LED modules 21b, and the LED module 21b includes at least one LED light emitting element 212b. The lengths of the side edges 211b can be combined in correspondence with each other, and can be combined into figures of different modes such as triangles (not limited to this combination of arrays and the number of LED light emitting elements 212b).

  The above description shows the best embodiment of the present invention, does not limit the patent scope of the present invention, simple modifications using the contents of the specification and drawings of the present invention and structural changes of equivalent effects are All are included within the patent scope of the present invention.

  To summarize the above, since the connecting structure of the multi-sided LED of the present invention can surely achieve its effect and purpose at the time of use, the present invention is a creation with excellent practicality. Therefore, the application is filed based on the law.

10 Transformers 20, 20a, 20b LED module assemblies 21, 21a, 21b LED modules 211, 211a, 211b Sides 212, 212a, 212b LED light emitting elements

Claims (3)

A multi-sided LED connection structure, in which an LED module assembly is controlled by a transformer, the LED module assembly is configured by combining a plurality of multi-sided LED modules, and the side length of the LED module is A connecting structure for a multi-sided LED, which can be combined corresponding to each other, and can be connected by connecting arbitrary sides of the LED module to each other. 2. The multi-sided LED connection structure according to claim 1, wherein the LED modules are connected to each other by screwing, soldering, fitting, tight bonding, adhesive fixing, or the like. The multi-sided LED connection structure according to claim 1, wherein the LED module includes at least one LED light emitting element.

Images