KR101306325B1 - Tube type led lamp for energy-saving - Google Patents

Abstract

PURPOSE: An intuitive led lamp for power saving is provided to reduce the process of electric work and piping work, thereby cutting total construction costs. CONSTITUTION: A light emitting diode (LED) module is combined to a body. The LED module generates light. A light diffusing cover (330) diffuses the light emitted from the LED module. The light diffusing cover comprises a circular part (310) and an end (320). The light diffusing cover has a bridge spreading portion (331,332) for illuminating a larger area.

Description

Tube type LED lamp for energy saving {TUBE TYPE LED LAMP FOR ENERGY­SAVING}

The present invention relates to a straight-type LED lamp for energy saving, and more particularly, even using the same power consumption as a conventional straight-type LED lamp, a specially manufactured reflector plate heat sink structure inside the tube lamp, LED LED By providing a straight LED lamp that enables light distribution having a uniform uniformity over a larger area by arranging the configured LED elements, the uniformity of the same area can be achieved even with a much smaller number of lamps than a conventional straight LED lamp. The present invention relates to a straight-type LED lamp for energy saving to save the electrical energy of structures and buildings using a straight-type LED lamp, including offices, malls, government offices.

In general, in the field of direct-type LED lamps, the main issues are the reduction of carbon emission due to global warming, development of alternative energy in response to the crisis of energy depletion, and energy saving due to high oil prices.

New energy not only in domestic but also in every company in the world. The company is actively developing renewable energy, alternative fuels such as biofuels, secondary batteries, and electric vehicles. In addition, it is hastening the development of electricity and electronic devices that save electricity, and the development of energy-saving lighting equipment.

In particular, the lighting device using the LED as a light source is an eco-friendly lighting device having a long life and high efficiency as compared to the existing incandescent or fluorescent lamps, as well as the energy saving effect is considerable, it has long been a representative field of energy saving. For this reason, in the field of LED lighting equipment, all companies and companies, including large enterprises, mid-sized companies and small and medium enterprises, participate in the development.

As shown in Figure 6 (A), it is a picture of the phenomenon that the sound, zero and shadow is generated by turning on the intuitive LED lamp produced by applying the prior art. Referring to FIG. 1, a linear LED lamp according to the related art is formed by forming a first PCB and a second PCB on which LEDs are mounted on both sides, and a bright portion around the LED element and a dark portion appearing at the edge of the bright portion. Has

In the structure of a linear LED lamp according to the prior art, the assembling structure is close to the diffusion cover and the LED lamp is a serious shadow phenomenon that the brightness of the light is displayed differently around the LED element when the lamp is turned on.

In addition, it is true that blind spots of light are generated according to the irradiation directions of the first and second PCBs, which is very inconvenient to use indoors such as an office residential space with a low ceiling height.

This is because the LED element and the diffusion cover has to maintain a minimum distance of at least 15mm due to the linear characteristics of the LED light, the heat sink of the prior art it is difficult to maintain the gap between the LED element and the cover more than 10mm. Nevertheless, it is true that the tube type LED lamp replaces the existing fluorescent lamp and cannot extend the tube size indefinitely.

Patent Publication No. 10-2010-0106713, LED lighting. Korean Patent Publication No. 10-2010-0090101, a diffusion type LED fluorescent lamp.

In order to solve the above problems of the present invention, the problem to be solved of the LED lamp for energy saving of the present invention is to solve the problem of using the same power consumption as the conventional LED lamp By providing a LED lamp that enables light distribution of even light intensity (hereinafter referred to as 'evenness') in a larger area by a specially manufactured reflector structure and an array of LED elements composed of LEDs, Compared to the general LED lamp, it is possible to realize the uniformity of the same area with a much smaller number of lamps, thereby reducing the electric energy of all structures and buildings that use the LED lamps including offices, shops, and public offices. To provide an intuitive LED lamp for energy saving.

In addition, another one of the problems to be solved by the intuitive LED lamp for energy saving of the present invention is much less than the lighting fixtures that apply the conventional intuitive LED lamp in the design stage of all buildings, such as offices, malls, government offices Even if you design using a number of lighting fixtures, by implementing a uniform system such as an existing office or a shopping mall, solve the limitations and limitations of interior design design caused by installing a large number of lighting fixtures on the ceiling Intuitive LED for energy saving, which greatly reduces the cost of materials and labor by significantly reducing the quantity of lighting fixtures, and greatly reduces the process of electric work and plumbing and reduces the overall construction cost. The purpose is to provide a lamp.

In addition, the problem to be solved of the intuitive LED lamp for energy saving of the present invention is to fundamentally solve the shading and shadow generation of the lamp that the conventional technology that can solve the conventional large area, and the light evenly spread It is an object to provide a linear LED lamp that is.

In another aspect, the present invention provides a linear LED lamp without glare by scattering the light by structurally solving the diffusion cover to reduce the eye fatigue from the glare due to the linearity of the LED light.

Energy-saving straight-type LED lamp according to the invention, the body; An LED module coupled to the body and generating light; A diffusion cover for diffusing the light emitted from the LED module; and the body includes a coupling part provided at a lower side of the body and slidingly coupled to the LED module, and provided at both outer sides of the body, Fixing groove to which the end of the diffusion cover is fitted, is provided on the upper side of the body, and has a heat dissipation fin for dissipating heat generated from the LED module.

The diffusion cover further includes a circular portion and an end portion, and further includes a bridge diffusion portion formed across the inner side of the diffusion cover, wherein the bridge diffusion portion is disposed between the plate and the both sides coupled to the inner side surfaces of the circular portion of the diffusion cover. It consists of a semi-circular portion provided in.

In addition, a bead for light diffusion is formed on an inner surface of the bridge diffusion part, and light transmitted inside the semicircular part of the bridge diffusion part is diffused by the bead.

On the other hand, the side connection cap is made of a side non-power connection cap and a side power connection cap, the side non-power connection cap is configured to reinforce rigidity by embedding a reinforcing metal core in the center of the coupling pin.

Straight LED lamp according to the present invention,

First, it is possible to implement light distribution having a uniform uniformity over a large area even when using the same power consumption as a conventional straight-type LED lamp, a much smaller number of lighting fixtures than conventional lighting fixtures that apply a straight-type LED lamp It is possible to implement an effective uniformity of the same area while installing, and it is effective to reduce the electric energy of all structures and buildings that use straight-type LED lamps, including offices, chants, and government offices.

Another effect of the intuitive LED lamp for energy saving according to the present invention, by significantly reducing the number of lighting fixtures in the design stage of the building or structure, as well as the material and labor costs, as well as the process of electrical work and plumbing work By drastically reducing the cost, the overall cost of construction is reduced, resulting in a reduction in the construction cost.

In addition, the effect of the intuitive LED lamp for saving energy of the present invention, the construction of all the buildings, such as offices, shopping malls, apartments using a much smaller number of lighting fixtures than conventional lighting fixtures using a conventional LED lamp Even if it has a uniform system such as an existing office or a mall, a small number of lighting fixtures can be installed on the ceiling, thereby making the interior design more versatile, thereby improving the aesthetics of the building.

1 is a cross-sectional view of a tubular LED lamp according to an embodiment of the present invention.
2 is a view showing a side view of a linear led lamp according to an embodiment of the present invention.
Figure 3 is a view showing the left and right side connection caps of the tubular LED lamp according to an embodiment of the present invention.
4 is a circuit diagram illustrating power supply to a linear LED lamp according to an embodiment of the present invention.
5 illustrates a diffusion cover of a linear LED lamp according to another embodiment of the present invention.
Figure 6 shows that the LED lamp in accordance with an embodiment of the present invention turned on.
7 is a view showing a light distribution degree of a linear LED lamp according to an embodiment of the present invention.
8 shows a simulation of light distribution characteristics of the linear LED lamp.

Hereinafter, a linear LED lamp according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail. In the drawings, the size and thickness of an apparatus may be exaggerated for convenience of explanation.

1 is a view showing a cross-sectional view of the LED tube lamp according to an embodiment of the present invention, Figure 2 is a view showing a side view of the LED tube lamp according to an embodiment of the present invention, Figure 3 is a view of the present invention Figure 2 shows the left and right side connection caps of the tubular LED lamp according to an embodiment.

4 is a circuit diagram illustrating power supply to a linear LED lamp according to an embodiment of the present invention.

The linear LED lamp according to an embodiment of the present invention, as shown, includes a body 100, the LED module 200, the diffusion cover 300 and the side connection cap 400.

The body 100 has a certain length, the lower side is coupled to the LED module is slidingly coupled, both sides are fixed grooves are fitted to the end of the diffusion cover to be described later, the upper side is generated from the LED module And heat dissipation fins for dissipating heat.

The coupler 110 is slidingly coupled to the LED module. Referring to the drawings, the coupler is composed of the left coupler and the right coupler, the left coupler and the right coupler form a constant angle with each other.

In the embodiment of the present invention, the left coupler and the right coupler is an embodiment consisting of a 'Λ' form, but is not necessarily limited to this, if necessary for the purposes of the present invention having a variety of angles such as three or four angles It may be fabricated as a structure. In addition, the coupler may be manufactured integrally with the body as a single product, but may be composed of two or more having a prefabricated coupling structure to irradiate light at a desired angle such as left and right.

The fixing groove 120 is formed on both sides of the body. An end of the diffusion cover is coupled to the fixing groove. Then, after coupling the end of the diffusion cover to the fixing groove of the body, the LED lamp is assembled by combining the side connection caps at both ends.

The heat dissipation plate 130 may further include a plurality of heat dissipation blades formed on the upper side of the body and processed narrow and long in the longitudinal direction of the body in order to quickly dissipate heat emitted when the LED chip emits light.

On the other hand, one side of the body is provided with a power supply for supplying electrical energy to the LED. The power supply unit (not shown) is mounted on an accommodating portion provided on one side of the frame and supplies power to the LED module. The power supply unit is supplied with commercial power and converted into a rated voltage and a rated current required by the LED module. To this end, the power supply unit is mounted on a printed circuit board in which electronic circuit elements for a constant current circuit and an overcurrent protection circuit are separately provided. According to an embodiment of the present invention, the power supply unit is configured of a switching mode power supply (SMPS).

On the other hand, the printed circuit board is additionally provided with a power supply means to be supplied to the LED chip, in the embodiment of the present invention, a surge protector varistor is used to prevent incorrect wiring, surge and lightning of the polarity of the power supply due to an operator error. It can be configured to include. In addition, it is further provided with a bridge diode comprising a rectifying diode connected to the printed circuit board and configured as a bridge circuit that performs a function of properly conducting even when the power is connected in reverse.

The LED module 200 substantially generates light and includes an LED chip and a printed circuit board.

The LED chip is a light emitting component, and includes a light emitting diode chip that emits light therein and a hemispherical resin including phosphors formed on the LED chip. Light generated from the LED chip passes radially through the hemispherical resin. On the other hand, the LED chip may be arranged in a zigzag shape on the left and right sides with a predetermined interval on the printed circuit board. Naturally, it can be arranged in various forms to equalize the amount of light irradiated to the left and right.

In the printed circuit board, a wiring pattern for supplying electricity to the LED chip is formed on one surface, and the LED chip is electrically connected to an end of the wiring pattern. An insulating layer is additionally formed on one surface of the printed circuit board on which the wiring pattern is formed to electrically short circuit and protect the wiring patterns. When electricity is supplied to the LED chip, which is a light source, heat is generated together with the emitted light. Therefore, it is desirable to select a material having a relatively good thermal conductivity for the printed circuit board.

In addition, on the upper side of the printed circuit board (the surface on which the LED chip is mounted), reflection means for adjusting the direction of the emitted light may be additionally formed to increase the light efficiency. For this purpose, the printed circuit board may be configured by attaching a heat sink manufactured by an aluminum extrusion mold processed in a reflective form.

In the LED module according to the embodiment of the present invention, the left LED module and the right LED module are mounted on the coupling holes provided on the left and right sides of the lower surface of the body, respectively.

LED has a disadvantage that the brightness of the light is relatively high to use as the indoor illumination light. In order to solve this problem, a diffusion cover for diffusing light is provided under the LED module.

The diffusion cover 300 includes a circular portion 310 cut off at an upper side thereof and an end portion 320 of the diffusion cover bent inward from an end portion of the cut circular portion. The diffusion cover is located at the lower side of the LED as an overall elongated tubular shape, and is fitted into fixing grooves provided at both sides of the body. Both ends of the diffusion cover are fitted into the fixing groove of the body. The diffusion cover is formed of a transparent material such as polymethly methacrylate (PMMA), glass, and polycarbonate (PC) having a light transmittance of 85% to 90% to diffuse light emitted from the LED chip. In the present invention, the diffusion cover is coupled to an embodiment, but may be formed of at least one of a light distribution lens, a protective plate, and a diffusion plate to distribute the light emitted from the LED chip.

Light emitted from the LED chip is straight. Since this may cause visual glare, triangular projections are formed to scatter light for natural light. The present invention is to form a triangular projection portion as an embodiment, but is not necessarily limited to this, it can be manufactured in a shape having a curve, such as semi-circular shape, square shape.

The side connection cap 400 closes both ends of the straight-shaped body. It secures the LED module and the diffusion cover mounted inside and supplies power to the LED module and prevents the inflow of foreign substances such as rainwater and dust. The side connection cap may use either a fluorescent base or a dedicated base that can be coupled to a luminaire using a conventional straight lamp. In addition, in order to prevent the occurrence of emotional accidents in the process of installing the energy-saving straight-type LED lamp according to the present invention, it is preferable that the cap is made of a polycarbonate of a flame retardant material that does not pass through.

Referring to Figure 4, the side connecting cap includes two coupling pins, it is preferable to use a flame retardant material that does not burn well. For example, it can be produced by a mold as polycarbonate. Figure 4 (A) shows a side power connection cap, Figure 4 (B) shows a side non-power connection cap.

The side connection cap may be formed of a G13 base or a D12 base. The side connection cap is formed at both ends of the straight LED lamp, one side is formed with a side power connection cap is supplied with power and the other side is composed of a side non-power connection cap not connected to the power. The power supplied to the linear LED lamp is configured to be supplied through the side power connection cap.

Insert the coupling pin of the side non-power supply cap into the socket first, and then fasten the coupling pin of the side power connection cap to complete the installation of the straight type LED lamp. At this time, since the oblique angle is maintained when the coupling pin of the side non-power connection cap is inserted into the socket, the coupling pin of the side non-power connection cap may be easily bent or even broken. The reinforcing metal core 411 is embedded in the center of the coupling pin 410 to prevent the coupling pin of the side non-power connection cap is broken. Dotted lines shown in the interior of the coupling pin in Figure 2 shows a reinforcing metal core.

5 illustrates a diffusion cover of a linear LED lamp according to another embodiment of the present invention. Referring to the drawings, only the diffusion cover and the LED module are shown except for the body for convenience of description.

Diffusion cover 330 of the linear LED lamp according to another embodiment of the present invention, to form a triangular to semi-circular bead inside the cover to prevent glare due to the linearity of the LED light. The bead of the diffusion cover is configured to have a plurality of small angles inside the cover to serve to scatter light at various angles to reduce the glare of the LED light.

In addition, the diffusion cover of the present invention is provided with a bridge diffusion portion 330 formed across the inside of the cover to illuminate a larger area.

The bridge diffusion part includes a plate 331 having an angle disposed in parallel with the LED module PCB 200 coupled to both sides of the heat sink 130, and vice versa.

The diffusion plate is configured to be parallel to the LED module PCB to reflect the LED light to serve to irradiate a larger area.

In addition, the diffusion cover 333 includes a semi-circular projection (convex lens 333) formed in a line with the center line of the LED lamp to serve as a convex lens for the purpose of collecting more light generated from the LED to shine farther. It may be.

The diffusion cover 333 having the convex lens is formed in a semi-circle shape having some protrusions on the inner side of the cover to form a slight thickness by the protrusions formed on the outer side and the inner side of the cover, and this thickness is performed by the convex lens function. Make the light reach farther away.

In the present invention, the bridge diffusion portion is formed integrally with the diffusion cover as an embodiment, but each can be manufactured separately and combined with each other. On the other hand, a bead for light diffusion is formed on the inner surface of the bridge diffusion part, so that light transmitted inside the bridge diffusion part is diffused by the bead.

The light diffused by the beads emits light in a larger area as the light is diffused to have a larger area of light distribution.

The bridge diffusion prevents the diffusion cover from spreading outward. Specifically, the end portion 320 of the diffusion cover is prevented from spreading outward by the buffer force of the semicircular portion of the bridge diffusion portion. In addition, the bridge diffuser first spreads the light emitted from the LED module located in the diffusion cover. The light emitted from the LED chip is directed toward the center of the plate, reflected by the plate, and then secondarily diffused out of the circular portion located below the plate.

In the present invention, the bridge diffusion portion is formed as an embodiment, but in addition, diffusion protrusions may be formed on the inner and outer surfaces of the semicircular portion.

Figure 6 shows that the LED lamp in accordance with an embodiment of the present invention turned on. FIG. 6 (A) shows the lighting of the linear LED lamp according to the prior art, and FIG. 6 (B) shows the lighting of the straight LED lamp according to the embodiment of the present invention.

Referring to the drawings, the LED lamp according to the prior art can be seen that the shadow of the shadow appears in the portion where the LED chip is located when the lighting, the shadow and when the LED lighting lamp according to the embodiment of the present invention You can see that the same shadowing is almost invisible.

7 is a view showing a light distribution degree of a linear LED lamp according to an embodiment of the present invention. 7 to 7 (A) shows a light distribution according to the prior art, Figure 7 (B) is a view showing the light distribution of a straight-type LED lamp according to an embodiment of the present invention.

In addition, in the figure, it is the light distribution degree measured for 24 W of linear LED lamps. Referring to the drawings, the light distribution of the energy-saving straight-type LED lamp according to an embodiment of the present invention has a feature that the irradiation angle is wider than 180 degrees compared to the light distribution of the conventional LED lamp.

It is possible to save the electric energy by reducing the number of lamps by reducing the number of lamps by realizing the same light distribution by using a smaller number of LED lamps by emitting uniform light in a much larger area than conventional direct-type lamps. Of course, overall construction costs such as material and labor costs can be reduced.

8 shows a simulation of light distribution characteristics of the linear LED lamp. FIG. 8 (A) shows the homogenization by the simulation of a conventional LED lamp, and FIG. 8 (B) shows the homogenization by the simulation of the LED tube lamp according to the embodiment of the present invention.

Referring to the drawings, the uniformity of the conventional LED lamp has a value of Uniformity g1: 0.3, Uniformity g2: 0.12, the uniformity of the linear LED lamp according to an embodiment of the present invention is Uniformity g1: 0.5, Uniformity g2: Since it has a value of 0.26, it can be seen that there is a significant difference. In other words, it is possible to realize a substantial effective leveling system in indoor lighting.

This means that it is possible to design effective lighting even if 30% less lighting fixtures are installed in the buildings such as offices, shopping malls, apartments, etc. than the lighting fixtures using the conventional LED lamps.

Summarizing the above, the lighting can be implemented in a conventional LED lamp 22W, the LED lamp for energy saving according to an embodiment of the present invention can be said that the same dimming is possible even if replaced by 15W to 14W Can be.

If the 1000 LED lamps are calculated as a building using 10 hours a day, when the conventional LED lamp is used, the annual power consumption is about 80,300 kw / h, compared to the energy saving according to the embodiment of the present invention. If the use of a straight-line LED lamp for the annual power consumption of about 51,100kw / h, it can save about 29,200kw / h electric energy per year, which will save about 3,200,000 won electricity bills.

In particular, the greatest effect according to the embodiment of the present invention is not limited to saving 30% of electric energy and saving electricity costs, but the number of lighting fixtures using the conventional straight-type LED lamp installed in the same area In comparison with the present invention, it is concluded that the application of the embodiment of the present invention may provide a light fixture of less than 30%. Therefore, it is possible to reduce the material cost and labor costs, and there is an advantage of reducing the construction cost by significantly reducing the process of electrical work, plumbing work.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the present invention is not limited to the disclosed exemplary embodiments, but various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention.

100: Body
110:
120: fixed groove
130: heat radiation fins
200: LED module
300: Diffusion Cover
310: round part
320: end
330: diffusion cover
331: Diffusion Plate
332: diffusion plate
333: Convex Lens Cover
400: side connection cap
410: coupling pin
411: metal core for reinforcement

Claims (7)

delete delete In the LED lamp for energy saving,
Body;
An LED module coupled to the body and generating light;
And a diffusion cover configured to diffuse light emitted from the LED module.
The body includes a coupling portion provided at the lower side of the body and the LED module is slidingly coupled, a fixing groove provided at both outer sides of the body and fitted with end portions of the diffusion cover, and provided at an upper side of the body and the LED Heat dissipation fins are formed to release heat generated from the module,
The diffusion cover includes a circular portion and an end portion, and further includes a bridge diffusion portion formed across the inner side of the diffusion cover, wherein the bridge diffusion portion is provided between a plate and both plates coupled to inner side surfaces of the circular portion of the diffusion cover. Is made up of semi-circular members,
Beads for light diffusion are formed on an inner surface of the bridge diffusion portion, and light transmitted inside the semicircle portion of the bridge diffusion portion is configured to be diffused by the beads.
Further comprising a side connection cap for closing both ends of the body of the straight LED lamp, the side connection cap is made of a side secondary power connection cap and a side power connection cap, the side secondary power connection cap of the coupling pin Straight-type LED lamp for energy saving, characterized in that configured to reinforce the rigidity by embedding the reinforcing metal core in the center.
The method of claim 3,
Intuitive LED lamp for energy saving provided with a heat dissipation plate for disposing the LED module PCB in the Λ-shaped heat dissipation inward so that no sound, shadow or shadow is generated in the diffusion cover to diffuse the light. delete delete delete

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