KR101176289B1 - Illumination stand of dual-type light emitting - Google Patents

Abstract

According to the present invention, conductive patterns are formed on both sides of the substrate, respectively, and are respectively attached to each of the conductive patterns so that the light emitting elements are connected to each other. The present invention relates to a double-sided light emitting stand that supports a lighting module by being installed on the ground and includes a stand on which an operation unit for controlling the operation of the lighting module is provided.
According to the present invention, it is possible to emit light on both sides to enable direct or indirect lighting of not only a specific area but also other areas, and thus have a function as an indoor light, thereby facilitating convenience of use and emitting light. In addition to increasing the life cycle of the device, it is possible to reduce power consumption, and excellent heat dissipation can prevent the life cycle due to heat.

Description

DILLUMINATION STAND OF DUAL-TYPE LIGHT EMITTING}

The present invention relates to a double-sided light emitting stand for enabling direct or indirect illumination of not only a specific area but also other areas by enabling double-sided light emission, and for ease of use.

In general, the lighting stand is a lighting device that irradiates light emitted from a lamp such as a fluorescent lamp to a desired area. The lighting stand can be installed at a desired position by a movable structure. It may be made in the form provided, or may have a structure having a plurality of support in the form of a frame.

Such a lighting stand is widely installed in a bedroom or a living room as well as a desk for convenience of use and movement to illuminate a desired place.

However, the conventional lighting stand has a disadvantage in that it does not have direct or indirect lighting for a region except for a specific region by having only a structure for cross-section emission. Therefore, the conventional lighting stand has a problem in that it is difficult to cause the indoor lighting is difficult and often used together with the indoor lighting causing inconvenience.

In addition, the conventional lighting stand has a problem that causes a short usage cycle and the burden of power consumption of the lamp.

The present invention is to solve the problems of the conventional lighting stand as described above, by enabling the two-sided light emission to enable direct or indirect lighting for other areas as well as lighting for a specific area, thereby By having a function as lighting to facilitate the use, to increase the use cycle of the light emitting device and to reduce the power consumption.

According to an aspect of the present invention for achieving the above object, as a double-sided light emitting stand, the conductive pattern is formed on both sides of the substrate, respectively, the illumination to enable double-sided light by being attached to each of the conductive patterns to be connected to each of the conductive patterns And a stand to which the lighting module is fixed so that power is supplied to the lighting module, and installed on the ground to support the lighting module, and an operation unit for controlling the operation of the lighting module. do.

In addition, the substrate is characterized in that consisting of a single glass substrate on which the conductive pattern is formed on both sides.

In addition, the substrate is characterized in that the conductive pattern is formed on each side of the two glass substrates are bonded to each other.

In addition, the substrate is characterized by consisting of a single metal substrate, each conductive pattern is formed on the non-conductive film is coated on both sides.

In addition, the substrate is characterized in that the conductive pattern is formed on the non-conductive film to be coated on one side consisting of two metal substrates are bonded to each other.

In addition, the substrate is characterized in that the two glass substrates each having the conductive pattern formed on one side are bonded to both sides of the metal substrate, respectively.

In addition, the conductive pattern has a cathode end and an anode end, the conductive strip is provided between the cathode and the anode end as a single or a plurality of parallel side by side installed, there are a plurality of sites that are broken in the conductive strip, Breaking portions of the conductive strips are connected to each other by the light emitting device, and a pair of terminals respectively connected to the negative electrode terminal and the positive electrode terminal are provided, and power is applied to the negative electrode terminal and the positive electrode terminal through the terminal. The light emitting element emits light, and the light emitting element is made of any one of an LED element and an EL element soldered or wire bonded to the conductive strip.

According to the double-sided luminous lighting stand according to the present invention, by enabling the two-sided light emission to enable direct or indirect lighting for not only the specific area but also other areas, thereby having a function as the room lighting It aims to be convenient, not only to increase the life cycle of the light emitting device, but also to reduce power consumption, and to excellent heat dissipation, thereby preventing a decrease in life due to heat.

1 is a perspective view showing a double-sided light emitting lamp stand according to a first embodiment of the present invention,
2 is a plan view showing a lighting module of the double-sided light emitting lamp stand according to the first embodiment of the present invention,
3 is a cross-sectional view showing a lighting module of the double-sided light emitting lamp stand according to the first embodiment of the present invention,
4 is a cross-sectional view showing a lighting module of the double-sided light emitting lamp stand according to the second embodiment of the present invention,
5 is a cross-sectional view showing a lighting module of a double-sided light emitting lamp stand according to a third embodiment of the present invention,
6 is a cross-sectional view showing a lighting module of the double-sided light emitting lamp stand according to the fourth embodiment of the present invention,
7 is a cross-sectional view showing a lighting module of the double-sided light emitting lamp stand according to the fifth embodiment of the present invention,
8 is a perspective view illustrating a double-sided light emitting stand according to a sixth embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, the following examples may be modified in various other forms, the scope of the present invention Is not limited to the following examples.

1 is a perspective view showing a double-sided light emitting lamp stand according to a first embodiment of the present invention, Figure 2 is a plan view showing a lighting module of a double-sided light emitting lamp stand according to a first embodiment of the present invention, Figure 3 Sectional drawing which shows the lighting module of the double-sided light emitting lamp stand which concerns on 1st Embodiment of this invention.

As shown in FIGS. 1 to 3, the double-sided light emitting stand 100 according to the first embodiment of the present invention has a lighting module 110 capable of double-sided light emission and a stand 120 to which the lighting module 110 is fixed. ).

The lighting module 110 has conductive patterns 112 formed on both surfaces of the substrate 111, and the light emitting devices 113 are connected to each of the conductive patterns 112, respectively, so that the two-sided light emission is possible.

The substrate 111 may have a rectangular plate shape as in the present embodiment, and may have various shapes such as circular, elliptical, and other polygons. For example, the substrate 111 may be a single glass substrate having conductive patterns 112 formed on both sides thereof. Can be done.

The conductive pattern 112 may be formed by printing a silver (Ag) -based paste on both sides of the substrate 111 to undergo a sintering process, for example, a heat treatment process of 400 to 700 ° C. The paste of the series may be a low temperature sintered paste.

The conductive pattern 112 forms a circuit for the light emitting element 113 to be connected by soldering or wire bonding. For example, the conductive pattern 112 has a cathode end 112a and an anode end 112b. The conductive strip 112c is provided as a single or a plurality of parallel strips are arranged in parallel between the extreme end 112a and the anode end 112b, and a plurality of portions are formed in each of the conductive strips 112c, and the conductive strip 112c is provided. ) Are cut off from each other by the light emitting element 113, and a pair of terminals 112d and 112e connected to the cathode end 112a and the anode end 112b are provided on one side, and the terminal 112d, The light emitting element 113 emits light by applying power to the cathode end 112a and the anode end 112b through 112e. Therefore, light emission may occur in various areas depending on the number of conductive strips 112c and the number of portions cut off from the conductive strips 112c.

The light emitting device 113 may be formed of any one of an LED (Light Emitting Diode) device and an EL (Electro-Luminance) device that are soldered or wire-bonded to the conductive strip 112c.

On the other hand, when the lighting module 110 is finished mounting the light emitting device 113 on the conductive pattern 112, the electrode is tested, and then the conductive pattern 112 except for the terminals (112d, 112e) on the substrate 111 ) And a light emitting layer (not shown) may be provided in the region including the light emitting device 113. In this case, the protective layer may serve as an insulating layer, and may be formed by lamination of an epoxy polymer or urethane or silicon on the substrate 110, or an epoxy polymer or a thermoplastic resin and polyvinyl acetate or urethane, which is a thermosetting resin. It can be made by bonding.

Stand 120 is fixed to the lighting module 110 to supply power to the lighting module 110, is installed on the ground to support the lighting module 110, the operation unit for controlling the operation of the lighting module 110 121 is provided. Here, the operation unit 121 has a function of selectively turning on or off the light emitting element 113 of either side of the lighting module 110, the light emitting element 113 of both sides of the lighting module 110 is turned on or off. One or a plurality of switches having a function to make it possible may be provided. For this purpose, the stand 120 has a control unit for controlling a power supply to the lighting module 110 according to an operation signal of the operation unit 121 therein. Can be installed as On the other hand, the switch of the operation unit 121 may be made of a touch switch (touch switch) or a push button (push botton).

The stand 120 is provided such that a power cable (not shown) having a connector for connecting to an external power outlet is drawn out to the outside so that power is supplied to the lighting module 110 through a power cable, and the power supplied from the outside. A transformer for transforming the light emitting device 113 to be used may be provided therein.

The stand 120 is provided with a coupling part 122 to fix the lighting module 110, so that one side of the lighting module 110 may be fixed to the coupling part 122. 122 is formed in the form of a socket having a slit (not shown) so that one side of the lighting module 110 is fitted into the slit, so that the terminals 112d and 112e of the lighting module 110 are connected to the connection terminals provided inside the slit. Power may be supplied to the light emitting device 113, and in addition, the light emitting device 113 may have various structures for fixing the lighting module 110. In addition, the stand 120 may be a guide portion for concentrating the light of the lighting module 110 to the desired area is provided around the lighting module 110, the neck 123 for supporting the lighting module 110 is The bellows structure can be changed and bent, or one or more hinge coupling parts can be provided in the neck 123 to allow rotation.

4 is a cross-sectional view showing a lighting module of a double-sided light emitting lamp stand according to a second embodiment of the present invention. In the double-sided light emitting lamp stand according to the second embodiment of the present invention shown in FIG. 4, the double-sided light emitting lamp stand 100 according to the first embodiment is used in that the substrate 211 of the lighting module 210 includes two glass substrates. ), And the other configuration is described in detail in the double-sided light emitting stand 100 according to the first embodiment will be omitted.

In the lighting module 210 according to the present embodiment, the substrate 211 is formed of two glass substrates 211a each having conductive patterns 212 formed on one side thereof and bonded to each other. Here, the glass substrates 211a may be attached to each other using an adhesive, which is an insulating and bonding material including any one of polyester, epoxy, silicon, and polyvinyl acetate, in which the conductive patterns 212 are not formed. It can be attached to each other using a fastening member such as a bracket. In addition, the light emitting devices 213 are arranged on the conductive pattern 212 as described above in the double-sided light emitting stand 100 according to the first embodiment.

5 is a cross-sectional view showing a lighting module of the double-sided light emitting lamp stand according to the third embodiment of the present invention. In the double-sided light emitting stand according to the third embodiment of the present invention illustrated in FIG. 5, the substrate 311 of the lighting module 310 has conductive patterns 312 formed on non-conductive films 311a coated on both sides thereof, respectively. It is made of a single metal substrate, and the other configuration is described in detail in the double-sided light emitting stand 100 according to the first embodiment will be omitted.

The substrate 311 is a metal substrate made of aluminum (Al), stainless steel, or the like, and a non-conductive film 311a may be formed on both sides thereof by coating. Here, the nonconductive film 311a may be formed by coating a nonconductive paste on both sides of the substrate 311 which is a metal substrate, and the coated nonconductive paste is subjected to a sintering process, for example, a heat treatment process of 400 to 700 ° C. . In addition, the light emitting devices 313 are arranged on the conductive pattern 312 as described above in the double-sided light emitting stand 100 according to the first embodiment.

6 is a cross-sectional view showing a lighting module of a double-sided light emitting lamp stand according to a fourth embodiment of the present invention. In the double-sided light emitting stand according to the fourth embodiment of the present invention illustrated in FIG. 6, the substrate 411 of the lighting module 410 has a conductive pattern 412 formed on a non-conductive film 411a coated on one side thereof. And two metal substrates 411b bonded to each other, and the light emitting devices 413 may be arranged on the conductive pattern 412. For the other configurations, the double-sided light emitting lighting stand according to the first embodiment ( As described in detail in 100), the description thereof will be omitted.

The metal substrate 411b may be made of aluminum (Al), stainless steel, or the like, and a non-conductive film 411a is formed on one side by coating. Here, since the non-conductive film 411a has been described in the double-sided light emitting stand according to the third embodiment, the description thereof will be omitted.

The metal substrates 411b are attached to each other using an adhesive, which is an insulating and bonding material including any one of polyester, epoxy, silicon, and polyvinyl acetate, between the surfaces on which the conductive pattern 412 is not formed, or a bolt or a bracket. Can be attached to each other using fastening members.

7 is a cross-sectional view showing a lighting module of a double-sided light emitting lamp stand according to a fifth embodiment of the present invention. In the double-sided light emitting lighting stand according to the fifth embodiment of the present invention illustrated in FIG. 7, the substrate 511 of the lighting module 510 includes two glass substrates 511a having conductive patterns 512 formed on one side thereof. It is adhered to both sides of the metal substrate 511b, it may be installed so that the light emitting device 513 is arranged on the conductive pattern 512 and for the other configurations in the double-sided light emitting lighting stand 100 according to the first embodiment Since it has been described in detail, the description thereof will be omitted.

Each of the glass substrates 511a uses an adhesive that is an insulating and bonding material including any one of polyester, epoxy, silicon, and polyvinyl acetate on both sides of the metal substrate 511b on which the conductive pattern 512 is not formed. They may be attached to each other, or may be attached using fastening members such as bolts or brackets.

8 is a perspective view illustrating a double-sided light emitting stand according to a sixth embodiment of the present invention.

The double-sided light emitting lighting stand 600 according to the sixth embodiment of the present invention illustrated in FIG. 8 indicates that the lighting module 610 is mounted side by side in the stand 620. Since it was described in detail in the double-sided light emitting stand 100 according to the description thereof will be omitted.

The operation of the double-sided light emitting stand according to the present invention will be described.

According to the double-sided luminous lighting stand according to the present invention, by enabling the two-sided light emission to enable direct or indirect lighting for not only the specific area but also other areas, thereby having a function as the room lighting For convenience, the light emitting element is made of an LED element or an EL element, which not only increases the use cycle but also reduces power consumption.

In addition, the metal substrate installed in the lighting module has excellent heat dissipation efficiency, so that even if a high output light emitting device is used, it is advantageous for heat dissipation, thus eliminating the need for additional design for heat dissipation, thereby enabling high functionality at low cost. In addition to improving the reliability of the operation, it is possible to prevent the deterioration of life and the deterioration of functions due to heat.

As described above, the double-sided light emitting lighting stand according to the present invention has been described with reference to the accompanying drawings, but various modifications and changes can be made without departing from the spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

110,210,310,410,510,610: lighting module
111,211,311,411,511: substrate
112,212,312,412,512: conductive pattern
112a: negative electrode
112b: extreme
112c: conductive strip
112d, 112e: Terminal
113,213,313,413,513: Light emitting device
120,620: Stand
121: control panel
122: coupling part
123: the neck
211a, 511a: glass substrate
311a, 411a: non-conductive membrane
411b, 511b: Metal substrate

Claims (7)

As a double-sided light emitting stands,
Conductive patterns are formed on both sides of the substrate, respectively, and the lighting module is attached to each of the conductive patterns to be connected to each of the light emitting device to enable light emission;
The lighting module is fixed so that power is supplied to the lighting module, and is installed on the ground to support the lighting module, and includes a stand provided with an operation unit for controlling the operation of the lighting module,
The substrate,
2 is made of a single glass substrate on both sides of the conductive pattern is formed, or on the one side of each of the conductive patterns are formed on each of the two glass substrates are bonded to each other, or one side of the conductive pattern is formed A two-sided light emitting lamp stand, wherein a long glass substrate is bonded to both sides of a metal substrate.
delete delete delete delete delete The method of claim 1,
The conductive pattern has a cathode end and an anode end, and a conductive strip is provided between the cathode end and the anode end as a single or a plurality are installed side by side in parallel, and the conductive strip has a plurality of broken portions, and the conductive Breaking portions of the strip are connected to each other by the light emitting device, and a pair of terminals are respectively connected to the cathode terminal and the anode terminal, and power is applied to the cathode terminal and the anode terminal through the terminal to emit light. To emit light,
The light emitting device is a two-sided light emitting lighting stand, characterized in that made of any one of the LED element and EL element soldered or wire bonded to the conductive strip.

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