JP3176692U - Block LED light - Google Patents

Abstract

A block LED light that can be easily changed by making the LED light into blocks and combining them according to a user's request.
A block LED light, a case, an embedded trough, an embedded post, a switch, and a power connection port are included. The block LED light 12 can use an internal battery power source of a battery mounted inside the case 13. At the bottom of the case 13 including the power connection port 22, the battery inside the case 13 can be charged by connecting the power connection port 22 to a power source. In addition, the bottom of the case 13 includes a switch 21 that controls on / off of the power of the LED light module. Furthermore, the LED light which consists of a some block LED light can be comprised by connecting the embedding pillar 15 with the embedding trough 14 of another block LED light for a block LED light.
[Selection] Figure 2

Description

  The present invention relates to a block LED (light emitting diode) light, and in particular, a plurality of block LED lights can be assembled into an arbitrary shape, and a power connection port can be employed in an LED light module, thereby providing an end. The present invention relates to what enables a user to select different types of block LED lights according to different requirements and purposes.

  A conventional LED (light emitting diode) light is realized by a case, an LED light module, and a lamp shade. The LED light module is mounted in the case, and the lamp shade is connected to the case to hide the LED light module. High-power LED lights generate a lot of heat during operation, and the temperature rises. The high temperature also affects the life of the LED lights. Therefore, this type of LED light additionally includes a thermal module in its configuration, and this thermal module is connected to the LED light to enhance thermal performance.

  The shape of the conventional LED light is determined by the case and the lamp shade, and the shape of the case and the lamp shade is fixed and the size cannot be changed. Some LED lights use external thermal modules, which are integrated by heat sinks of different shapes, but are similarly fixed in shape and cannot be changed according to user requirements. Therefore, the user has to examine and select the optimum LED light from among different shapes and sizes of LED lights depending on the actual environment and supply, and this investigation process usually takes a lot of time. However, it may even fail to find the optimal LED light that can meet the user's requirements.

  In addition, the power of conventional LED lights is also fixed without modification, so LED lights that can meet the requirements of shape and size can not meet the power requirements, so buy a suitable LED light Increases difficulty. Also, once the layout design is changed, the original LED light module cannot meet the latest requirements and a new LED light must be re-examined and repurchased.

  On the other hand, regardless of whether it is a general LED light or a high power LED light, these types of conventional LED lights all use a single case configuration, and both the LED light module and the power are in the same case. Integrated. For example, the case of a mobile LED light includes a space for housing an LED light module and a battery that provides power to the LED light module. For a fixed LED light, the LED light module and the power connection port are the same case. Integrate inside. The power connection port is connected to the LED light module and also to the power socket, and the LED light module is electrically connected to the power source via the power line.

  In the conventional LED light, since the LED light module and the power unit are integrated into one single case, the LED light module and the power unit cannot be separated, and the user has an accident such as power-off. In the state, it is not possible to select and replace different types of power sources according to different requirements, such as being unable to remove the fixed lamp that is electrically connected to the power source for connecting directly to the battery as an emergency fluorescent light, The user must prepare several different types of lamps to meet different purpose requirements. Some conventional LED lights can provide a dual type power source that selects a battery source or a power source, but the battery storage space of the LED light case is supplied with power from a power source. While the power connection port or power cord that connects to the power source cannot be removed even when powered by the battery, conventional LED lights are slightly larger End up.

The prior art has several disadvantages.
1. Regarding the conventional LED light, the shape of the LED light is determined by the case and the lamp shade, and the shape and size of the case and the lamp shade cannot be changed according to the user's request.
2. Regarding the conventional LED light, the power of the LED light is also fixed and cannot be changed according to the user's request.
3. Regarding the conventional LED lights, the model specifications of the LED lights are fixed, and it is not easy to find an optimal LED light that completely satisfies all requirements.
4. For conventional LED lights, the user cannot change the different types of power sources according to the user's requirements or requirements.
5. With respect to conventional LED lights, the LED lights are suitable for use in a single environment, so the end user must prepare multiple different types of lamps that meet different requirements and purpose requirements.
6. With respect to conventional LED lights, some of the LED lights can choose whether to supply power from a battery or from a power source, but the battery storage space is supplied by the power source On the other hand, the power cord or the power connection port cannot be removed while being supplied with the battery, so that the space for the LED light is slightly increased.

  Therefore, the subject of the present invention relates to a method for improving the above disadvantages of the conventional solution for changing the shape and power of the LED light according to the requirements and requirements of the user and to connect to different types of power sources. is there.

  The purpose of the present invention is to design two corresponding connections on the surface of the case, for example, corresponding components such as embedded pillars and embedded troughs, a set of magnets, or a magnet and a piece of metal plate, It is possible to integrate the block LED light with other block LED lights having the same configuration through these corresponding connections, and the user requirements and requirements for the number, total power consumption, shape and model of the block LED lights to be assembled Is to provide a new and advanced block LED light that can meet the user's preference. On the other hand, the LED light module and the power part can be designed in two different cases, these two different cases support the corresponding connection part on the surface, and when these two cases are integrated, the LED The light module can be electrically connected to the power source. In this way, the user can integrate the LED light with a suitable power source according to actual requirements and requirements.

According to the present invention, the present invention provides a novel and progressive block LED light including the following components. What is a component?
The first case;
An LED light module designed in the first case;
A first connecting portion designed on the surface of the first case;
A second connecting portion designed on the other surface of the first case;

  The first connection portion can connect another second block LED light having the same structure to the second connection portion of the first block LED light by the first connection portion corresponding to the second connection portion. A plurality of LED lights can be assembled by a method that allows another third block LED light having the same structure to be connected to the second connection part of the second block LED light by the first connection part. To.

  According to the block LED light, the first connection portion includes at least one embedded pillar, the second connection portion includes at least an embedded trough, and the configuration of the embedded pillar must correspond to the embedded trough. Instead, this block LED light is connected to the embedded trough (or embedded pillar) of another block LED light by the corresponding embedded pillar (or embedded trough).

  According to the block LED light, the first connection portion has a first magnet, the second connection portion has a second magnet, and the block LED light is formed by using the first magnet. Connected to the second magnet and integrated with the second block LED light.

  According to the block LED light, the power port of the LED light module extends to the first connection part and the second connection part, and when a plurality of block LED lights are integrated, they are electrically connected in series or in parallel. It becomes possible.

  The block LED light further includes one first conductive component, one second case, one power connection, one second conductive component, and one third connection, One conductive component is designed on the surface of the first case and electrically connected to the LED light module, and this power connection is designed in the second case and electrically connected to one power source. Designed to connect, the second conductive component and the third connection are designed on the surface of the second case, and the second conductive component is electrically connected to the power connection The third connection portion of the second case and the first connection portion of the first case correspond to each other, and the first case and the second case correspond to the first connection portion of the first case and By the third connection part of the second case When the first connection part of the first case is integrated with the third connection part of the second case so that the first conductive component of the first case is integrated, The LED light module is electrically connected to a power source by electrically connecting to the second conductive component of the case.

  According to the block LED light, the first conductive component and the second conductive component are conductive plates.

  According to the block LED light, the power source connection unit is a power connection port, and the power source is a grid.

  According to the block LED light, the second case includes one storage space, and the power source is a battery included in the storage space.

  According to the block LED light, the first connection part of the first case includes at least one embedded pillar, and the third connection part of the second case includes at least one embedded trough, the embedded pillar. Corresponds to the embedded trough, and the second connecting portion of the first case is integrated with the third connecting portion of the second case by embedding these embedded pillars and embedded trough.

  According to the block LED light, the first connection part of the first case includes one first magnet, the third connection part of the second case includes one second magnet, The first connection portion of the case is integrated with the third connection portion of the second case by attracting the first magnet and the second magnet.

  According to the block LED light, the first connection part of the first case includes one magnet, the third connection part of the second case includes a piece of metal plate, The first connection part is integrated with the third connection part of the second case by attracting the magnet and the metal plate.

  According to the block LED light, the first connection portion of the first case includes a piece of metal plate, the third connection portion of the second case includes a magnet, and the first connection portion of the first case. The connecting portion is integrated with the third connecting portion of the second case by attracting the magnet and the metal plate.

The present invention has several advantages as follows.
1. According to the embodiment of the block LED light according to the present invention, the user can change the assembled shape and size by changing the number and shape of the assembled block LED lights.
2. According to the embodiment of the block LED light according to the present invention, the user can obtain the optimum LED light by adjusting the number of assembled block LED lights and the overall power consumption.
3. According to the embodiment of the block LED light according to the present invention, the block LED light can be disassembled or reassembled by modifying the decoration, and part of the block LED light is urgently requested for the light source It is very convenient because it can be disassembled temporarily.
4. According to the embodiment of the block LED light according to the present invention, the user can use different power types according to requirements and requirements.
5. According to the embodiment of the block LED light according to the present invention, each can be used in different environments, and even one single block LED light can meet different requirements of the purpose of use.

  In summary, according to the embodiment of the block LED light according to the present invention, it is very simple and efficient to change the number, shape, size, overall power consumption and power type to assemble, progressive and convenient It is a solution. Modifications to the design described for this invention, such as using different types of corresponding connections, using differently shaped cases on different types of LED light modules, or using other types of conductive components. However, if there is at least one set of corresponding connection parts designed on the case of the LED light, a plurality of the LED lights can be assembled as a block, all of the claimed type covered by the present invention. is there.

  While details have been set forth to describe particular embodiments of the invention, various modifications and improvements can be made without departing from the spirit and scope of the invention. Accordingly, the invention is not limited except as by the appended claims.

1 is a schematic diagram of a system configuration of an embodiment of a block LED light using one single case according to the present invention. 1 is a schematic diagram of a bottom configuration of a system of an embodiment of a block LED light using one single case according to the present invention. FIG. FIG. 3 is a schematic view of an assembly configuration of an embodiment of a plurality of block LED lights using one single case according to the present invention. 1 is a schematic configuration diagram of an embodiment of a block LED light using a grid power supply according to the present invention. 1 is a schematic configuration diagram of an embodiment of a block LED light using a battery power source according to the present invention. 1 is a schematic configuration diagram of an embodiment of a block LED light using a rechargeable battery power source according to the present invention. It is the structure schematic of embodiment which assembles the some LED light which concerns on this invention.

  The present invention may be better understood through the following description with reference to the accompanying drawings.

  FIG. 1 is a schematic diagram of a system configuration of an embodiment of a block LED light using a single case according to the present invention including a lamp shade 11, a block LED light 12, a case 13, an embedded trough 14 and an embedded pillar 15. . The block LED light 12 of the present invention is mainly implemented by a lamp shade 11, an LED light module, and a case 13. The LED light module is designed in the case 13, the lamp shade 11 is connected to the case 13, and the LED light module is hidden in the space formed by the connection between the lamp shade 11 and the case 13. Since the lamp shade 11 is made of a transparent material, the light emitted by the LED light module can be transmitted through the lamp shade 11. There is a corresponding set of connections on the surface of the case 13, and these two corresponding connections can be implemented by at least one set of corresponding embedded troughs 14 and embedded posts 15. Therefore, the embedded trough 14 (embedded column 15) of the block LED light 12 is integrated with the embedded column (embedded trough) of another block LED light realized with the same structure, and these two block LED lights are connected. Can do. Based on the structural design of the embedded trough 14 and the embedded pillar 15, the plurality of LED lights 12 having the same configuration can be integrated like an integrated block. Of course, the corresponding connection on the surface of the case 13 can also be implemented by two corresponding magnets, or one magnet and one piece of metal plate. Therefore, the user can freely integrate any number of block LED lights 12 according to requirements and requirements, and can change the power consumption, shape and size by modifying the number of block LED lights 12. It is very easy to obtain an LED light that is optimal for the actual requirements. Furthermore, once the interior decoration is changed, these integrated LED lights can be disassembled in a very simple manner. The partial block LED light 12 can also be disassembled as a temporary light source and reassembled after use.

  FIG. 2 is a block LED light embodiment system using one single case according to the present invention including one block LED light 12, case 13, embedded trough 14, embedded post 15, switch 21 and power connection port 22. It is the schematic of a bottom part structure. The block LED light 12 can use an internal battery power source of a battery mounted inside the case 13. At the bottom of the case 13 including the power connection port 22, the battery inside the case 13 can be charged by connecting the power connection port 22 to a power source. In addition, the bottom of the case 13 includes a switch 21 that controls on / off of the power of the LED light module.

  FIG. 3 is a schematic view of an assembly configuration of an embodiment of a plurality of block LED lights using one single case according to the present invention including the block LED light 12, embedded troughs 31, 32 and embedded pillars 33, 34. FIG. The plurality of block LED lights 12 can be assembled by integrating the embedded troughs 31 and 32 with the embedded pillars 33 and 34. Each electric plug of the LED light module in each block LED light 12 can extend toward the embedded troughs 31 and 32 and the embedded pillars 33 and 34. When these block LED lights 12 are assembled, the LED light module Have an electrical series or parallel structure. For example, all the positive electrode ports of the LED light module extend upwardly toward the embedded trough 32 and the embedded pillar 34, and all the negative electrode ports of the LED light module extend downwardly toward the embedded trough 31 and the embedded pillar 33. When it is extended, it becomes an electrically parallel structure, and all the positive electrode ports of the LED light module are extended to the embedded trough 31 (or 32), and all the negative electrode ports of the LED light module are connected to the embedded pillar 33 (or 34). When extended, an electrical series structure is obtained.

  FIG. 4 illustrates a block LED light using a grid power source according to the present invention including cases 41 and 42, an LED light module 411, a lamp shade 412, connection portions 413 and 421, conductive components 414 and 422, and an electrical connection port 423. It is a composition schematic diagram of an embodiment. The power unit of the LED light according to the present invention can be assembled in the form of a block. There is a housing space inside the case 41, and the LED light module 411 is formed in the housing space in the case 41. The lamp shade 412 covers the accommodation space of the case 41 and also covers the LED light module 411. There is a power connection port 423 designed on the surface of the case 32, and it is electrically connected to the grid power supply through one electric cord. The case 41 including the connection portion 413 and the conductive component 414 has at least one surface, and the LED light module 411 electrically connects all the conductive components 414 on the surface of the case 41. The case 42 including the corresponding connection part 421 and the conductive component 422 has at least one surface, and the electrical connection port 423 electrically connects all the conductive components 422 on the surface of the case 42. Based on the design of the connecting portions 413, 421 and the conductive components 414, 422, the case 41 can be integrated with the case 42 via corresponding connecting portions on the bottom surface of the case 41 and the top surface of the case 42 ( In this schematic diagram, the connection portion between the bottom surface of the case 41 and the top surface of the case 42 is not known). When the connecting portions of the case 41 and the case 42 are connected to each other, the conductive component at the bottom of the case 41 is electrically connected simultaneously with the conductive component at the top of the case 42 (in this schematic view, the case 41 The conductive components on the bottom surface and the top surface of the case 42 are not known), and the LED light module 411 can be electrically connected to the grid power supply and can be supplied by grid power.

  FIG. 5 is a schematic configuration diagram of an embodiment of a block LED light using a battery power source according to the present invention, including cases 31, 32, an LED light module 411, a lamp shade 412, a connection part 413, 431, and a conductive component 414. is there. The present invention is not limited to the LED light module that is powered by a grid power supply, but may be powered by other types of power. According to FIG. 5 of the present invention as an example of a battery power supply model, a power connection portion is designed inside the case 43, a housing space for including the battery is designed, and the power connection portion inside the case 43 is electrically connected. . The upper surface of the case 43 includes conductive components corresponding to the connection portions and the bottom portion of the case 41 (in this schematic diagram, the corresponding connection portions and conductive components on the bottom portion of the case 41 and the upper portion of the case 43 are not known. ), The conductive component on the upper surface of the case 43 is electrically connected to the internal power connection portion and is electrically connected to the battery inside the case 43. Therefore, once the case 41 is connected to the case 43 via the corresponding connection portion at the bottom of the case 41 and the top of the case 43, the conductive component at the bottom of the case 41 is electrically connected to the conductive component at the top of the case 43. Thus, the LED light module 411 mounted inside the case 41 can be electrically connected to the battery inside the case 43, and power is supplied to the LED light module 411 by the battery.

  FIG. 6 shows a rechargeable battery according to the present invention including cases 41, 42, 43, LED light module 411, lamp shade 412, connection parts 413, 421, 431, conductive components 414, 422, and power connection port 423. It is the structure schematic of embodiment of the block LED light using a power supply. The case 42 can also be connected to the bottom of the case 43, and the battery designed inside the case 43 is connected via a conductive component on the top side of the case 42 and a conductive component on the bottom side of the case 43. The battery can be electrically connected, and is electrically connected to the grid power supply via the electrical connection port 423 to charge the battery inside the case 43.

  According to the embodiment of the block LED light according to the present invention, the conductive components 414, 422 designed on the surfaces of the cases 41, 42, 43 may be metal plates having high conductivity. The connecting portions 413, 421, and 431 designed on the surfaces of the cases 41, 42, and 43 may be corresponding embedded pillars and embedded troughs, and the case is assembled through the embedded structure. The connection portions on the respective surfaces of the cases 41, 42, and 43 may be all embedded pillars, all the embedded troughs, or both. For example, all the connection portions on the upper side surface of the case 42 are embedded. Even a pillar, all the connecting portions on the bottom side surface may be embedded troughs. Of course, the connection portions 413, 421, 431 designed on the surfaces of the cases 41, 42, 43 may all be a corresponding magnet or a combination of a magnet and a metal plate. assemble.

  Therefore, according to the embodiment of the block LED light according to the present invention, when the user is in an indoor environment, the case 41 of the LED light module 411 can be connected to the case 42 including the power connection port shown in FIG. Then, power is supplied to the LED light module 411 by a grid power source. When the user is in an outdoor environment, the case 41 of the LED light module 411 can be connected to the case 43 including the battery shown in FIG. 5, and power is supplied to the LED light module 411 by the battery. When the battery needs to be charged, the user can connect to the grid power supply, supply power to the LED light module 411, and charge the battery in parallel as shown in FIG.

  FIG. 7 is a schematic configuration diagram of an embodiment for assembling a plurality of LED lights including block LED lights 71, 72, 73 according to the present invention. The LED light 71 according to the present invention can be connected to other block LED lights 72 and 73 having the same configuration via a connection part designed on the surface of the case, and the conductive components on the surface or each case can be connected. For example, when the plurality of block LED lights are assembled because they already have an electrical connection such as a series structure or a parallel structure, the block LED lights are also electrically connected. Power can be received from the source.

11 Lamp shade 12 Block LED light 13 Case 14 Embedded trough 15 Embedded pillar 22 Power connection port

Claims (14)

The first case;
An LED light module in the first case;
A first connection portion on a surface of the first case;
A second connecting portion on the surface of the first case,
The first connection portion corresponds to the second connection portion, and another second block LED light having the same configuration is assembled with the second connection portion of the block LED light using the first connection portion. And a third block LED light can be assembled with the first connection part of the block LED light using the second connection part. Block LED light that can be assembled.   The first connection part includes at least one embedded pillar, the second connection part includes at least one embedded trough, the structure of the embedded pillar corresponds to the embedded trough, and the block LED light includes other The block LED light according to claim 1, wherein an embedded pillar (embedded trough) combined with an embedded trough of the block LED light is used.   The first connection part includes one first magnet, the second connection part includes a second magnet, and the block LED light uses the first magnet to form the first of the other block LED lights. The block LED light according to claim 1, wherein the block LED light is assembled with another block LED light by attracting two magnets.   The first connection part includes one first magnet, the second connection part includes a piece of metal plate, and the block LED light uses the first magnet to form another block LED light. The block LED light according to claim 1, wherein the block LED light is assembled with another block LED light by attracting the metal plate.   The power connection port of the LED light module extends toward the first connection part and the second connection part. When the plurality of block LED lights are assembled, the plurality of block LED lights are electrically connected in a series structure or a parallel structure. The block LED light of Claim 1 connected to.   A first conductive component; a second case; a power source connection port; a second conductive component; and a third connecting portion; wherein the first conductive component is connected to the first case. Designed on the surface and electrically connected with the LED light module, the power source connection port is designed on the second case and electrically connected with one power source, and the second conductive component and The third connection part is designed on the surface of the second case, the second conductive component is electrically connected to the power source connection port, and the third connection part of the second case is Corresponding to the first connection part of the first case, the first case is connected to the second case through the connection of the first connection part of the first case and the third connection part of the second case. The first case of the first case. When the connecting portion is connected to the third connection portion of the second case, the first conductive component of the first case is electrically connected to the second conductive component of the second case, The block LED light of claim 1, wherein the LED light module is electrically connected to the power source.   The block LED light according to claim 6, wherein the first conductive component and the second conductive component are conductive plates.   The block LED light according to claim 6, wherein the power source connection unit is a power connection port, and the power source is grid power.   The block LED light according to claim 6, wherein the accommodation space is inside the second case, and the power source is a battery designed in the accommodation space.   The connection part of the first case includes at least one embedded pillar, the third connection part of the second case includes at least one embedded trough, and the structure of the embedded pillar corresponds to the embedded trough. The block LED light according to claim 6, wherein the first connection part of the first case is assembled with the third connection part of the second case via the embedded pillar and the embedded trough.   The first connection portion of the first case includes at least one embedded trough, the third connection portion of the second case includes at least one embedded column, and the configuration of the embedded trough includes the embedded column The block LED light according to claim 6, wherein the first connection portion of the first case is assembled with the third connection portion of the second case via the embedded pillar and the embedded trough.   The first connection part of the first case includes one first magnet, the third connection part of the second case includes one second magnet, and the first connection part of the first case. The block LED light according to claim 6, wherein the block LED light is assembled with the third connection portion of the second case by attracting the first magnet and the second magnet.   The first connection part of the first case includes one magnet, the third connection part of the second case includes a piece of metal plate, and the first connection part of the first case includes the The block LED light according to claim 6, wherein the block LED light is assembled with the third connection portion of the second case by attracting a magnet and the piece of metal plate.   The first connection part of the first case includes a piece of metal plate, the third connection part of the second case includes one magnet, and the first connection part of the first case includes the The block LED light according to claim 6, wherein the block LED light is assembled with the third connection portion of the second case by attracting a magnet and the piece of metal plate.

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