Provided is a single integral power connection apparatus of a backlight unit with a pressure cam that compresses a lamp lead receiver including plate springs using an elastic restoring force of a cam spring such that the lamp lead receiver comes in contact with a lead of a CCFL to supply power to th
Provided is a single integral power connection apparatus of a backlight unit with a pressure cam that compresses a lamp lead receiver including plate springs using an elastic restoring force of a cam spring such that the lamp lead receiver comes in contact with a lead of a CCFL to supply power to the CCFL. The power connection apparatus includes a base disposed on a substrate of the backlight unit, the lamp lead receiver having a space defined for receiving the lead by a pair of the bent plate springs disposed on the base, a lamp lead guide disposed on the base for supporting the lead of the lamp, a lamp tube guide disposed on the base for supporting a tube of the lamp, the elastic cam spring applying the restoring force, and the pressure cam for pressing the lamp lead receiver using the restoring force of the cam spring.
대표청구항▼
What is claimed is: 1. A power connection apparatus of a direct type backlight unit for supplying power from an inverter to a lamp having a protruded lead, the power connection apparatus comprising: a base disposed on a substrate of the backlight unit; a lamp lead receiver having a space defined fo
What is claimed is: 1. A power connection apparatus of a direct type backlight unit for supplying power from an inverter to a lamp having a protruded lead, the power connection apparatus comprising: a base disposed on a substrate of the backlight unit; a lamp lead receiver having a space defined for receiving the lead by a pair of bent plate springs disposed on the base; a lamp guide disposed on the base for stably supporting the lamp; an elastic cam spring applying a restoring force; and a pressure cam surrounding the lamp lead receiver and having a space to allow the pressure cam to be in contact with the lamp lead receiver, wherein the pressure cam deforms the cam spring when an external force is applied to the pressure cam, and the pressure cam presses the lamp lead receiver using the restoring force of the cam spring when the external force is removed. 2. The power connection apparatus of claim 1, wherein the lamp lead receiver comprises a pair of plate springs that extend from the base and are bent at middle portions of the plate springs to make end portions of the plate springs be in contact with each other, wherein each of the plate springs includes a pressure plate spring in an outer portion thereof and a contact plate spring in an inner portion thereof, wherein the contact plate springs include a recess in each of the end portions to form a lead contact portion capable of contacting the lead of the lamp. 3. The power connection apparatus of claim 2, wherein when the pressure cam is pressed by an external force to mount the lamp, the plate springs are released to incline the pressure plate springs at an angle θ1 and the contact plate springs at an angle θ2 so that the lead contact portion is opened, and when the external force is removed from the pressure cam after the lamp is mounted, the pressure cam is released to continuously press the pressure springs using the restoring force of the cam spring such that the pressure plate springs incline at an angle θ1' less than the angle θ1, and the contact plate springs incline at an angle θ2' less than the angle θ2, so that the lead contact portion comes in contact with the lead of the lamp. 4. The power connection apparatus of claim 3, wherein an angular variation (θ1-θ1') between the pressure plate springs is equal or greater than the angular variation (θ2-θ2') between the contact plate springs. 5. The power connection apparatus of claim 1, wherein the lamp lead receiver further comprises a pair of plate springs that extend from the base and are bent at middle portions of the plate springs to make end portions of the plate springs be in contact with each other, wherein each of the plate springs includes a pressure plate spring in an outer portion thereof and a contact plate spring in an inner portion thereof, wherein the contact plate springs include recesses to form a lead contact portion capable of contacting the lead of the lamp, and hooks for engaging with the pressure cam. 6. The power connection apparatus of claim 5, wherein when the pressure cam is released, the plate springs of the lamp lead receiver are also released so that the pressure plate springs and the contact plate springs incline outward at predetermined angles to make the lead contact portion be opened, and when the pressure cam is pressed by an external force, the pressure plate springs are compressed inward by the pressure cam, and after the pressure cam is disposed under the hooks, the external force is removed to release the pressure plate springs outward again so that the pressure cam is engaged with the hooks, and the pressure cam continuously presses the pressure plate springs using the restoring force of the cam spring so that the pressure plate springs and the contact plate springs are compressed to make the lead contact portion be in contact with the lead of the lamp. 7. The power connection apparatus of claim 1, wherein the cam spring is one of a "C" shaped bent plate spring extending upward from one end of the base and a multiple bent plate spring extending upward from the end of the base. 8. The power connection apparatus of claim 1, wherein the lamp lead receiver comprises a pair of plate springs that extend from the base and are bent outward at middle portions of the plate springs with a predetermined gap that is arranged to receive the lead of the lamp, and when the lamp is not mounted, the cam spring connected to a plate including a lamp tube guide is released, and when the pressure cam is coupled with the lamp lead receiver after the lamp is mounted, the restoring force of the cam spring is applied to the pressure cam to press the plate springs, wherein each of the plate springs includes a pressure plate spring in an outer portion thereof and a contact plate spring in an inner portion thereof, wherein the pressure plate springs include hooks for engaging with the pressure cam, and the contact plate springs include protrusions for holding the lead. 9. The power connection apparatus of claim 8, wherein when the pressure cam is released, the lead of the lamp is allowed to be inserted between the contact plate springs, and when the pressure cam is pressed by an external force, the pressure plate springs are compressed inward by the pressure cam, and after the pressure cam is disposed under the hooks, the external force is removed to release the pressure plate springs outward again so that the pressure cam is engaged with the hooks, and the pressure cam presses the pressure plate springs using the restoring force of the cam spring so that the pressure plate springs elastically deform, and gaps between the pressure plate springs and the contact plate springs are reduced to make the contact plate springs be in contact with the lead in proportion to variations of the gaps. 10. The power connection apparatus of claim 1, further comprising a tab extending upward from the base, wherein the tab is connected to a receptacle coupled to one end of a power connection wire with the other end connected to the inverter so that power is supplied to lamps, respectively. 11. The power connection apparatus of claim 1, further comprising a tab extending downward from the base, wherein the tab is directly connected to a power connector of the backlight unit so that power is supplied to lamps, respectively. 12. The power connection apparatus of claim 1, further comprising a tab contact portion capable of contacting a power tab of the backlight unit so that power is supplied to lamps, respectively. 13. The power connection apparatus of claim 1, wherein the lamp guide comprises: a lamp tube guide provided to the base for stably supporting a tube of the lamp; and a lamp lead guide provided to the base for stably receiving the lead. 14. The power connection apparatus of claim 13, wherein the lamp tube guide has a hole less than a diameter of the lamp so that the lamp is forced into the hole to prevent the lamp from being released. 15. The power connection apparatus of claim 1, wherein the lamp lead receiver comprises a pair of plate springs that extend from the base, each of the plate springs including: a pressure plate spring protruding outward from a middle portion of the plate spring; a contact plate spring portion bent inward from both edge of the plate spring; and a hook bent outward from an end of the plate spring. 16. The power connection apparatus of claim 1, wherein the lamp lead receiver comprises a pair of plate springs that extend vertically from the base and face each other, each of the plate springs including: contact plate springs bending from both ends of the plate spring and having a facing surface capable of contacting the lead of the lamp; a pressure plate spring extending outward to protrude from a middle portion of an opposite side of the facing surface; and a hook disposed in an upper portion of the plate spring for engaging with the pressure cam. 17. The power connection apparatus of claim 1, wherein the lamp lead receiver comprises a pair of plate springs that extend from the base and face each other, each of the plate springs including: a contact-pressure plate spring protruding inward from a middle portion of the plate spring for contacting and pressing the lead of the lamp; and hooks disposed in an outer portion of the plate spring for engaging with the pressure cam.
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이 특허에 인용된 특허 (9)
Key Edward H. ; Boyd Steven M. ; Thomas Ronald E. ; Walker Richard P., Angled IDC lamp socket assembly.
Higano Masato (Tochigi JPX) Yanagida Munehiko (Utsunomiya JPX) Sato Tetsuya (Utsunomiya JPX) Yanagiya Masakazu (Utsonomiya JPX), Socket with a lamp without a metallic base.
Kanda Toshiyuki (Chigasaki JPX) Tajima Hisao (Yokohama JPX) Takabayashi Hiroshi (Kawasaki JPX) Yamamoto Takashi (Yamato JPX) Mori Hideo (Fujisawa JPX), Surface lighting device and a display having such a lighting device.
Kanda, Toshiyuki; Tajima, Hisao; Takabayashi, Hiroshi; Yamamoto, Takashi; Mori, Hideo, Surface lighting device and a display having such a lighting device.
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