TWM397487U - Heat dissipation lamp cup - Google Patents

Description

M397487 V. New description: [New technical field] The present invention relates to a heat dissipation structure, in particular to a heat dissipation lamp cup structure of a lamp. [Prior Art] When an electronic device is in operation, most of the "heat" is generated due to the resistance in the system. Usually, the higher the power of the electronic device, the more heat it generates. However, in general, as the temperature of the operating environment increases, the service life of electronic equipment will also decrease. Therefore, "heat dissipation" and how to reduce heat generation are issues that must be considered in the development process of various electronic devices. Taking luminaires as an example, the use of "fins" as a design to assist heat dissipation is already widely used in luminaire design. The first figure is a finned heat dissipation structure 100 of the prior art. The above fin heat dissipating structure 100 has a through hole 120 formed by a solid tube wall, and a plurality of fins 140. The fins 140 are centered on the via holes 120 and extend outwardly. The above-mentioned fin heat dissipation structure 100 is generally used by attaching the electrical component of the lamp to the cross section of the wire hole 120, and the wire of the electrical component passes through the wire hole 120 to be connected to an external power supply device or Other electronic devices. According to this arrangement, the heat generated by the above-mentioned electrical component 3 M397487 is first transmitted to the section in contact with the electrical component, and then transmitted to the fin 140 to achieve the effect of cooling the electrical component. Another common use of the above fin heat dissipating structure 100 is to accommodate a portion of the electrical component in the via hole 120, and a portion of the electrical component is attached to the cross section of the via hole. The function of the above fin heat dissipating structure 100 is to reduce the temperature of the use of the electrical component. The heat conduction mode of the above fin heat dissipating structure 100 is to conduct heat away from the electrical component by contacting the electrical component with the cross section, so as to prevent the electrical component from malfunctioning or shortening the service life due to overheating. However, with limited contact area, the amount of heat transfer per unit time will also be limited. Therefore, how to develop a heat-dissipating lamp cup structure that can effectively assist the rapid cooling of electrical components is an important and industrial value work in a limited design of the luminaire space. [New content] In view of the above background, in order to meet the industrial needs, the present invention provides a heat-dissipating lamp cup structure, and the above-mentioned heat-dissipating lamp cup structure can not only effectively improve heat dissipation efficiency, but better, according to the design of the present specification. Does not increase the size of the luminaire. One of the objects of the present invention is to provide a heat dissipating lamp cup structure. By designing the heat dissipating lamp cup structure according to the present specification, the heat generated by the illuminating elements of the luminaire can be simultaneously convected by conducting and convecting air, thereby achieving rapid The effect of heat dissipation. In accordance with the foregoing, the present specification provides a heat sink cup structure. The heat sink cup structure includes a lamp cup portion, a plurality of fins each extending independently from the receiving portion, and an annular portion. The first side of the lamp cup portion has a first accommodating space for accommodating the illuminating elements of the luminaire. The first end of each of the fins is connected to the lamp cup portion, and the second end of each fin extends independently toward the second side of the lamp cup portion. There is a gap between any two adjacent fins. The fin and the lamp cup portion may form a second accommodating space on the second side of the lamp cup portion to accommodate the electrical component of the lamp. The annular portion is provided at the second end of the fin. By designing the gap between adjacent fins, the electrical components of the above lamps can effectively achieve the effects of heat dissipation and temperature reduction. [Embodiment] The direction of the present invention discussed herein is a heat dissipating lamp cup structure. In order to thoroughly understand the novel, detailed steps and their composition will be presented in the following description. Obviously, the implementation of the present invention is not limited to the specific details familiar to those skilled in the art. On the other hand, well-known components or steps are not described in detail to avoid unnecessary limitations of the present invention. The preferred embodiment of the present invention will be described in detail below, but the present invention can be widely applied to other 5 embodiments in addition to the detailed description, and the scope of the present invention is not limited, and the scope of the following patent is quasi. According to one embodiment of the present specification, a heat sink cup structure is disclosed. The heat sink cup structure described above mainly comprises a lamp cup portion, a plurality of fins, and an annular portion. The first side of the lamp cup portion includes a first accommodating space, and the first accommodating space can be used to receive the illuminating element of the luminaire. The lamp cup portion may further include a plurality of mounting holes for fixing the light-emitting element to the first accommodating space of the lamp cup portion. The first end of each of the fins is connected to the lamp cup portion, and the second end of each fin extends independently to the second side of the lamp cup portion. According to the design of the embodiment, any one of the plurality of fins has a gap between two adjacent fins. The plurality of fins and the lamp cup portion may form a second accommodating space on the second side of the lamp cup portion. The second accommodating space described above can be used to accommodate the electrical components of the luminaire. The electrical component described above can be electrically coupled to the illuminating component of the luminaire via a via hole of the lamp cup. According to this embodiment, the annular portion may be connected to the second end of each of the fins. In a preferred embodiment of the present embodiment, the lamp cup portion may further include at least one raised portion. The raised portion may be provided on the second side of the lamp cup portion. According to the design of the present example, the electrical component of the luminaire may be fixed to the boss so that the electrical component does not directly contact the lamp cup. The electrical components described above may be rectifiers, controllers, M397487 or other electrical components well known to those skilled in the art. In another preferred embodiment of the present embodiment, the annular portion may include a plurality of fixing holes for fixing an upper cover to the annular portion. The upper cover may include a plurality of heat dissipation holes and at least one of the wire holes. In another preferred embodiment of the present embodiment, the heat sink cup structure may further include an electrical connecting component of the lamp. The electrical connecting component of the luminaire may be an electrical component disposed on the upper cover and electrically coupled to the second accommodating space via the via hole of the upper cover. According to the present example, the light-emitting element and the electrical component of the lamp can be electrically coupled to an external electrical device by the electrical connecting component of the lamp, wherein the electrical device can be a power supply device, An electrical switch, a stylized electrical control device, an electronic signal control device, or other electrical device known to those skilled in the art. According to the design of the embodiment, the above-mentioned electrical component is placed in an accommodating space having a plurality of ventilation gaps. In this way, in addition to being able to contact the conduction to dissipate heat through the fins, the cooling of the air can be accelerated by the air flow in the gap between the fins. Therefore, the design of this embodiment can provide a more efficient heat sink cup structure. Another embodiment in accordance with the present specification is directed to a heat sink cup structure. The second A diagram and the second B diagram are schematic views of the heat dissipating lamp cup structure according to the embodiment. Referring to FIG. 2A and FIG. 2B, according to 7 M397487*, the heat sink cup structure 200 of the present embodiment includes a lamp cup portion 220, a plurality of fins 240 each extending independently from the lamp cup portion 220, and a ring shape. Department '260. A first receiving space 210 is defined on the first side of the lamp cup portion 220. The first accommodating space 210 can be used to mount the illuminating elements of the luminaire. The above-mentioned 'light-emitting element may be a tungsten lamp, an inert gas lamp, a light-emitting diode (LED), an organic light-emitting element (OLED), or other known light-emitting device. φ Referring to the second A and second B, the first end of each fin 240 is connected to the lamp cup portion 220, and the second end of each fin 240 extends independently to the second side of the lamp cup portion 220. . According to the design of the embodiment, in the fin 240, there is a gap between any two adjacent fins 240. In this way, the fin 240 and the lamp cup portion 220 will form a cup-shaped second accommodating space 230. The annular portion 260 is disposed at the second end of the fins 240. The annular portion 260 can be connected to the second φ end of each of the fins 240 to maintain the shape of the second accommodating space 230. The second accommodating space 230 may be an electrical component for accommodating the luminaire. The electrical components described above can be rectifiers, controllers, or other electronic components well known to those skilled in the art. In a preferred embodiment of the present embodiment, the lamp cup portion 220 may further include at least two raised portions 222. The boss portion 222 may be disposed on the second side of the lamp cup portion 220. According to the design of the present example, referring to the second B, the above-mentioned electrical component may be fixed to the protrusion 222 by the fixing hole 224 of the protrusion 8 M397487 222, so that the above electrical component does not overlap with the lamp cup. The part 220 is in direct contact. In this way, the above-mentioned electrical heat generated in the operation can not only dissipate heat through the fins in a contact conduction manner, but also accelerate the cooling by the air flow in the gap between the fins. The lamp cup portion 220 may further include at least one wire hole 226. The light-emitting element disposed in the first accommodating space 210 and the electrical component disposed in the second accommodating space 230 for providing power or transmitting one or more connecting wires of the electrical signal The above-mentioned via holes 226 can be connected. The form of the above connecting line can be any of the patterns well known to those skilled in the art. According to the design of the embodiment, the lamp cup portion 220 may further include a plurality of fixing holes that can be used for fixing the light emitting element to the first accommodating space 210. As shown in FIG. B, the above-mentioned annular portion 260 may include a plurality of fixing holes 262. The fixing hole 262 of the annular portion 260 can be used to fix the upper portion of the annular portion. The upper cover may include a plurality of heat dissipation holes and at least one of the wire holes. * For the design of this manual, the third figure is an exploded view of the lighting fixture of the heat sink cup structure according to this specification. However, the design of the third figure is only used to illustrate that the heat sink cup structure disclosed in the specification of the specification according to one of the descriptions should not be limited to the third figure. 9 M397487 Another preferred embodiment of the present invention relates to a luminaire structure. Referring to the second figure, the first side of the heat lamp cup structure 31 包含 includes a light-emitting element 320 and a light-transmissive cover 330. The light-emitting element 32A described above may be disposed in the first accommodating space of the heat-dissipating cup structure 310. Light-emitting element 320 can be a tungsten filament lamp, an inert gas lamp, a light-emitting diode (LED), an organic light-emitting element (OLED), or other illuminating device known to those skilled in the art. The translucent cover 33A described above may be fixed to the heat dissipating cup structure 3U). The translucent cover 33A can be covered outside the light-emitting element 32 to protect the light-emitting element 320. More preferably, in accordance with one of the embodiments, the transmissive cover 33G can be "more focused, zoomed, or otherwise known to those skilled in the art." As shown, the second side of the heat sink cup cover _ Φ , , , 7+, , , 310 includes an electrical component 350, an upper cover 36, an upper sweat strip k, and an electrical coupling element 370. The electrical component 35〇 can be the protrusion of the first-six-color coffee β 弋 弋 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热 散热The illuminating element 32, the squaring, and the squaring component 350 may be rectifying control or other conventional components. The electrical group well known to the photographer is fixed to the heat sink cup structure. 350 a broadcast from the bulge of the ^ ^ U 'Electrical component υ in the operation of the heat generated in addition to the cup holder chess. Μ contact conduction through the heat sink, ◎ Μ 0 of the fins for heat dissipation Ή λ ^ j In addition, the air can be accelerated by the air gap μ, +, and 虱 of the gap between the fins of the heat sink cup code 3. The cover 360 may be a 10 M397487 annular portion that is fixed to the heat sink cup structure 310. The upper cover 360 may include a plurality of heat dissipation holes and at least one wire hole. The heat dissipation holes may be used to assist in lifting the heat dissipation lamp cup structure 310. The effect of cooling by air flow. Referring to the third figure, the electrical connecting component 370 may be a through hole provided in the upper cover 360 and electrically coupled to the electrical component 350. The light emitting component 320 and the electric The electrical component 350 can be electrically coupled to an external electrical device by the electrical connecting component 370, wherein the electrical device can be a power supply device, an electrical switch, and a programmable electrical control. A device, an electronic signal control device, or other electrical device known to those skilled in the art. In a preferred embodiment of the present embodiment, the electrical connection member 370 can be as shown in the third figure. The lamp connector is shown, so that the lamp according to the embodiment can be directly applied to a conventional lamp connector. In summary, the present specification discloses a heat lamp cup structure. The heat dissipation lamp cup structure includes a lamp cup portion, a plurality of fins, and an annular portion. The first side of the lamp cup portion includes a first accommodating space for accommodating the illuminating elements of the luminaire. The first end of the fin is connected to the lamp cup portion, and the second end of each fin extends independently to the second side of the lamp cup portion, and forms a second accommodating space with the lamp cup portion. The annular portion is connected to the second end of the fin. The second receiving space can be used to receive an electrical component of the lamp. According to the design of the specification, there is a gap between the two adjacent fins. These gaps can provide 11 M397487 for air convection, so that the electrical components of the above-mentioned lamps can transmit heat generated by the operation to the fins in addition to the contact mode, and can quickly dissipate heat by means of air convection. Achieve rapid cooling of the luminaire, thereby extending the life of the electrical components of the luminaire. Obviously, the present invention may have many modifications and differences as described in the above embodiments. It is therefore to be understood that within the scope of the appended claims, the invention may be The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention; all other equivalent changes or modifications which are not departing from the spirit of the present invention should be included in the following patent application. Within the scope. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a schematic diagram of a heat dissipation structure of a conventional art; the second A and second B are schematic views of a heat dissipation lamp cup structure according to an embodiment of the present specification; The three figures are schematic views of a luminaire structure in accordance with a specific embodiment of the present specification. Heat-dissipating lamp cup structure light-emitting element 310 [Main component symbol description] 100 Fin heat-dissipation structure 120 Through-hole hole 320 12 M397487 140 Baffle 330 Translucent cover 200 Heat-dissipating lamp cup structure 350 Electrical component 210 First accommodating space 360 Upper cover 220 Lamp cup portion 370 Electrical connection member 222 Raised portion 224 Fixing hole 226 Through hole 230 Second accommodating space 240 Tab 260 Annular portion 262 Fixed portion of annular portion 300 Lighting fixture with heat sink cup structure

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Claims (1)

_ 1 ·· 1 - —· - - _ 丨 November 2nd, slightly self-repaired i! Ί 丨:! 4 ί Replacement page 1. 々iip.Cj ~τ ~ — » ·* ----- ^ M397487 • · / J, VI. Patent application scope: 1. A heat-dissipating lamp cup structure, comprising: a lamp cup portion, the first side of the lamp cup portion comprising a first accommodating space for accommodating a illuminating component of a lamp a plurality of fins, wherein the first ends of each of the fins are connected to the lamp cup portion, and the second ends of each of the fins extend independently to the second side of the lamp cup portion, any two phases Having a gap between the fins, wherein the fins and the lamp cup portion form a second accommodating space on the second side of the lamp cup portion; and _ an annular portion, the annular portion Connected to the second end of each of the fins. 2. The heat sink cup structure according to claim 1, wherein the lamp cup portion further comprises at least two protrusions disposed on the second side of the lamp cup portion. 3. The heat-dissipating lamp cup structure according to the first aspect of the patent application, wherein the lamp cup portion further comprises a plurality of mounting holes for fixing the light-emitting component of the lamp to the first volume of the lamp cup portion. Set the space. 4. The heat sink cup structure according to claim 1, wherein the lamp cup portion further comprises at least one wire hole. 5. The heat sink cup structure according to claim 1 of the patent application, further comprising an upper cover, wherein the upper cover is fixed to the annular portion. 6. The heat sink cup structure according to claim 5, wherein the upper cover comprises a plurality of heat dissipation holes and at least one wire hole.夺: 参:· ^*· ' 14 9砵1!. 2 6 拥元 7. According to the scope of application of the second paragraph of the heat-dissipating lamp cup structure 1, the TElCi boss further includes a fixing hole, the fixing hole is used An electrical component of the luminaire is fixed to the protrusion, wherein the electrical component is electrically connected to the illuminating component of the luminaire. 8. The heat sink cup structure according to claim 6 of the patent application, further comprising an electrical connecting component of the lamp, wherein the electrical connecting component of the lamp is disposed on the upper cover. 15