RU170166U1 - LED Module Heatsink - Google Patents

Abstract

The claimed utility model relates to the design of lighting devices, is intended for the manufacture of LED lamps and relates, in particular, to the housing-radiator of the LED module. The technical result of the claimed utility model is to reduce the metal consumption of the housing-radiator, increasing the efficiency in heat transfer from the LED module to the housing-radiator , increasing the reliability of the device. The technical result achieved is that the casing-radiator of light contains a radiator profile, Inside which an aluminum cylinder is placed. The radiator profile is hollow, contains a T-shaped seat along the entire height of the outer profile wall, while grooves are formed in the inner cavity that form the seats for the screws, the outer ribs also contain seats for the screws, the transition point of the cylindrical shape into a flat one contains holes for tightening two parts of the profile halves, cooling fins are vertically oriented, while the radiator profile is divided into two symmetric parts, between which aluminum is placed the cylinder, while the parts of the radiator profile are pulled together with a guaranteed tightness between the radiator profile and the aluminum cylinder. 2 ill.

Description

The claimed utility model relates to the design of lighting devices, is intended for the manufacture of LED lamps and relates, in particular, to the housing-radiator of the LED module.

The level of technology.

The prototype of the claimed technical solution is a radiator for industrial use, in which the cooling fins are evenly distributed on the outer wall of the cylinder, and the outer ends of the cooling pins are T-shaped in cross section vertically with respect to the axial axis of the cylinder heat generation line. To dissipate heat, the cylinder is additionally equipped with upper and lower covers. The upper cover, the lower cover and the inner wall of the heat dissipation cylinder form a storage chamber for sealing water, and also the heat dissipation of the water is located in the storage chamber for water. The surface of the heat dissipation of water, the top cover and the inner wall of the cylinder of heat dissipation form a sealing of the vacuum chamber. In accordance with the lamp radiator for industrial applications, a T-shaped radiator is used, the outer ends of the cooling pins are T-shaped, and the heat dissipation area is increased, thereby achieving convenience in production and installation, the inner chamber for storing water has walls, it is filled with water and hermetically close and vacuum, the contact area between the light emitting diode (LED), the light source and the radiator, increases, while the boiling point of water can be reduced by evacuation, steam at high At the water temperature, it comes into contact with the tooth shape with cooling fins on the inner wall of the radiator, the area of internal thermal conductivity increases, and the thermal conductivity improves (patent for utility model of the People's Republic of China CN 203052596 (U) - 2013-07-10).

In the selected prototype, the LED module has a maximum contact area, that is, equal to the area of the module itself.

However, this design implies the complete filling of the central part of the profile with aluminum, which increases the heat capacity of the radiator case, but does not affect the heat transfer in any way. This leads to an increase in the metal consumption of the structure and, as a consequence, to an increase in the price and mass of the product.

The technical result of the claimed utility model is to reduce the metal consumption of the radiator case, increase the efficiency in heat transfer from the LED module to the radiator case, and as a result, increase the reliability of the device

The technical result achieved is realized in that the casing-radiator of the light module contains a radiator profile, inside of which an aluminum cylinder is placed. The radiator profile is hollow, contains a T-shaped seat along the entire height of the outer profile wall, while grooves are formed in the inner cavity that form the seats for the screws, the outer ribs also contain seats for the screws, the transition point of the cylindrical shape into a flat one contains holes for tightening two parts of the profile halves, cooling fins are vertically oriented, while the radiator profile is divided into two symmetric parts, between which aluminum is placed the cylinder, while the parts of the radiator profile are pulled together with a guaranteed tightness between the radiator profile and the aluminum cylinder.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a general view of the device.

In FIG. 2 shows a view of a device in a prefabricated radiator,

where 1 is the radiator profile; 2 - aluminum cylinder; 3 - power source; 4 - LED module; 5 - a glass lens with a silicone sealing gasket; 6 - seat T-shaped; 7 - grooves in the inner cavity; 8 - seats external ribs for screws; 9 - the transition point of the profile; 10 - holes for tightening two parts of the profile.

The proposed technical solution allows you to install the LED module on the radiator case, while maintaining the concept of vertically oriented cooling fins and the maximum possible contact area of the LED module with the radiator case.

The casing-radiator of the light module contains a radiator profile (1), made, for example, from an aluminum wrought alloy AD31, inside which an aluminum cylinder (2) is placed.

The radiator profile is hollow, contains a T-shaped seat along the entire height of the outer profile wall, while grooves are formed in the inner cavity that form the seats for the screws, the outer ribs also contain seats for the screws, the transition point of the cylindrical shape into a flat one contains holes for tightening two parts of the profile halves. The cooling fins are vertically oriented. The radiator profile is divided into two symmetrical parts, between which an aluminum cylinder is placed.

Parts of the radiator profile are tightened, for example, by means of bolts, with a guaranteed tightness between the radiator profile and the aluminum cylinder.

The aluminum cylinder inside the hollow casing-radiator must be installed with a certain interference fit to prevent, on the one hand, the aluminum cylinder from falling out of the casing-radiator, and, on the other hand, to allow the aforementioned cylinder to be pressed into the casing. The method provides a landing mating parts H7 / p6 according to GOST 25347-82 (Landing in the hole system provides a guaranteed tightness).

The maximum possible contact area between the LED module and the radiator case is the area of the LED module itself. That is, in the proposed technical solution, over its entire area, it contacts the radiator, in contrast to the prototype, when the LED module contacts the radiator only in part of its area.

Thus, the analysis and testing of the prototype confirm the achievement of the technical result of the claimed utility model: reducing the metal consumption of the radiator case, increasing the efficiency in heat transfer from the LED module to the radiator case, and, as a result, increasing the reliability of the device.

The utility model is new, since the entire set of features is unknown from the prior art described in the corresponding section of the description, as well as industrially applicable to the proposed field of technology.

Claims (1)

The casing-radiator of the light module containing a radiator profile, inside which an aluminum cylinder is placed, characterized in that the radiator profile is hollow, contains a T-shaped seat along the entire height of the outer profile wall, while grooves are formed in the inner cavity to form seats for screws, the outer ribs also contain seats for screws, the transition point of the profile of a cylindrical shape into a flat one contains holes for tightening two parts of the profile halves, cooling fins made vertically oriented, while the radiator profile is divided into two symmetrical parts, between which an aluminum cylinder is placed, while the parts of the radiator profile are tightened with a guaranteed tightness between the radiator profile and the aluminum cylinder.

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