RU172450U1 - Radiator - Google Patents

Abstract

The invention relates to devices for removing heat from electronic components, namely radiators. The technical result consists in more efficient heat removal due to the development of a radiator, part of which is made in the form of a platform with sides from radiator plates and heat-conducting strips, and a heat-conducting one is fixed over the site leveling plate for more even distribution of heat over its surface and fixing the body on it with heat-generating elements. Technical result is achieved I declared radiator, which includes sequentially and rigidly interconnected individual radiator plates with heat-conducting strips in such a way that a heat-conducting strip is fixed between each adjacent radiator plates, and some of the internal radiator plates are made with p-shaped cutouts that form a pad with the edges of the heat-conducting strips , along the perimeter of which there are bumpers made of parts of radiator plates, and a heat-conducting leveling plate is fixed over the site, which is made with the possibility of uniform distribution of heat on its surface and fixing on it a body with heat-generating elements, and the length of each heat-conducting strip is less than or equal to the width of the adjacent radiator plate.

Description

The technical field to which the utility model relates.

The invention relates to devices for removing heat from electronic components, namely radiators.

State of the art

Known radiator (RU 2217886 C2, publ. 11/27/2003), containing many individual radiator plates bonded to each other in their connecting part with the formation of a heat-absorbing part in contact with the heat-generating surface of the electronic component, while the parts of the radiator plates are opposite heat-absorbing parts are separated from each other and together form heat-removing parts; and fastening means for fastening together a plurality of radiator plates. The disadvantage of this analogue is the inefficient removal of heat from several distributed sources, since the heating of the radiator plates occurs unevenly. In addition, the installation of a radiator requires an additional housing, which impairs the compactness of the assembly of the product as a whole.

Utility Model Disclosure

The technical result consists in a more efficient heat removal due to the development of a radiator, part of which is made in the form of a platform with sides from radiator plates and heat-conducting strips, and a heat-conducting leveling plate is fixed over the site for more even distribution of heat on its surface and fixing the body to it with heat-generating elements.

The technical result is achieved by the claimed radiator, which includes sequentially and rigidly interconnected individual radiator plates with heat-conducting strips in such a way that a heat-conducting strip is fixed between each adjacent radiator plates, and some of the internal radiator plates are made with U-shaped cutouts that form heat-conducting ribs planks a platform, along the perimeter of which there are bumpers made of parts of radiator plates, and heat transfer is fixed over the platform a lead-in leveling plate, which is configured to evenly distribute heat over its surface and fasten a housing thereon with heat-generating elements, and the length of each heat-conducting strip is less than or equal to the width of the adjacent radiator plate.

According to a utility model, the radiator plates and the heat conductive plates are interconnected by means of at least one bolt with a nut that is inserted into the common holes of the radiator plates and the heat conductive plates.

According to a utility model, a heat-conducting leveling plate is fixed to the site by means of at least one bolt that is inserted into the common holes of the site and the heat-conducting leveling plate.

Brief Description of the Drawings

The essence of the utility model is illustrated in FIG. 1, which shows a diagram of a preferred embodiment of the inventive radiator; FIG. 2, which shows the internal radiator plate with holes and a U-shaped neckline; FIG. 3, which shows a radiator plate with holes without a U-shaped cut; FIG. 4, which shows the heat-conducting strip of the radiator with holes.

Utility Model Implementation

In FIG. 1 shows a radiator, which includes in series and rigidly interconnected individual radiator plates 1 with heat-conducting strips 2 in such a way that a heat-conducting bar 2 is fixed between each adjacent radiator plates 1, and some of the internal radiator plates 1 are made with U-shaped cutouts that form with ribs or with the ends of the heat-conducting straps 2, a platform 3, along the perimeter of which there are boards made of parts of the radiator plates 1, and a heat-conducting leveling the fourth plate 4, which is made with the possibility of uniform distribution of heat on its surface and fixing on it a body with heat-generating elements, and the length of each heat-conducting strip 2 is less than or equal to the width of the adjacent radiator plate 1.

In addition, in a private embodiment of the inventive radiator, scattered radiator plates that do not have complete thermal contact with each other are fed through ends perpendicular to the distribution of heat.

The principle of operation of the claimed radiator is as follows.

Heat from the casing with heat-generating elements is transferred to the heat-conducting leveling plate 4, which evenly distributes heat on its surface and to the platform 3. Then, by the platform 3, all heat is absorbed and distributed simultaneously to the heat-conducting strips 2 and radiator plates 1. Thus, by means of the platform 3 , which is located inside and recessed in the design of the radiator, all heat-absorbing elements of the claimed radiator are more efficiently used for heat transfer.

Claims (3)

1. A radiator comprising individual radiator plates sequentially and rigidly interconnected with heat-conducting strips in such a way that a heat-conducting strip is fixed between each adjacent radiator plates, and some of the internal radiator plates are made with p-shaped cutouts that form a platform with the edges of the heat-conducting strips, along the perimeter of which there are bumpers made of parts of radiator plates, moreover, a heat-conducting leveling plate, which is made with the possibility of uniform distribution of heat over its surface and fixing on it a body with heat-generating elements, and the length of each heat-conducting strip is less than or equal to the width of the adjacent radiator plate. 2. The radiator according to claim 1, characterized in that the radiator plates and heat-conducting strips are interconnected by at least one bolt with a nut that is inserted into the common holes of the radiator plates and heat-conducting strips. 3. The radiator according to claim 1, characterized in that the heat-conducting leveling plate is fixed to the site by means of at least one bolt that is inserted into the common holes of the site and the heat-conducting leveling plate.

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