CN212573410U - Heat transfer tooth sheet of radiator - Google Patents

Abstract

The utility model belongs to the technical field of the radiator and specifically relates to a heat transfer of radiator tooth and the balance between the tooth convection heat transfer have been realized, the radiator heat transfer teeth piece of better radiating effect has been realized, include the base plate and set up at least one radiator teeth piece on the base plate, be parallel arrangement mutually between the radiator teeth piece, the radiator teeth piece comprises smooth plane tooth and ripple type tooth, wherein, smooth plane tooth is connected with the base plate surface, and wherein, the tooth height of radiator teeth piece is H, and the thickness of the radiator teeth root of radiator teeth piece is T0, and T0H is 0.03 ~ 0.05. The utility model provides a heat transfer optimization method of radiator tooth has comprehensively considered the heat transfer of radiator tooth and the balance between the tooth heat convection. The utility model discloses be particularly useful for among the radiator structural design.

Description

Heat transfer tooth sheet of radiator

Technical Field

The utility model belongs to the technical field of the radiator and specifically relates to a radiator heat transfer tooth piece.

Background

Prior art heat sinks typically include a base plate and a plurality of heat sink fins in communication with the base plate. The heat dissipation path of the heat sink is that heat is transferred from the substrate to the heat sink fins and then transferred to the air by the convection action of the heat sink fins. Therefore, in the whole heat transfer process of the radiator, the heat dissipation effect of the whole radiator can be influenced by the bottleneck problem on any transmission path link. While the prior art radiator only emphasizes that the heat dissipation is increased by controlling in a manner of a corrugated shape of a tooth surface and the like so as to increase the area of a heat dissipation surface, for example, patents CN202663707U, CN210717454U, and CN208170560U all adopt similar technical solutions, and the heat dissipation problem of the radiator is not considered from the system perspective. Although the prior art means improves the heat dissipation effect to a certain extent, there is still room to be further optimized to achieve a better heat dissipation effect while using less heat sink materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a heat transfer that has realized the radiator tooth and the balance between the tooth heat convection have realized better radiating effect's radiator heat transfer tooth piece is provided.

The utility model provides a technical scheme that its technical problem adopted is: the radiator heat transfer tooth sheet comprises a substrate and at least one radiator tooth sheet arranged on the substrate, the radiator tooth sheets are arranged in parallel, each radiator tooth sheet is composed of a smooth plane tooth and a corrugated tooth, the smooth plane tooth is connected with the surface of the substrate, the tooth height of each radiator tooth sheet is H, the thickness of the root of each radiator tooth sheet is T0, and T0/H is 0.03-0.05.

Furthermore, the height of the small corrugation teeth of the corrugated teeth is h, wherein h is 0.1-0.25T 0.

Furthermore, the distance between two adjacent teeth on the same side of the corrugated teeth is L, wherein L is more than or equal to T0, and L is less than or equal to 2T 0.

Further, the tooth height of the smooth plane tooth ranges from 0.35H to 0.45H.

Further, the T0 is greater than or equal to 1.3 mm.

Further, the wave trough of the corrugated teeth is positioned on a connecting line between the tooth root of the radiator and the tooth tip of the radiator.

Further, the wave crest of the corrugated tooth is positioned on a connecting line between the tooth root part of the radiator and the tooth tip part of the radiator.

Further, the corrugation on both sides of the corrugated tooth is an asymmetric corrugation surface.

Further, the height H of the small teeth of the corrugated surface of the corrugated teeth in the range of 0.4H to H from the substrate surface is either constant or gradually increased in a direction away from the substrate surface.

The utility model has the advantages that: the heat of radiator tooth is at the in-process of conducting the point portion from the root, and the heat dissipation capacity demand of different positions department is different, and heat transfer demand characteristics are also different, the utility model discloses a more excellent heat dissipation has been realized to the ingenious structure of radiator tooth piece to and the purpose that the two ratio of quality is optimal of heat dissipation capacity and the radiator of radiator has been reached. By limiting the ratio of the thickness of the tooth root of the radiator to the tooth height of the tooth sheet of the radiator, the radiating efficiency is further optimized, and a better radiating effect is obtained. The heat dissipation tooth form among the prior art, though proposed through zigzag size increase heat transfer area, nevertheless neglected the consideration of tooth heat transfer problem, and the utility model provides a heat radiator tooth heat transfer optimization method has comprehensively considered the heat transfer of radiator tooth and the balance between the tooth convection heat transfer. The utility model discloses be particularly useful for among the radiator structural design.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural view of a conventional heat sink.

Fig. 4 is a schematic structural view of a conventional heat sink.

Labeled as: the heat radiator comprises a base plate 1, a heat radiator tooth sheet 2, smooth plane teeth 21, corrugated teeth 22, an existing smooth plane tooth radiator tooth sheet 3, an existing corrugated tooth radiator tooth sheet 4, the tooth height H of the heat radiator tooth sheet, the tooth height kH of the smooth plane teeth, the thickness T0 of the tooth root of the heat radiator, the minimum thickness T1 of the tooth tip of the heat radiator, the height H of a corrugated small tooth, a connecting line D and the distance L between two adjacent teeth on the same side of the corrugated teeth.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

The heat sink heat transfer tooth plate shown in fig. 1 and 2 comprises a substrate 1 and at least one heat sink tooth plate 2 arranged on the substrate 1, wherein the heat sink tooth plates 2 are arranged in parallel, the heat sink tooth plate 2 is composed of smooth plane teeth 21 and corrugated teeth 22, the smooth plane teeth 21 are connected with the surface of the substrate 1, the tooth height of the heat sink tooth plate 2 is H, the thickness of the heat sink tooth root of the heat sink tooth plate 2 is T0, and T0/H is 0.03-0.05.

The heat sink utilizing the convection heat dissipation mode generally comprises a base plate and a plurality of heat sink fins communicated with the base plate, wherein the plurality of heat sink fins are generally arranged in parallel at a certain interval. During operation, the substrate part is close to the electronic component and close to the wall surface. And the radiator fins face the inside of the space, and the fluid smoothly passes through the vicinity of the fins so as to effectively radiate heat. For the heat sink of the similar working principle as described above, the air flow velocity is low around the heat sink teeth near the base plate 1, and the air flow velocity is high around the tips of the heat sink teeth far from the base plate, thereby providing an effect of increasing the convective heat dissipation coefficient from the bottom to the tips of the heat sink. Meanwhile, the heat transfer capacity of the section of the root part of the radiator tooth sheet 2 is larger than that of the section of the tip part, namely the process of gradual decrease, and the surface area of the radiator tooth is increased although the surface area of the radiator tooth is increased after the radiator tooth is changed into a sawtooth or corrugated surface, the heat transfer coefficient in the radiator tooth is reduced under the influence of the complexity of the transfer area and the transfer path. The utility model discloses ingenious to foretell heat transfer characteristics, the tooth surface of designing every radiator tooth piece 2 on the radiator sets up to the tooth molding that smooth plane tooth 21 and ripple type tooth 22 combine, has compromise smooth plane tooth 21 and the respective advantage of ripple type tooth 22 like this, has effectively improved heat dispersion. The heat transfer tooth sheet of the radiator has the advantages that the tooth height of the heat transfer tooth sheet 2 of the radiator is limited to be H, the thickness of the tooth root of the radiator of the heat transfer tooth sheet 2 of the radiator is T0, and T0/H is 0.03-0.05, so that the heat exchange efficiency is further enhanced, and the heat dissipation effect is obviously improved.

In order to obtain a better heat dissipation effect, it is preferable that the corrugated teeth 22 are further defined as follows, and as shown in fig. 2, the height of the small corrugated teeth of the corrugated teeth 22 is h, where h is 0.1 to 0.25T 0. Based on the same concept, the distance between two adjacent teeth on the same side of the corrugated teeth 22 is preferably L, wherein L is more than or equal to T0, and L is less than or equal to 2T 0.

In the actual production, in order to enhance the heat dissipation effect, the following improvements and limitations can be preferably made: the tooth height of the smooth plane tooth 21 is in the range of 0.35H-0.45H. As shown in FIG. 1, k is in the range of 0.35 to 0.45 in the tooth height kH of the smooth face tooth. In addition, it is also preferable that T0 is greater than or equal to 1.3mm, and it is preferable that a trough of the corrugated tooth 22 is located on a line D between a radiator tooth root and a radiator tooth tip, or a peak of the corrugated tooth 22 is located on a line D between a radiator tooth root and a radiator tooth tip. The corrugation on both sides of the corrugated tooth 22 is preferably an asymmetric corrugation surface, that is, the fluctuation of the tooth thickness is not allowed, and the tooth thickness is ensured to gradually decrease in a stable manner along the direction from the root to the tip. It is preferable that the small tooth height H of the corrugated surface of the corrugated tooth 22 within a range of 0.4H to H from the surface of the substrate 1 is either constant or gradually increased in a direction away from the surface of the substrate 1. The improved scheme can better improve the heat dissipation effect and obtain better heat dissipation quality.

The utility model discloses a to the settlement of radiator tooth shape, can effectively promote the radiating efficiency of radiator tooth in save material weight, can balance the heat that transmits the radiator tooth from the radiator basement and the heat of radiator tooth transmission outside ambient air to reach the purpose of high-efficient radiator tooth.

Examples

The radiator is made of aluminum alloy materials, as shown in fig. 1, the corrugated teeth are in asymmetric corrugated shapes, the thickness between the shapes of the two sides of the teeth is ensured to be stably transited from the root to the tip, the thickness T0 of the root is 1.6mm, and the thickness T1 degree of the tip is 1.0 mm. T0/H is 0.04, L is 2T0, H is 0.2T0, and k is 0.4. Under the same external environment condition, under the same weight of the radiator, the same tooth height and the same tooth piece gap, the heat dissipation capacity of the tooth of the radiator of the invention is improved by 2-3% compared with the heat dissipation capacity of a common smooth surface tooth and a common symmetrical corrugated tooth, the technical advantage is obvious, and the market popularization prospect is very wide.

Claims (9)

1. Radiator heat transfer tooth, including base plate (1) and set up at least one radiator tooth (2) on base plate (1), be parallel arrangement, its characterized in that for each other between radiator tooth (2): the radiator tooth piece (2) is composed of smooth plane teeth (21) and corrugated teeth (22), wherein the smooth plane teeth (21) are connected with the surface of the substrate (1), the tooth height of the radiator tooth piece (2) is H, the thickness of the root part of the radiator tooth piece (2) is T0, and T0/H is 0.03-0.05.

2. The heat sink heat transfer fin of claim 1, wherein: the height of the small corrugated teeth of the corrugated teeth (22) is h, wherein h is 0.1-0.25T 0.

3. The heat sink heat transfer fin of claim 1, wherein: the distance between two adjacent teeth on the same side of the corrugated teeth (22) is L, wherein L is more than or equal to T0, and L is less than or equal to 2T 0.

4. The heat sink heat transfer fin of claim 1, 2 or 3, wherein: the tooth height of the smooth plane tooth (21) is in the range of 0.35H-0.45H.

5. The heat sink heat transfer fin of claim 1, 2 or 3, wherein: the T0 is greater than or equal to 1.3 mm.

6. The heat sink heat transfer fin of claim 1, 2 or 3, wherein: the wave trough of the corrugated tooth (22) is positioned on a connecting line (D) between the tooth root part of the radiator and the tooth tip part of the radiator.

7. The heat sink heat transfer fin of claim 1, 2 or 3, wherein: the wave crest of the corrugated tooth (22) is positioned on a connecting line (D) between the tooth root part of the radiator and the tooth tip part of the radiator.

8. The heat sink heat transfer fin of claim 1, 2 or 3, wherein: the corrugation on both sides of the corrugated tooth (22) is an asymmetric corrugation surface.

9. The heat sink heat transfer fin of claim 1, 2 or 3, wherein: the small tooth height H of the corrugated surface of the corrugated teeth (22) within the range of 0.4H-H from the surface of the substrate (1) is either constant or gradually increased along the direction away from the surface of the substrate (1).

Images