CN217976370U - Integral heat dissipation core - Google Patents

Abstract

An integral heat dissipation core body comprises a main sheet and a heat dissipation pipe, wherein the main sheet is rectangular, a plurality of mounting holes are formed in the main sheet along the length direction, the mounting holes are long holes, the length direction of each mounting hole is perpendicular to the length direction of the main sheet, and the distance between every two adjacent mounting holes is the same; the radiating pipe is provided with a through hole along the length direction, any section of the radiating pipe along the length direction corresponds to the mounting hole, a plurality of spacers are arranged in the hole, the length direction of the spacers is the same as the length direction of the radiating pipe, and the hole can be divided into a plurality of radiating holes; two main pieces are oppositely arranged, a plurality of radiating pipes are arranged between the two main pieces, and two ends of each radiating pipe protrude outwards to be adjacent to the corresponding main piece. The cooling tube through setting up a plurality of mounting holes replaces current haplopore cooling tube, reduces the installation quantity of cooling tube, and then has promoted the installation effectiveness of heat dissipation core, and the function is not influenced, can exert indispensable heat dissipation function.

Description

Integral heat dissipation core

Technical Field

The utility model relates to an auto radiator core technical field specifically is an integral heat dissipation core.

Background

Auto radiator mainly includes intake chamber, play hydroecium and heat dissipation core triplex, wherein main heat dissipation function mainly relies on the heat dissipation core to realize, current heat dissipation core is basically as shown in fig. 6, arrange the cooling tube of arranging between main leaf and the main leaf that sets up from top to bottom, can normal use, but during the preparation, the cooling tube is including a plurality of horizontal and longitudinal arrangement, corresponding main leaf need set up horizontal and longitudinal arrangement's a plurality of trompils, therefore corresponding machining precision requires just than higher, and when the equipment, the process of arranging installation cooling tube is more loaded down with trivial details, lead to production efficiency to be limited.

SUMMERY OF THE UTILITY MODEL

Require high for solving above-mentioned heat dissipation core machining precision, and the more loaded down with trivial details problem of assembling process, the utility model provides an integral heat dissipation core.

The utility model discloses technical scheme as follows:

a unitary heat dissipating core comprising:

the main piece is rectangular, a plurality of mounting holes are formed in the main piece along the length direction, the mounting holes are long holes, the length direction of each mounting hole is perpendicular to the length direction of the main piece, and the distance between every two adjacent mounting holes is the same;

the radiating pipe is provided with a through hole along the length direction, any section of the radiating pipe along the length direction corresponds to the mounting hole, a plurality of spacers are arranged in the hole, the length direction of the spacers is the same as the length direction of the radiating pipe, and the hole can be divided into a plurality of radiating holes;

two main pieces are oppositely arranged, a plurality of radiating pipes are arranged between the two main pieces, and two ends of each radiating pipe protrude outwards to be adjacent to the corresponding main piece.

The quantity of the cooling tube that reduces to need the installation, and then effectively improve the installation effectiveness, corresponding, because cooling tube quantity reduces, the machining precision requirement will reduce thereupon.

On the basis of the structure, furthermore, bending supports are symmetrically arranged at two ends of the main sheet along the length direction, and the bending supports are arranged on planes where the main sheets are far away from each other. When placing, possess the support component, can not directly laminate with ground.

Furthermore, the length dimension of the radiating pipe protruding outwards from the adjacent main sheet is smaller than the height dimension of the bending support. The bent support can effectively avoid the impact damage to the end part of the heat dissipation pipe when other components are placed or installed.

Preferably, the adjacent ends of the plurality of radiating pipes are all on the same plane. The liquid inlet or the liquid outlet is flush with the liquid level through aligning the radiating pipes.

Preferably, both ends of the radiating pipe protrude outwards to have the same length as that of the adjacent main plate. The installation does not need to consider the positive and negative directions.

The best structure of the mounting hole is that the mounting hole is a waist-shaped hole. The two ends are not easy to deform during installation, and the phenomenon of collision and bending is easy to occur due to the conventional rectangular structure.

Preferably, the pitches of adjacent spacers are the same. The processing is convenient, and the factors such as the installation direction of the radiating pipe and the like do not need to be considered.

On the basis of the structure, further, the mounting holes on the outermost sides of the two ends of the main sheet are machined by single punching.

Preferably, the ratio of the sum of the sectional areas of the plurality of mounting holes to the opening area of the radiator is not less than 9/10. Avoid setting up the spacer of too much quantity, the intensity of cooling tube although can be promoted in the existence of spacer, but the quantity is too much can reduce the trompil area, influences the heat dissipation.

On the basis of the structure, furthermore, the length dimension of the partition is the same as that of the radiating pipe. Avoid appearing the phenomenon that deformation appears in the cooling tube both ends as far as possible, can effectively promote intensity through the support of spacer.

The beneficial effects of the utility model reside in that: the utility model relates to an integral heat dissipation core reduces original cooling tube quantity, dispel the heat through setting up porous cooling tube, in the installation, compare installation effectiveness can show the promotion before, and when the cooling tube of interval trompil was carried out through the spacer in addition when the installation, its intensity can satisfy the demand, the difficult phenomenon of bending that appears, it is corresponding, because the trompil quantity of master slice reduces, and only need move in a direction and can realize seting up all holes, corresponding machining precision requires just than lower.

Drawings

The aspects and advantages of the present application will become apparent to those skilled in the art from a reading of the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention.

In the drawings:

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is a schematic top view of the main sheet of the present invention;

fig. 5 is a schematic view of the structure of the heat dissipation tube of the present invention;

fig. 6 is a schematic structural view of a conventional heat dissipation core;

the components represented by the reference numerals in the figures are:

1. a master slice; 11. mounting holes; 12. bending and supporting; 2. a radiating pipe; 21. heat dissipation holes; 22. a spacer.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. It should be noted that these embodiments are provided so that this disclosure can be more completely understood and fully conveyed to those skilled in the art, and the present disclosure may be implemented in various forms without being limited to the embodiments set forth herein.

Examples

An integral heat dissipation core body as shown in fig. 1-5, comprising a main sheet 1 as shown in fig. 4, wherein the main sheet 1 is rectangular, and the main sheet 1 is provided with a plurality of mounting holes 11 along the length direction, different from the existing hole-opening mode of the main sheet 1, in the structure, the main sheet 1 adopts a plurality of mounting holes 11 only in one direction, rather than a plurality of mounting holes arranged in an array in two axial directions, and the shape is also different, the size of the mounting holes 11 of the existing main sheet 1 is smaller, in the width direction of the main sheet 1, a plurality of mounting holes 11 are usually arranged, and the mounting holes 11 of the device are long holes, and the length direction is perpendicular to the length direction of the main sheet 1, the larger the better the length, the two ends of the long holes basically need to be close to the two sides of the main sheet 1 in the width direction, and the distance between the adjacent mounting holes 11 is the same;

in the above structure, the mounting hole 11 is preferably a kidney-shaped hole. The two ends are not easy to deform during installation, and the phenomenon of collision and bending is easy to occur due to the conventional rectangular structure. The arc structure is not easy to cause the situation, so that in order to avoid the bending deformation of the edge during the installation, the waist-shaped hole is optimally arranged, and the two ends of the waist-shaped hole are in a semi-circular arc shape. In the process, the waist-shaped mounting holes 11 at the outermost sides of the two ends of the main sheet 1 are processed by single punching.

In addition, the heat radiating pipe 2 shown in fig. 5 is further included, the heat radiating pipe 2 is provided with through holes along the length direction, and any cross section of the heat radiating pipe 2 along the length direction corresponds to the mounting hole 11, therefore, the heat radiating pipe 2 of the device can be inserted into the mounting hole 11 in the same way as the existing heat radiating pipe fixing way, and the fixing way can be selected from welding or bonding, and can also be set to have a certain size difference, so that the heat radiating pipe 2 can be clamped after being inserted;

furthermore, a plurality of spacers 22 are arranged in the opening, the length direction of the spacers 22 is the same as that of the radiating pipe 2, the opening can be divided into a plurality of radiating holes 21, and meanwhile, because the width of the radiating pipe 2 is large, the middle of the radiating pipe is easily bent and deformed when being installed, the spacers 22 can also obtain the effect of improving the strength, so that the radiating pipe 2 is not easily deformed in the installation process;

and in the above structure, the length dimension of the partition 22 is the same as that of the radiating pipe 2. And spacer 22 sets up with 2 parallel and level of cooling tube, avoids appearing the phenomenon of spacer 22 evagination or indent to the phenomenon of deformation appears at 2 both ends of cooling tube in the try hard to avoid appearing, and aim at passes through spacer 22's support lifting strength.

Preferably, the distance between adjacent spacers 22 is the same. The processing is convenient, and the factors such as the installation direction of the radiating pipe 2 and the like do not need to be considered.

After through processing above-mentioned part, can carry out subsequent assembling process, and install the back as shown in fig. 1, 2, 1 mutual disposition of main leaf is two, and sets up a plurality of cooling tubes 2 between two main leaves 1, the both ends evagination of cooling tube 2 in adjacent main leaf 1, the equipment back can obtain the heat dissipation core, can arrange the intake chamber and go out the bathroom and use.

Can find out through above-mentioned structure and package assembly, reduce the quantity of the cooling tube 2 that need install, can effectively improve the installation effectiveness, corresponding, because 2 quantity of cooling tubes reduce, the machining precision requirement will reduce thereupon.

As shown in fig. 1, 2 and 3, two ends of the main piece 1 along the length direction are symmetrically provided with bending supports 12, and the bending supports 12 are arranged on planes where the main pieces 1 are far away from each other. When placing, possess the supporting component, can not directly laminate with ground to, because the tip of cooling tube 2 itself is evaginated in the setting of main leaf 1, consequently, if not set up bending support 12, the striking to cooling tube 2 can lead to it to appear warping, therefore appears that mounting hole 11 warp and leads to the poor problem of radiating effect.

For this reason, in addition to the above structure, further, the length dimension of the radiating pipe 2 protruding from the adjacent main plate 1 is smaller than the height dimension of the bent support 12. The bent support 12 can effectively prevent the impact damage to the end of the radiating pipe 2 when other components are placed or installed. When the heat pipe 2 is in contact with the flat surface, the bent support 12 can replace the original heat pipe 2 to be in direct contact with the flat surface.

In addition to the above structure, in order to improve the user experience, it is preferable that the adjacent ends of the plurality of radiating pipes 2 are all on the same plane. The liquid inlet or outlet is leveled by aligning the radiating pipe 2. The phenomenon of irregularity is avoided.

In order to facilitate the installation of the heat dissipation core body in the water inlet chamber and the water outlet chamber, the two ends of the heat dissipation pipe 2 protrude outwards and have the same length as the adjacent main sheet 1. The installation does not need to consider the positive and negative directions.

Finally, it is noted that the ratio of the sum of the sectional areas of the plurality of mounting holes 11 to the opening area of the heat sink is not less than 9/10. Aim at avoids setting up the spacer 22 of too much quantity, and the existence of spacer 22 is though can promote the intensity of cooling tube 2, but the quantity is too much to reduce the trompil area, influences the heat dissipation.

Claims (10)

1. An integral heat dissipating core, comprising:

the main piece (1) is rectangular, a plurality of mounting holes (11) are formed in the main piece (1) along the length direction, the mounting holes (11) are long holes, the length direction of each mounting hole is perpendicular to the length direction of the main piece (1), and the distance between every two adjacent mounting holes (11) is the same;

the radiating pipe (2) is provided with a through hole along the length direction, any section of the radiating pipe (2) along the length direction corresponds to the mounting hole (11), a plurality of partition sheets (22) are arranged in the hole, the length direction of the partition sheets (22) is the same as the length direction of the radiating pipe (2), and the hole can be divided into a plurality of radiating holes (21);

two main pieces (1) are oppositely arranged, a plurality of radiating pipes (2) are arranged between the two main pieces (1), and two ends of each radiating pipe (2) are protruded outwards to be adjacent to the corresponding main piece (1).

2. An integral heat dissipation core as recited in claim 1, wherein the main sheet (1) is symmetrically provided with bending supports (12) at two ends along the length direction, and the bending supports (12) are arranged on the planes of the main sheets (1) which are far away from each other.

3. A unitary radiating core according to claim 2, characterised in that the length dimension of the radiating pipe (2) projecting from the adjacent main panel (1) is less than the height dimension of the bent supports (12).

4. An integral radiating core according to claim 1, characterized in that the adjacent ends of a plurality of the radiating pipes (2) are all in the same plane.

5. An integral radiating core body according to claim 4, characterized in that the two ends of the radiating pipe (2) are protruded outwards to the same length as the adjacent main plate (1).

6. A unitary heat dissipating core according to claim 1, wherein the mounting hole (11) is a kidney-shaped hole.

7. A unitary heat dissipating core according to claim 1 wherein the spacing between adjacent spacers (22) is the same.

8. An integral heat dissipating core as claimed in claim 6, wherein the outermost mounting holes (11) at both ends of the main plate (1) are formed by single punching.

9. An integral heat dissipating core according to claim 7, wherein the ratio of the sum of the sectional areas of the plurality of mounting holes (11) to the opening area of the heat sink is not less than 9/10.

10. A one-piece radiator core according to claim 1 wherein the length dimension of the spacer (22) is the same as the length dimension of the radiator pipe (2).

Images