CN216412083U - Notebook computer radiating assembly capable of improving radiating performance - Google Patents

Abstract

The utility model discloses a notebook computer radiating assembly for improving heat dissipation, which comprises a mounting box and a fan in the mounting box; one end of the mounting box, which faces the outer side of the notebook computer, is provided with heat dissipation fins which are arranged in parallel; the heat conduction copper tube and the contact piece are also included; the heat conducting copper pipe is contacted with the contact piece; the air inlet end of the air collecting piece is communicated with one end of the fan of the mounting box, and the air outlet end of the air collecting piece is connected with the radiating fins; the heat conduction copper pipe penetrates through the air duct of the air collecting piece; the utility model effectively improves the heat dissipation efficiency by guiding and concentrating the heat dissipation airflow.

Description

Notebook computer radiating assembly capable of improving radiating performance

Technical Field

The utility model relates to the technical field of notebook computer radiating modules, in particular to a notebook computer radiating assembly for improving heat dissipation.

Background

Along with the rapid development of science and technology, notebook computer is more and more frivolous, and the performance is also more and more high, and notebook has become the normality for a long time use, has also appeared the product that the higher requirement of heat dissipation was asked for such as notebook in the market in recent years, but because notebook computer structure is small and exquisite, the inner structure is narrow and small, the problem of how the source of generating heat is more high-efficient radiating also shows prominently. In the existing technology, the most common is to connect one end of the heat conducting copper pipe on the heat source, the other end is connected on the radiating fin, the heat of the heat source is transmitted to one end of the connecting radiating fin through the heat conducting copper pipe, the heat is radiated by the fan, the transmission process needs a certain time, the efficiency is not consistent with the current use requirement, and the user needs to purchase an external radiating device to assist in radiating.

Disclosure of Invention

The utility model aims to provide a notebook computer radiating assembly for improving heat dissipation.

In order to solve the technical problem, the technical scheme of the utility model is as follows: a notebook computer radiating component for improving heat dissipation comprises a mounting box and a fan in the mounting box; one end of the mounting box, which faces the outer side of the notebook computer, is provided with heat dissipation fins which are arranged in parallel; the heat conduction copper tube and the contact piece are also included; the heat conducting copper pipe is contacted with the contact piece;

the air inlet end of the air collecting piece is communicated with one end of the fan of the mounting box, and the air outlet end of the air collecting piece is connected with the radiating fins; the heat conduction copper pipe penetrates through the air duct of the air collecting piece. The air collecting piece is added, and air blown out by the fan is introduced into the air duct provided with the heat conducting copper pipe, so that the air direction and the heat conducting direction are kept consistent, and the speed of heat reaching the radiating fins is increased.

Further improved, each heat radiation fin is provided with a flow guide hole; the heat conduction copper pipe penetrates through the flow guide hole, the heat conduction copper pipe is fixed on the heat dissipation fins through the heat conduction hole and can penetrate through the heat dissipation fins, the heat dissipation area is increased through the heat dissipation fins, and the heat inside the notebook computer is discharged quickly.

In a further improvement, the flow guide holes are positioned at the lower parts of the heat dissipation fins where the flow guide holes are positioned, and the flow guide holes of each heat dissipation fin are positioned at the same height; the plurality of flow guide holes are communicated to form a flow guide channel for airflow to flow through each radiating fin. The guide holes are positioned at the lower parts of the radiating fins and can adapt to the installation of the heat conduction copper pipes, the guide channels are utilized to guide the wind in the wind channel into the radiating fins, and the wind is quickly dispersed to each radiating unit through the guide channels of the radiating fins, so that the radiating efficiency of the radiating fins is maximized.

In a further improvement, the wind collecting piece comprises a base and a cover plate; the base and the cover plate surround to form the air duct, and wind blown out by the fan is collected by the base and the cover plate and is introduced into the air duct.

The contact piece comprises a surface contact part and connecting parts, wherein the surface contact part is convexly arranged in the middle, the connecting parts are horizontally arranged on two sides of the surface contact part, and the surface contact part is higher than the connecting parts. Fix the heat conduction copper pipe on the source that generates heat through middle bulge to the source parcel that will generate heat in the wind channel makes the wind energy in the wind channel enough blow the source upper portion that generates heat, and the faster transmission of heat is gone out, and utilizes this structure can wrap up the source upper portion that generates heat, reduces the dust and deposit on the source upper portion that generates heat.

The improved notebook computer is characterized in that the base is provided with a mounting hole, the surface contact part is arranged in the mounting hole, the heat conduction copper pipe can be fixed on a heating source by utilizing the mounting hole and the contact piece, the heat conduction copper pipe can also be fixed in an air duct of the air collecting piece, the use of an installation piece is reduced, and the narrow condition of the internal structure of the notebook computer is better satisfied.

In a further improvement, the heat dissipation fin adjacent to the air collecting piece covers the air outlet end of the air collecting piece; the wind collecting piece is provided with a transition section connected with the radiating fins covering the wind outlet end of the wind collecting piece. The cross section area of the air outlet end of the air collecting piece is reduced, the air outlet is reduced, and the connecting part of the air collecting piece and the radiating fins is reduced, so that backflow generated by contacting the radiating fins in the hot air transmission process is reduced, the transmitted wind energy can enter the flow guide channels of the radiating fins more quickly, and can be discharged out of the notebook computer more efficiently through the radiating fins.

The contact piece is further improved, the surface of the contact piece is provided with a heat conduction coating, the heat conduction coating on the surface of the contact surface is a coating film with excellent heat conduction performance, and reliable contact between the heat conduction coating and the contact piece is effectively guaranteed.

By adopting the technical scheme, the utility model has the beneficial effects that:

the utility model adds the wind collecting piece, concentrates and introduces wind into the wind channel by using the wind collecting piece, keeps the wind direction consistent with the heat transferring direction of the heat conducting copper pipe, transfers heat into the flow guide channels of the heat dissipating fins more efficiently by combining the wind channel, and then leads hot air in the notebook computer out of the computer through the heat dissipating fins.

Thereby achieving the above object of the present invention.

Drawings

Fig. 1 is a schematic structural diagram of a notebook computer heat dissipation assembly for improving heat dissipation according to the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is an exploded view of the present invention.

Fig. 4 is a view of the hidden wind-collecting member cover of the present invention.

In the figure: mounting the box 1; a fan 2; heat dissipating fins 3; a heat conducting copper pipe 4; a contact piece 5; a wind-collecting member 6; an air inlet end 601; an air outlet end 602; an air duct 603; a diversion hole 301; a base 604; a cover plate 605; a mounting hole 7; a transition section 8; the box cover 9 is installed.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

The embodiment discloses a notebook computer heat dissipation assembly for improving heat dissipation, as shown in fig. 1 to 4, comprising a mounting box 1 and a fan 2 in the mounting box; one end of the mounting box 1 facing the outer side of the notebook computer is provided with heat dissipation fins 3 which are arranged in parallel; the heat conduction copper tube 4 and the contact piece 5 are also included; the heat conducting copper pipe 4 is in contact with the contact piece 5;

in this embodiment, an air collecting member 6 is further installed outside the mounting box 1, an air inlet end 601 of the air collecting member 6 is communicated with one end of the fan 2 of the mounting box 1, and an air outlet end 602 of the air collecting member 6 is connected to the heat dissipating fins 3; the heat conducting copper pipe 4 passes through the air duct 603 of the air collecting piece 6. The air collecting piece 6 is added to introduce the air blown out by the fan 2 into the air duct 603 provided with the heat conducting copper pipe 3, so that the heat transfer is accelerated.

In this embodiment, the heat dissipation fin 3 is provided with a flow guiding hole 301; the heat conducting copper pipe 4 passes through the diversion hole 301. The heat dissipation area of the heat conduction copper pipe 4 is increased through the heat dissipation fins 3, and the heat inside the notebook computer is accelerated to be discharged.

In this embodiment, the guiding holes 301 are located at the lower portions of the heat dissipating fins 3 where the guiding holes 301 are located, and the guiding holes 301 of each heat dissipating fin 3 are located at the same height; the plurality of flow guide holes 301 are communicated to form a flow guide for the airflow to flow through each of the heat dissipating fins 3. The air guide channel is used for guiding the air in the air duct 603 into the heat dissipation fins 3, so that the heat dissipation fins 3 can exert efficiency to the maximum extent.

The wind-collecting member 6 in this embodiment includes a base 604 and a cover 605, and the base 604 and the cover 605 surround to form the wind channel 603. The contact piece 5 comprises a surface contact part protruding in the middle and connecting parts horizontally arranged on two sides of the surface contact part, and the surface contact part is higher than the connecting parts. The base is provided with a mounting hole 7, and the surface contact part is positioned in the mounting hole 7. Utilize contact piece 5 can fix heat conduction copper pipe 4 on the source that generates heat, also can fix heat conduction copper pipe 4 in the wind channel 603 of wind piece 6 that gathers, reduce the use of installed part, better satisfy in the narrow and small condition of notebook computer inner structure.

In this embodiment, the heat dissipation fin 3 adjacent to the air collecting member 6 covers the air outlet end 602 of the air collecting member; the wind collecting piece 6 is provided with a transition section 8 which is connected with the heat radiating fins 3 and covers the wind outlet end 602 of the wind collecting piece. The cross section area of the air outlet end 602 of the air collecting piece is reduced, the air outlet is reduced, the connecting part of the air collecting piece 6 and the radiating fins 3 is reduced, backflow generated by contacting with the radiating fins 3 in the hot air transmission process is reduced, the transmitted wind energy can enter the flow guide channels of the radiating fins 3 more quickly, the wind direction and the heat transmission direction of the heat conducting copper pipes 4 are kept consistent by the air collecting piece 6, the heat is transmitted to the flow guide channels of the radiating fins 3 more efficiently by combining the air channels 603, and then the hot air in the notebook computer is guided out of the computer through the radiating fins 3.

In this embodiment, the surface of the contact piece has a heat conducting coating, and the heat conducting coating on the surface of the contact surface is a film formed by a coating with excellent heat conducting property, so that reliable contact between the heat conducting coating and the contact piece 5 is effectively ensured.

When the radiator built in the notebook computer is adopted, the wind collecting piece 6 is added, wind is concentrated and introduced into the wind channel 603 by the wind collecting piece 6, the heat conducting copper pipe 4 is arranged in the wind channel 603, the wind direction is consistent with the heat transferring direction of the heat conducting copper pipe 4, the heat is more efficiently transferred into the flow guide channels of the heat radiating fins 3 by combining the wind channel 603, and then the hot air in the notebook computer is led out to the outside of the computer by the heat radiating fins 3.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (8)

1. The utility model provides a promote radiating notebook computer radiator unit which characterized in that: comprises a mounting box (1) and a fan (2) in the mounting box (1); one end of the mounting box (1) facing the outer side of the notebook computer is provided with heat dissipation fins (3) which are arranged in parallel; the heat conduction copper tube is characterized by also comprising a heat conduction copper tube (4) and a contact piece (5); the heat conduction copper pipe (4) is in contact with the contact piece (5);

the air collecting piece (6) is further mounted outside the mounting box (1), an air inlet end (601) of the air collecting piece (6) is communicated with one end of the fan (2) of the mounting box (1), and an air outlet end (602) of the air collecting piece (6) is connected to the radiating fins (3);

the heat conduction copper pipe (4) penetrates through an air duct (603) of the air collecting piece (6).

2. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 1, wherein: each heat dissipation fin (3) is provided with a flow guide hole (301); the heat conduction copper pipe (4) penetrates through the diversion hole (301).

3. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 2, wherein: the flow guide holes (301) are positioned at the lower parts of the heat dissipation fins (3) where the flow guide holes (301) are positioned, and the flow guide holes (301) of each heat dissipation fin (3) are positioned at the same height; the guide holes (301) are communicated to form a guide channel for airflow to flow through each radiating fin (3).

4. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 1, wherein: the air collecting piece (6) comprises a base (604) and a cover plate (605), and the base (604) and the cover plate (605) surround to form the air duct (603).

5. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 4, wherein: the contact piece (5) comprises a surface contact part with a convex middle part and connecting parts horizontally arranged on two sides of the surface contact part, and the surface contact part is higher than the connecting parts.

6. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 5, wherein: the base (604) is provided with a mounting hole (7), and the surface contact part is positioned in the mounting hole (7).

7. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 1, wherein: a heat radiation fin (3) adjacent to the air collection piece (6) covers the air outlet end (602) of the air collection piece (6); the wind collecting piece (6) is provided with a transition section (8) which is connected with the wind outlet end (602) covered on the wind collecting piece (6) and the heat dissipation fins (3).

8. The heat dissipation enhancing notebook computer heat dissipation assembly of claim 5, wherein: and the surface of the contact piece (5) is provided with a heat conduction coating.

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