CN109270998B

CN109270998B - Spherical host computer box of radiating of computer surrounding type

Info

Publication number: CN109270998B
Application number: CN201811387134.8A
Authority: CN
Inventors: 张秋霞; 郭喜建; 宋朝; 谢君利; 郭魏源
Original assignee: Zhejiang Botuolini Machinery Co ltd
Current assignee: Zhejiang Botuolini Machinery Co ltd
Priority date: 2017-12-27
Filing date: 2017-12-27
Publication date: 2020-08-21
Anticipated expiration: 2037-12-27
Also published as: CN107908259A; CN107908259B; CN109270998A

Abstract

The invention discloses a spherical main machine box body with a computer in a surrounding type heat dissipation mode, which comprises a Vectran upper cover, wherein clamping edges are distributed on the Vectran upper cover in an arc shape and clamped into connecting bulges distributed on heat dissipation fins in an arc shape, the heat dissipation fins are surrounded below the connecting bulges in a trapezoidal structure, two copper heat pipes which are symmetrical up and down are distributed in the heat dissipation fins, a push plate capable of being pushed longitudinally is arranged on the inner wall of the Vectran upper cover, a plurality of annular heat expansion assemblies are distributed in the middles of the two copper heat pipes, each heat expansion assembly is embedded into the inner part of a structure between the heat dissipation fins, and each copper heat pipe is communicated with a vertical heat exchange pool below the heat dissipation fins. The spherical host box body with the surrounding type heat dissipation function is integrally and creatively provided with the spherical structure, can be obviously different from any traditional host loading box body at present, has more scientific and technological sense and market competitiveness, is more suitable for modern families, and can be perfectly integrated into modern decoration.

Description

Spherical host computer box of radiating of computer surrounding type

The patent application is divisional application, the application number of a parent application is 2017114500247, and the application date of the parent application is 12 months and 27 days in 2017.

Technical Field

The invention relates to computer equipment, in particular to a spherical host box body with a computer capable of radiating in a surrounding mode.

Background

The chassis is used as a part of computer accessories, has the main function of placing and fixing various computer accessories, plays a role in supporting and protecting, has the important function of shielding electromagnetic radiation, and is not classified as a key consideration object in DIY because the chassis can not rapidly improve the performance of the whole machine unlike the accessories such as a CPU, a display card, a mainboard and the like. But the quick-witted case is also not no effect, the host computer machine case is as an organic whole with computer accessories, each working hardware during operation can form high temperature, the machine case is one of the important index as the selection of electronic science and technology to high temperature heat dispersion and whether cool appearance of dazzling, it is the box structure of frame type facade mostly in the market at present, use one of the very general electronic product that just fuses into people's life as people, the structure of host computer box not only need have excellent radiating effect, must still have the overall structure of bigger market competition and science and technology sense, integrality, the extensibility that needs to possess during the hardware modularization expansion and more adjustable installation space.

Disclosure of Invention

In view of the above situation, the present invention provides a spherical computer case with a circular heat dissipation function, which not only needs to have an excellent heat dissipation effect, but also needs to have an overall structure with greater market competitiveness and technological feel, integrity, extensibility required for hardware modularization expansion, and more adjustable installation space.

In order to achieve the purpose, the invention provides the following technical scheme: radiating spherical host computer box of surrounding type, including the Vectran upper cover, it has the card reason to be the arc distribution on the Vectran upper cover, card reason card is gone into and is the arc distribution in the connection arch on the fin, the fin is that the trapezium structure encircles in the bellied below of connection, it has two copper heat pipes of longitudinal symmetry to distribute in the fin, but set up the thrust plate of vertical lapse on the inner wall of Vectran upper cover, the middle distribution of two copper heat pipes has a plurality of annular heat expansion subassemblies that are, each heat expansion subassembly embedding each the inside department of structure between the fin, each the copper heat pipe is linked together with the heat transfer vertical pool of below.

In one embodiment, the Vectran upper cover is an arc-shaped structure, flat end faces are arranged on the periphery of the Vectran upper cover, a transition arc is arranged at the joint between the flat end faces, the rotating motor is arranged in the middle of the Vectran upper cover, and sealing strips are attached to the peripheral inner wall of the Vectran upper cover in a surrounding mode.

In one embodiment, the heat exchange vertical pool is communicated with the condensed liquid cavity, the condensed liquid cavity is symmetrically arranged along the longitudinal axis of the heat exchange vertical pool, and one end of the condensed liquid cavity is fixed with a ball bearing.

In one embodiment, the ball bearing is symmetrically connected with the radiating fins in a transmission way by the axial lead of the longitudinal surrounding direction of the radiating fins.

In one embodiment, at least four rotating blades are equidistantly distributed around the rotating motor, each rotating blade faces a transition arc at a joint between flat end faces of the Vectran upper cover, a corresponding number of circulating conveying pipes are led out of each rotating blade, and each circulating conveying pipe extends downwards and is communicated to a condensate cavity around the copper heat pipe.

In one embodiment, fins are attached to the inner wall of the Vectran upper cover among the rotating blades and distributed outwards, and the fins are movably installed in fin installation grooves distributed around the rotating motor in an arc shape.

Compared with the prior art, the invention has the beneficial effects that: the spherical main machine box body with the surrounding type heat dissipation adopts a spherical structure, can be obviously different from any traditional main machine loading box body at present, has more scientific and technological sense and market competitiveness, is more suitable for modern families, can be perfectly integrated into modern decoration, adopts a high-strength polyarylate fiber product Vectran upper cover as a packaging part at the packaging part of the main machine, utilizes a connecting bulge and a clamping edge to directly insert and pull, can quickly assemble the Vectran upper cover on a heat dissipation sheet to form an integrated structure, adopts the Vectran upper cover as the packaging part, can ensure that the upper part of the whole main machine box body has larger mounting space and flexible change performance, has light texture but equivalent integral strength to a metal piece, is scratch-resistant and friction-resistant, can quickly absorb a heat source in the box body by a copper heat pipe, and circularly cools the copper heat pipe by condensate conveyed to a condensate liquid cavity in a heat exchange vertical pool, and a thermal expansion assembly is influenced by heat energy, the structure of the invention can realize 360-degree divergent surrounding cooling process of condensate and wind energy, and the heat energy can be discharged from the periphery at the same time, thereby effectively ensuring the working temperature of internal hardware.

Drawings

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

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

FIG. 3 is a schematic view of the backside structure of the present invention.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the scope of protection.

Those of ordinary skill in the art will recognize that the directional terms "upper," "lower," "outer," "inner," etc., are used in a descriptive sense with respect to the drawings and are not intended to limit the scope of the claims.

Referring to fig. 1, as shown in the embodiment of the drawing, clamping edges 9 are distributed on a Vectran upper cover 1 in an arc shape, the Vectran upper cover 1 is clamped into connecting bulges 2 distributed on a radiating fin 3 in an arc shape through the clamping edges 9, sealing strips 15 attached around the peripheral inner wall of the Vectran upper cover 1 are extruded into the connecting space of the Vectran upper cover and the radiating fin, the expansion characteristic of the sealing strips 15 is acted after the extrusion force disappears, the incompletely combined part of the connecting part of the sealing strips and the radiating fin is completely filled, dust and moisture are prevented from entering a box body, the radiating fin 3 surrounds below the connecting bulges 2 in a trapezoidal structure, the distributing direction of the radiating fin 3 is integrally in a three-dimensional spherical shape, and the overall structure formed by the surrounding is in a sector shape due to the trapezoidal structure, a space beneficial to accelerating air circulation is released above, two copper heat pipes 4 which are symmetrical up and down are distributed in the radiating fin 3, high heat generated when working hardware in the machine body works is conducted into the, a plurality of annular thermal expansion components 7 are distributed in the middle of the two copper heat pipes 4, the thermal expansion components 7 are rapidly expanded and contracted under the influence of heat energy in the copper heat pipes 4, the heat energy is consumed through conversion between the heat energy and the kinetic energy, each thermal expansion component 7 is embedded in the structure inside among the radiating fins 3, when thermal potential energy flows out of the outside from among the radiating fins 3, the thermal expansion components 7 embedded among the radiating fins 3 can be simultaneously contracted and expanded to assist in the consumption of the heat energy, the thermal expansion components 7 can also accelerate the flowing speed of condensed liquid in the condensed liquid cavity 5 through expansion, when each hardware works at high intensity, the heat dissipation speed is accelerated, the super working efficiency is realized, each copper heat pipe 4 is communicated with the heat exchange vertical pool 6 below, the heat exchange vertical pool 6 is communicated with the condensed liquid cavity 5, and the condensed liquid cavities 5 are symmetrically arranged along the longitudinal axis of the heat exchange vertical pool 6, condensate is stored in the heat exchange vertical pool 6, the condensate cavity 5 extracts condensate from the heat exchange vertical pool 6, the condensate absorbs heat energy transmitted from each copper heat pipe 4 and then enters the heat exchange vertical pool 6 to be subjected to cold and heat exchange, the heat energy is absorbed, the condensate which returns to normal temperature again flows out of the condensate cavity 5 on the other side, and the condensate is circularly conveyed to the other end of each copper heat pipe 4 to absorb heat, so that the whole process of circulating heat absorption, condensation and heat exchange is realized.

Referring to fig. 2, as shown in the embodiment of the drawings, the Vectran upper cover 1 is made of a high-strength polyarylate fiber product, namely Vectran, and as an upper cover part of the box body, the Vectran upper cover 1 has the characteristics of being lighter and more convenient compared with a traditional metal shell, and has the advantages of equivalent strength, excellent signal shielding performance, flexibility, extensibility and larger installation space when internal hardware is installed, the Vectran upper cover 1 is of an arc-shaped structure, flat end faces are arranged on the periphery of the Vectran upper cover 1, transition arcs are arranged at the joints between the flat end faces, and the arcs are full in transition, wear-resistant and wear-resistant, and have no protruding edges.

Referring to fig. 1, 2 and 3, as shown in the embodiment of the drawings, at least four rotating blades 13 are equidistantly distributed around a rotating motor 12, the rotating motor 12 is connected with the rotating blades 13 in a transmission way, the rotating blades 13 rotate to cover the whole box body with wind power from top to bottom, heat energy inside the box body is comprehensively released through radiating fins, because the rotating blades 13 respectively face to transition circular arcs at the joints between the flat end surfaces of the Vectran upper cover 1, the inner wall of the Vectran upper cover 1 can be attached between the rotating blades 13, and simultaneously fins 14 are outwards distributed, the fins 14 are movably arranged in fin mounting grooves 11 which are distributed around the rotating motor 12 in an arc way, the radiating and heat conducting functions of the fins 14 are excellent, a corresponding number of circulating conveying pipes 10 are respectively led out of the rotating blades 13, each circulating conveying pipe 10 extends downwards and is communicated to a condensate cavity 5 around a copper heat pipe 4, the interior of the circulating conveying pipe 10 is conveyed with condensed liquid, and the condensed liquid covers the interior of the whole box body through the circulating conveying pipe 10, so that the cooling work can be carried out at any time.

In the above embodiment, the rotating motor 12 is provided in the middle of the Vectran upper cover 1, so that the center point of each rotating blade 13 connected to the rotating motor 12 is positioned at the center point of the whole case, and thus the wind energy output by the rotating blades 13 through rotation can be more uniformly applied to the whole space, the inner wall of the Vectran upper cover 1 is provided with the push plate 16 capable of being pushed longitudinally, the inner space of the spherical main case is opened through the push plate 16 without releasing the connection state of the Vectran upper cover 1 and the heat dissipation fins 3, the hard disk inside the case is maintained in the space opened by the push plate 16, and the maintenance operation is performed, which has immediacy and convenience, one end of the condensate chamber 5 is fixed with the ball bearing 8, the ball bearing 8 is symmetrically connected with each heat dissipation fin 3 through the axial line of the heat dissipation fin 3 in the longitudinal surrounding direction, and the whole heat dissipation fin 3 can be rotated through the ball bearing 8, the purpose of flexible rotation can be achieved by utilizing the driving of the motor or kinetic energy equipment, the internal heat energy discharge speed is increased, and the ornamental and novel effects are further achieved.

The present invention has been described in detail with reference to the specific embodiments and examples, but these are not intended to limit the present invention. Many variations and modifications may be made by one of ordinary skill in the art without departing from the principles of the present invention, which should also be considered as within the scope of the present invention.

Claims

1. Spherical host computer box structure with surrounding type heat dissipation, including upper cover (1), its characterized in that: the heat exchange structure is characterized in that the upper cover (1) is arc-shaped and is provided with a clamping edge (9), the clamping edge (9) is clamped in a connecting bulge (2) which is arc-shaped and is distributed on the radiating fin (3), the radiating fin (3) is of a trapezoidal structure and surrounds the lower part of the connecting bulge (2), two copper heat pipes (4) which are symmetrical up and down are distributed in the radiating fin (3), a push plate (16) which can be pushed longitudinally is arranged on the inner wall of the upper cover (1), a plurality of annular heat expansion assemblies (7) are distributed in the middle of the two copper heat pipes (4), each heat expansion assembly (7) is embedded in the structural inner part between the radiating fins (3), each copper heat pipe (4) is communicated with a heat exchange vertical pool (6) below, the upper cover (1) is of an arc-shaped structure, flat end faces are arranged around the upper cover, and a transition arc is arranged at the joint between the flat end, and the centre of upper cover (1) is rotating electrical machines (12), and encircles on the inner wall all around of upper cover (1) and has attached sealing strip (15), the perpendicular pond of heat transfer (6) are linked together with condensate liquid chamber (5), and condensate liquid chamber (5) with the vertical axis symmetry installation of the perpendicular pond of heat transfer (6), the one end in condensate liquid chamber (5) is fixed with ball bearing (8).

2. The spherical main unit casing structure with encircling heat dissipation of claim 1, wherein: the ball bearing (8) is symmetrically connected with the radiating fins (3) in a transmission way by the axial lead of the longitudinal surrounding direction of the radiating fins (3).

3. The spherical main unit casing structure with encircling heat dissipation of claim 1, wherein: at least four rotating blades (13) are equidistantly distributed on the periphery of the rotating motor (12), each rotating blade (13) faces to a transition arc part at the joint between the flat end faces of the upper cover (1), a corresponding number of circulating conveying pipes (10) are led out of each rotating blade (13), and each circulating conveying pipe (10) extends downwards and is communicated to a condensate cavity (5) around the copper heat pipe (4).

4. The spherical main unit casing structure with encircling heat dissipation of claim 3, wherein: fins (14) are attached to the inner wall of the upper cover (1) among the rotating blades (13) and distributed outwards, and the fins (14) are movably arranged in fin mounting grooves (11) which are distributed around the rotating motor (12) in an arc shape.