CN203643925U - Two-way notebook cooler - Google Patents

Abstract

A two-way notebook cooler mainly includes a honeycomb-structured base and hexagonal-prism-shaped cooler modules, and is characterized in that the hexagonal-prism-shaped cooler modules are embedded in clamping grooves of the honeycomb-structured base according to the real cooling demand of a notebook, so that the hexagonal-prism-shaped cooler modules achieve the conducting state and provide the cooling function through the effective contact between the outer side of each hexagonal-prism-shaped cooler module and a conductive sheet in a corresponding position of the honeycomb-structured base. During use, the hexagonal-prism-shaped cooler modules are embedded into different clamping grooves of the base through adjustments, or the hexagonal-prism-shaped cooler modules are embedded reversely or after being rotated horizontally, so as to provide cooling airflows in different directions; a front baffle, a left baffle and a right baffle are used to prevent the notebook from slipping; the honeycomb-structured base, the hexagonal-prism-shaped cooler modules, a USB (universal serial bus) plug-in module and a power switch module are all mounted in a detachable manner, so as to meet the cooling demands of different notebooks and facilitate maintenance and cleaning.

Description

Two-way notebook radiator

Technical field

This utility model belongs to notebook computer utility appliance technical field.

Background technology

At present, the notebook radiator on market is mainly divided into base type heating radiator, PC cassette heating radiator two classes.Comparatively popular and mainly comprise in the former: common radiator, super polar core heating radiator.Common radiator is common fan type radiating device, or opens or closes or adjustable fan rotating speed, easy to use and price is suitable.Super polar core heating radiator (M.C.C.T) can pass through multistage gears regulating switch, and control related circuit is realized the opening and closing of corresponding fan, and intellectuality improves but price is higher.And the latter, this heating radiator can directly insert in the pc card slot of notebook, utilizes fan to rotate outside exhausting, reaches the object of fast cooling.But, due to the difference of notebook computer indoor design, this heating radiator is not to be applicable to all notebooks.If installed by force, upset inner cross-ventilation, cause notebook internal heat not shed in time, so that damage equipment, also thus, popularization degree is low.

Summary of the invention

In order to overcome assembled formation of existing notebook radiator, can not need to adjust radiating module position and can not effectively fall hot problem by blowing and air draught combination according to user.The utility model provides a kind of novel design concept, considering under the prerequisite of price and practicality, using the base type heating radiator of main flow in the market as fundamental design idea, and the design concept entirety that part is used for reference PC cassette heating radiator realizes designing requirement.This notebook radiator can not only need to be adjusted the position of hexa-prism heat spreader module and be laid and used different radiating modes by Direct/Reverse according to actual service condition according to user, and foot of radiator power module is completely detachable, is convenient to clean and safeguards.

The utility model solves the technical scheme that its technical matters adopts:

The cellular structure design that foot of radiator one-piece construction adopts bionic to learn, the separate and integrated connection of each structural unit is base entirety.When forward is placed, top is blank, is convenient to embed hexa-prism heat spreader module, and top, below is metal gauze processed, is mainly used in isolating dust.Base back surface is applicable to position USB supply module assembly is installed, system is with bus mode work, and the wire laying mode that employing is connected in parallel between each structural unit, single cellular structure inner side is provided with slideway to embed as required hexa-prism heat spreader module, and relevant position fixed-conductive film, for the hexa-prism heat spreader module connecting and conducting embeds, bus parallel connection by wire and portion in base back surface, also therefore between each hexa-prism heat spreader module, mutual when working affects very micro-mutually.Base for supplying power modular assembly is also detachable, and the conductive material in base all uses the fine copper material that inoxidizability is strong, when ensureing conducting, in the time of cleaning base, can directly supply module assembly be removed, and then water entirety is rinsed clean.To a certain extent customer service the drawback of the cleaning of assembled formation of heating radiator inconvenience in the market.

Hexa-prism heat spreader module profile adopts six prism structures of arranging in pairs or groups and can embed with base cellular structure, prismatic surface is module bodies supporting construction, suitable power and low noise DC micromotor are selected to install in prism structure inside center position, and diameter be installed on DC motor shaft be slightly less than the blade of distance between the inner two nearest parallel surfaces of six prisms, in the time of merge module forward or backwards conducting for blowing or air draught.Two electrodes of direct current generator are drawn by wire, and conducting wire end connects conducting strip and is fixed on the outside of hexa-prism heat spreader module, and ensure when embedded can effectively contact also conducting with the conducting strip that is fixed on before the cellular module of base inner side.Hexa-prism heat spreader module upper and lower surface is metal screen structure processed, does further dustproof processing.

In order to keep the appearance effect except entire system structure and function, suggestion is used blue white black or black orange red collocation tone.

The beneficial effects of the utility model are can, according to user's actual service condition, regulate easily the position of hexa-prism heat spreader module, and optionally adopt different radiating modes, effective temperature-reducing, novel structure and maintenance convenient for cleaning.

Brief description of the drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described further.

Fig. 1 notebook radiator base vertical view.

Fig. 2 notebook radiator base side view (right side).

Fig. 3 notebook radiator base front view.

Fig. 4 notebook radiator base rear view.

Fig. 5 notebook radiator base top view.

Fig. 6 hexa-prism heat spreader module vertical view.

Fig. 7 hexa-prism heat spreader module side view.

Fig. 8 cellular structure draw-in groove vertical view.

Sectional view in Fig. 9 cellular structure draw-in groove.

1. cellular structure draw-in grooves in figure, 2.USB connecting module, 3. power switching module, 4. draw-in groove bottom Air Filter, 5. structure on two sides stiffener, 6. left side baffle plate, 7. front side shield, 8. right side baffle plate, 9. bottom base, 10. side rotation axis, 11. support slippers, 12. base non-slip rubber blocks (can embedded support bar), 13. base non-slip rubber blocks, 14. support bars, 15. support bar rotation axiss, 16. draw-in groove bottom Air Filters, 17 front rotation axiss, 18. support slippers, 19. bottom non-slip rubber blocks, 20.USB interface, 21. module master switchs, 22. support slippers, 23. support bars, 24. removable power module, 25. support slippers, 26. side rotation axiss, 27. support bar rotation axiss, 28. front rotation axiss, 29. bottom non-slip rubber blocks (can embedded support bar), 30. high powers, low noise direct current generator, 31. hexa-prism radiating module Air Filters, 32. outside conducting strips, 33. hexa-prism radiating module Air Filters, 34. outside conducting strips, 35. draw-in groove bottom Air Filters, the embedded slideway of 36. draw-in groove (there is conducting strip inner side), 37. embedded conducting strips, 38. draw-in groove bottom Air Filters, 39. draw-in groove slideways.(note: the wherein identical but visual angle difference of some division name)

Embodiment

The enforcement of this utility model design is mainly the mechanical processing process of the foot of radiator of cellular structure and the hexa-prism heat spreader module of correspondence, and this part is manufactured by design drawing is correct by the producer that is correlated with.In addition, how correct this equipment of use more merits attention with the overall advantage that fully plays out this utility model.

When use, first correct placement foot of radiator, and front etched skeleton type is upwards.Afterwards as Fig. 2, support slipper (11) on support bar rotation axis (15) sliding supporting bar (14) is also adjusted to upright position by the supporting module on the sliding bar of both sides (11) and effectively contacts with the structure on two sides stiffener (5) in Fig. 1, and sliding support module (11) causes foot of radiator and support bar (14) to form required angle.Afterwards respectively around Fig. 2, in Fig. 3, side rotation axis (10) and front rotation axis (17) are pressed the front side shield (7) shown in Fig. 1, left side baffle plate (6), right side baffle plate (8) in the inner part, again adjust, position base, makes effectively contact plane stable of base non-slip rubber block in Fig. 2 (13,12).First user is placed on notebook computer on foot of radiator, and make the baffle plate (6 in Fig. 1 as far as possible, 7, 8) effectively contact with computer, pick up computer, each louvre particular location of observing the computer back that uses distributes, according to physical location by the heat spreader module of hexa-prism shown in Fig. 6, embed the cellular structure draw-in groove (1) of Fig. 1 by the draw-in groove slideway (39) of Fig. 9, and the outside conducting strip (32) of Fig. 6 and the embedded conducting strip (37) of Fig. 9 are effectively contacted, and hexa-prism radiating module entirety is embedded completely to the cellular structure draw-in groove (1) of Fig. 1, and be pressed onto the end.After all laying, connect USB interface (20) in notebook computer and Fig. 4 and provide power supply for all hexa-prism heat spreader module entirety, open the module master switch (21) in Fig. 4, notebook radiator whole system is started working, on the notebook radiator base that again notebook computer is positioned over to regulate.

In process, user adjusts arbitrarily the position of support slipper (25) in support bar (14) and Fig. 5, makes foot of radiator form different angles.And can increase as required or reduce the hexa-prism heat spreader module shown in Fig. 6, or hexa-prism heat spreader module is taken out and horizontally rotate after 180 ° and again embed in the cellular structure draw-in groove (1) in Fig. 1, now use the operative orientation of hexa-prism heat spreader module of direct current generator with completely contrary before, blowing before becomes air draught, and air draught before becomes blowing.Also can, by completely inverted in hexa-prism heat spreader module vertical direction, again embed, realize similarly action.But require emphasis and be pointed out that at this, because high power employed in figure 6, low noise direct current generator (30) are one-sided dresses, oppositely time, increased accordingly the distance between motor and application point, practical function effect has certain decline.

While cleaning notebook radiator base, press the removable power module (24) in Fig. 4, take out appropriate section, certainly also take out hexa-prism heat spreader module, just can carry out the clean even whole body washing of entirety to foot of radiator afterwards and also can.(note: on do not quote all application because some division name and act on identical but visual angle difference in figure)

Certainly, in the situation that not limiting cost, also the rotating speed that can control direct current generator by corresponding circuit reaches above-mentioned identical object, even make the automatic collecting temperature data of whole laptop heat-dissipation system, Based Intelligent Control air mass flow, complete intelligent, but obviously show taking profit as the sales situation of direct object in reality, income done so very micro-.So comprehensively weigh each side factor, between common radiator and Intelligent notebook computer heating radiator, and the utility model of taking into account both performances more merits attention and advocates.

Claims (2)

1. two-way notebook radiator, in foot of radiator, embed hexa-prism heat spreader module, and can dismantle, it is characterized in that: hexa-prism heat spreader module embeds in the honeycomb radiator base that can disassemble power module directly water flushing, the contact of the conducting strip of the correspondence position by hexa-prism heat spreader module outside and base inner wall, conducting normal work, module can also can oppositely embed in forward embedding, provide the air-flow of different directions, for different heat radiation requirements.

2. two-way notebook radiator according to claim 1, it is characterized in that: the hexa-prism heat spreader module that integration packaging is good embeds in the base draw-in groove of correspondingly-shaped forward or backwards, and by the copper conducting strip in outside and effective contact of the corresponding copper conducting strip in base draw-in groove wall, conducting is also worked forward or backwards.

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