CN203324916U

CN203324916U - Integrated computer

Info

Publication number: CN203324916U
Application number: CN2013203640015U
Authority: CN
Inventors: 梁永杰
Original assignee: Utechzone Co Ltd
Current assignee: Utechzone Co Ltd
Priority date: 2013-06-03
Filing date: 2013-06-24
Publication date: 2013-12-04
Anticipated expiration: 2023-06-24
Also published as: TWM463384U

Abstract

An integrated computer comprises a casing, a host module and a heat dissipation device, wherein the casing is provided with a first accommodating space, a plurality of first upper exhaust through holes communicated above the first accommodating space and a plurality of first air inlet through holes communicated with the first accommodating space; the host module is arranged in the first accommodating space and comprises an electronic element; the heat dissipation device comprises a first heat dissipation fan arranged in the first accommodating space, and the first heat dissipation fan is used for exhausting air towards the first upper exhaust through hole so as to discharge heat energy generated when the electronic element operates to the outside of the shell.

Description

Computer with integrated

Technical field

The utility model relates to a kind of computer with integrated, particularly relates to a kind of heat abstractor of computer with integrated.

Background technology

At present computer with integrated (All-in-onePC) mostly comprises a casing, and a host module be arranged in the accommodation space of casing, and casing is formed with a plurality of vent ports, and vent port is communicated between accommodation space and casing external environment condition.Host module comprises that motherboard, central processing unit and hard disk etc. provide the computing machine normal operation required necessary electronic component.

The electronic components such as the motherboard of host module, central processing unit and hard disk can produce hot gas in operation, when the hot gas in accommodation space is saturated to a certain degree, air pressure in accommodation space can be higher than the air pressure of casing external environment condition, make in accommodation space and form barotropic state, part hot gas in accommodation space can be expelled to the casing external environment condition by vent port, to reach the effect of heat radiation.

, still have part hot gas and stay in accommodation space when the barotropic state due to accommodation space, make the electronic component of host module to remain under the environment that temperature is higher always and operate, therefore, easily cause reduce the serviceable life of electronic component.

Summary of the invention

Fundamental purpose of the present utility model, be to provide a kind of computer with integrated, the design of outside exhaust by radiator fan towards casing, air pressure in the accommodation space of casing can be lower than the air pressure of casing external environment condition, make in accommodation space and form negative pressure state, whereby, can effectively reduce the temperature in accommodation space, to promote the serviceable life of electronic component.

The purpose of this utility model and solution background technology problem realize by the following technical solutions, according to the computer with integrated the utility model proposes, comprise a casing and a host module, this casing is formed with one first accommodation space, and this host module is arranged in this first accommodation space and comprises an electronic component.

This casing also be formed with a plurality of be communicated in this first accommodation space top first on exhaust hole, and a plurality of the first air inlet through holes that are connected with this first accommodation space, this computer with integrated also comprises a heat abstractor, this heat abstractor comprises that one is arranged at the first radiator fan in this first accommodation space, this first radiator fan is in order to towards exhaust hole direction exhaust on described first, and the heat energy produced with by this electronic component running the time is disposed to this casing outside.

The purpose of this utility model and solution background technology problem can also adopt following technological means further to realize.

This host module also comprises a motherboard, this electronic component is one to be arranged at the central processing unit of this motherboard, this heat abstractor also comprises that one is connected to conduct the radiating module of the heat energy produced when this electronic component operates with this electronic component, this first radiator fan is arranged on this radiating module, this radiating module is corresponding to exhaust hole below on described first, this first radiator fan in order to this radiating module towards exhaust hole direction exhaust on described first.

This first radiator fan is a blower fan, and this first radiator fan has first air intake opening towards described the first air inlet through hole, and one first gas outlet, and this first gas outlet is adjacent to the side of this radiating module in contrast to exhaust hole on described first.

This casing also be formed with a plurality of be communicated in this first accommodation space top second on exhaust hole, and a plurality of the second air inlet through holes that are connected with this first accommodation space, this heat abstractor also comprises that one is arranged at the second radiator fan in this first accommodation space, and this second radiator fan is in order to towards exhaust hole direction exhaust on described second.

This second radiator fan is a blower fan, and this second radiator fan has one second air intake opening, and one on described second the second gas outlet of exhaust hole.

This casing also is formed with second accommodation space that is communicated in this first accommodation space below, and at least one lower exhaust hole that is communicated in this second accommodation space below, this computer with integrated also comprises an eye identifying device be arranged in this second accommodation space, this heat abstractor also comprises at least one the 3rd radiator fan be arranged in this second accommodation space, and the 3rd radiator fan is positioned at above this time exhaust hole in order to towards the exhaust of this time exhaust hole direction.

The quantity of the lower exhaust hole of this casing be two and both separately, this eye identifying device comprises two luminescence units that lay respectively at these twice exhaust hole tops, an and image capture element be arranged between this two luminescence unit, the quantity of the 3rd radiator fan of this heat abstractor is two, and respectively the 3rd radiator fan is positioned at this time corresponding exhaust hole top in order to this time exhaust hole direction exhaust towards correspondence.

Respectively the 3rd radiator fan is an aerofoil fan.

This casing comprises a back casing, an and procapsid that is engaged in this back casing front end, this back casing and this procapsid form this first accommodation space jointly, this back casing comprises the top board that a rear plate, is connected in this rear plate top, reach one and be connected in this side plate of plate side afterwards, should after plate be formed with described the first air inlet through hole, this top board is formed with on described first exhaust hole on exhaust hole and described second, this side plate is formed with described the second air inlet through hole.

This casing also comprises that one is engaged in the lower house of this back casing bottom and this procapsid bottom, and this back casing, this procapsid and this lower house form this second accommodation space jointly, and this lower house is formed with this twice exhaust holes.

The beneficial effects of the utility model are: the design by the first radiator fan of heat abstractor and the second radiator fan towards the external environment condition exhaust of casing, make in the first accommodation space and can form negative pressure state, can effectively reduce the temperature in the first accommodation space, to promote electronic component, motherboard, hard disk and other serviceable life as electronic components such as storer or chips as central processing unit.Moreover, design by the 3rd radiator fan of heat abstractor towards the external environment condition exhaust of casing, make in the second accommodation space and can form negative pressure state, can effectively reduce the temperature in the second accommodation space, to promote the serviceable life of luminescence unit and image capture element.

The accompanying drawing explanation

Fig. 1 is the stereographic map of a preferred embodiment of the utility model computer with integrated;

Fig. 2 is the three-dimensional exploded view of a preferred embodiment of the utility model computer with integrated, and the assembled relation between casing, host module and heat abstractor is described;

Fig. 3 is the three-dimensional exploded view that a preferred embodiment of the utility model computer with integrated is watched by another visual angle, and the assembled relation between casing, host module and heat abstractor is described;

Fig. 4 is the cut-open view of getting along the V-V hatching line in Fig. 1, and the radiating mode of the first radiator fan and the second radiator fan is described;

Fig. 5 is the partial perspective view of a preferred embodiment of the utility model computer with integrated, illustrates that the eye identifying device is arranged in the second accommodation space; And

Fig. 6 is the partial sectional view of a preferred embodiment of the utility model computer with integrated, and the radiating mode of the 3rd radiator fan is described.

Embodiment

Below in conjunction with drawings and Examples, the utility model is elaborated.

Consulting Fig. 1, Fig. 2 and Fig. 3, is a preferred embodiment of the utility model computer with integrated, and this computer with integrated 100 comprises a casing 1, a host module 2, and a heat abstractor 3.

Casing 1 be formed with one first accommodation space 101, a plurality of be communicated in the first accommodation space 101 tops first on exhaust hole 102, and a plurality of the first air inlet through holes 103 that are connected with the first accommodation space 101.Host module 2 is arranged in the first accommodation space 101 and comprises an electronic component 22.Heat abstractor 3 comprises that one is arranged at the first radiator fan 32 in the first accommodation space 101, the first radiator fan 32 is in order to towards exhaust hole 102 direction exhausts on first, and the heat energy produced with by electronic component 22 running the time is disposed to the external environment condition of casing 1 via exhaust hole 102 on first.Whereby, the air pressure in the first accommodation space 101 can make the interior formation negative pressure state of the first accommodation space 101 lower than the air pressure of casing 1 external environment condition, can effectively reduce the temperature in the first accommodation space 101, to promote the serviceable life of electronic component 22.In addition, be communicated in the design of the first accommodation space 101 tops by exhaust hole 102 on first, when the hot gas that makes electronic component 22 produce up flows, can be directly via exhaust hole 102 on first, be disposed to the external environment condition of casing 1, whereby, can increase further the efficiency of heat radiation.

Below will be elaborated for concrete structure and the radiating mode of computer with integrated 100:

Consult Fig. 2, Fig. 3 and Fig. 4, in the present embodiment, host module 2 also comprises a motherboard 21, and electronic component 22 is one to be arranged at the central processing unit of motherboard 21.Heat abstractor 3 also comprises that one is connected the radiating module 31 of the heat energy produced while operating in order to conduction electron element 22 with electronic component 22, the first radiator fan 32 is arranged on radiating module 31, radiating module 31 is corresponding to exhaust hole 102 belows on described first, the first radiator fan 32 in order to radiating module 31 towards exhaust hole 102 direction exhausts on described first.Special instruction, although the electronic component 22 of the present embodiment is to take central processing unit to explain as example, not as limit, electronic component 22 can produce the electronic component of heat energy in the time of can being also other runnings such as storer or chip.

Casing 1 comprises a back casing 11, and a procapsid 12 that is engaged in back casing 11 front ends, back casing 11 and common first accommodation spaces 101 that form of procapsid 12.Back casing 11 comprises a rear plate 111, and a top board 112 that is connected in rear plate 111 tops, and rear plate 111 is formed with described the first air inlet through hole 103, and top board 112 is formed with exhaust hole 102 on described first.Casing 1 also comprises that one is arranged at the bearing frame 13 in the first accommodation space 101, and bearing frame 13 has a rear framework 131, and a front framework 132 that is engaged in rear framework 131 front ends, and the mode that motherboard 21 locks by screw is locked in front framework 132 back sides.Rear framework 131 is formed with the after-opening 133 of one day to rear side, and the first upper shed 134 upward on one day, the first air inlet through hole 103 aligned in position of after-opening 133 and part, the first upper shed 134 with described first on exhaust hole 102 aligned in position.

The first radiator fan 32 is a blower fan, and the first radiator fan 32 has one first air intake opening 321, and one first gas outlet 322, the first air intake openings 321 are with after-opening 133 aligned in position and towards the first air inlet through hole 103.Radiating module 31 tops and the first upper shed 134 aligned in position, the first gas outlet 322 of the first radiator fan 32 is adjacent to radiating module 31 bottoms.

Consult Fig. 1, Fig. 2 and Fig. 4, when the first radiator fan 32 running, the gas of casing 1 external environment condition can flow in the first air intake opening 321 of the first radiator fan 32 via the first air inlet through hole 103 and after-opening 133 along arrow I direction, can flow out via the first gas outlet 322 subsequently, the heat that the first 322 of gas outlets effluent air can be accumulated radiating module 31 is expelled to casing 1 external environment condition along arrow II direction via exhaust hole 102 on the first upper shed 134 and described first, whereby, can effectively to electronic component 22, be dispelled the heat.In addition, the design form that is blower fan by the first radiator fan 32, can provide air mass flow that radiating module 31 is larger to increase the effect of heat radiation.

Consult Fig. 2, Fig. 3 and Fig. 4, the top board 112 of the back casing 11 of casing 1 also be formed with a plurality of be communicated in the first accommodation space 101 tops second on exhaust hole 102 and second, exhaust hole 104 left and right are separately on exhaust hole 104, the first.Back casing 11 also comprises a side plate 113 that is connected in rear plate 111 sides, and side plate 113 is formed with a plurality of the second air inlet through holes 105 that are connected with the first accommodation space 101.Heat abstractor 3 also comprises that one is arranged at the second radiator fan 33, the second radiator fans 33 in the first accommodation space 101 in order to towards exhaust hole 104 direction exhausts on second.Particularly, rear framework 131 is formed with the second upper shed 135 upward on one day, and exhaust hole 104 aligned in position in a plurality of side opening towards side 136, the second upper sheds 135 and described second, and each side opening 136 and corresponding the second air inlet through hole 105 aligned in position.The second radiator fan 33 is a blower fan, the mode that the second radiator fan 33 locks by screw is locked in rear framework 131, the second radiator fan 33 has the second air intake opening 331 of framework 132 forward on one day, and one is aligned in the second upper shed 135 and the second gas outlet 332 of exhaust hole 104 on described second.

Consult Fig. 1, Fig. 3 and Fig. 4, when the second radiator fan 33 running, the gas of casing 1 external environment condition can flow in the first accommodation space 101 via the first air inlet through hole 103 along arrow I direction, and flows in the first accommodation space 101 via the second air inlet through hole 105 along arrow III direction.The gas flowed in the first accommodation space 101 can flow in bearing frame 13 via a plurality of under sheds 137 of side opening 136 and rear framework 131 bottoms, with to motherboard 21, be arranged at the hard disk 23 on motherboard 21, and other electronic element radiatings that are positioned at bearing frame 13.Afterwards, gas can flow into the second air intake opening 331 of the second radiator fan 33 and flow out via the second gas outlet 332, is disposed to the external environment condition of casing 1 via exhaust hole 104 on the second upper shed 135 and second along arrow II direction with the hot gas by motherboard 21, hard disk 23 and other electronic components.Whereby, air pressure in the first accommodation space 101 can be lower than the air pressure of casing 1 external environment condition, make the interior formation negative pressure state of the first accommodation space 101, can effectively reduce the temperature in the first accommodation space 101, to promote motherboard 21, hard disk 23 and other serviceable life as electronic components such as storer or chips.In addition, the design form that is blower fan by the second radiator fan 33, the effect that can provide larger air mass flow to dispel the heat with increase.

What specify is, although being the rear framework 131 that is locked in bearing frame 13, second radiator fan 33 of the present embodiment explains for example, but in other design, second air intake opening 331 that also can be locked on front framework 132 by the second radiator fan 33 and make the second radiator fan 33 is towards the first air inlet through hole 103, by the previous designs mode, just can omit the use of rear framework 131, not be limited with the disclosed design of the present embodiment.

Consult Fig. 2, Fig. 3, Fig. 5 and Fig. 6, casing 1 also comprises that one is engaged in the lower house 14 of back casing 11 bottoms and procapsid 12 bottoms, and back casing 11, procapsid 12 and the common formation one of lower house 14 are communicated in the second accommodation space 106 of the first accommodation space 101 belows.Computer with integrated 100 also comprises an eye identifying device 4 be arranged in the second accommodation space 106, eye identifying device 4 comprises on two weight trays 121 that are arranged at procapsid 12 and left and right luminescence unit 41 separately, and one is arranged on weight tray 121 and is positioned at the image capture element 42 of 41 of two luminescence units.

One base plate 141 of lower house 14 is formed with a plurality of lower exhaust holes 107 that are communicated in the second accommodation space 106 belows, and the lower exhaust hole 107 of part is adjacent to base plate 141 left sides, and the lower exhaust hole 107 of another part is adjacent to base plate 141 right sides.Weight tray 121 is formed with two left and right under shed 122, two under sheds 122 separately and is respectively adjacent in two luminescence units 41, and each under shed 122 is positioned at corresponding lower exhaust hole 107 tops, and each luminescence unit 41 is positioned at corresponding lower exhaust hole 107 tops.

Heat abstractor 3 also comprises two the 3rd radiator fans 34 that are arranged in the second accommodation space 106, each the 3rd radiator fan 34 is one to be arranged at the aerofoil fan on weight tray 121, each the 3rd radiator fan 34 is positioned at corresponding under shed 122 tops and corresponding lower exhaust hole 107 tops, and each the 3rd radiator fan 34 is in order to the lower exhaust hole 107 direction exhausts towards correspondence.

Consult Fig. 1, Fig. 5 and Fig. 6, when each the 3rd radiator fan 34 running, the gas of casing 1 external environment condition can flow in the first accommodation space 101 via the first air inlet through hole 103 along arrow I direction, and flows in the first accommodation space 101 via the second air inlet through hole 105 along arrow III direction.Gas in the first accommodation space 101 can flow in the second accommodation space 106 subsequently, so that two luminescence units 41 and image capture element 42 are dispelled the heat.Afterwards, each the 3rd radiator fan 34 can be disposed to the external environment condition of casing 1 along arrow IV direction by the hot gas in the second accommodation space 106 via under shed 122 and lower exhaust hole 107.Whereby, air pressure in the second accommodation space 106 can be lower than the air pressure of casing 1 external environment condition, make the interior formation negative pressure state of the second accommodation space 106, can effectively reduce the temperature in the second accommodation space 106, to promote the serviceable life of luminescence unit 41 and image capture element 42.

It should be noted that, when design, lower exhaust hole 107 quantity of lower house 14 also can be two, and two lower exhaust holes 107 lay respectively at two under shed 122 belows; Or lower exhaust hole 107 quantity of lower house 14 and under shed 122 quantity respectively are made as to one; Aforementioned two kinds of designs can reach the effect to the external environment condition of casing 1 by the hot air discharge in the second accommodation space 106 equally.

Conclude above-mentioned, the computer with integrated 100 of the present embodiment, design by the first radiator fan 32 of heat abstractor 3 and the second radiator fan 33 towards the external environment condition exhaust of casing 1, make the interior meeting of the first accommodation space 101 form negative pressure state, can effectively reduce the temperature in the first accommodation space 101, to promote electronic component 22, motherboard 21, hard disk 23 and other serviceable life as electronic components such as storer or chips as central processing unit.Moreover, design by the 3rd radiator fan 34 of heat abstractor 3 towards the external environment condition exhaust of casing 1, make the interior meeting of the second accommodation space 106 form negative pressure state, can effectively reduce the temperature in the second accommodation space 106, to promote the serviceable life of luminescence unit 41 and image capture element 42, really can reach the purpose of the utility model institute demand.

Claims

1. a computer with integrated, comprise a casing and a host module, and this casing is formed with one first accommodation space, and this host module is arranged in this first accommodation space and comprises an electronic component; It is characterized in that:

2. computer with integrated according to claim 1, it is characterized in that: this host module also comprises a motherboard, this electronic component is one to be arranged at the central processing unit of this motherboard, this heat abstractor also comprises that one is connected to conduct the radiating module of the heat energy produced when this electronic component operates with this electronic component, this first radiator fan is arranged on this radiating module, this radiating module is corresponding to exhaust hole below on described first, this first radiator fan in order to this radiating module towards exhaust hole direction exhaust on described first.

3. computer with integrated according to claim 2, it is characterized in that: this first radiator fan is a blower fan, this first radiator fan has first air intake opening towards described the first air inlet through hole, and one first gas outlet, this first gas outlet is adjacent to the side of this radiating module in contrast to exhaust hole on described first.

4. computer with integrated according to claim 3, it is characterized in that: this casing also be formed with a plurality of be communicated in this first accommodation space top second on exhaust hole, and a plurality of the second air inlet through holes that are connected with this first accommodation space, this heat abstractor also comprises that one is arranged at the second radiator fan in this first accommodation space, and this second radiator fan is in order to towards exhaust hole direction exhaust on described second.

5. computer with integrated according to claim 4, it is characterized in that: this second radiator fan is a blower fan, this second radiator fan has one second air intake opening, and one on described second the second gas outlet of exhaust hole.

6. computer with integrated according to claim 5, it is characterized in that: this casing also is formed with second accommodation space that is communicated in this first accommodation space below, and at least one lower exhaust hole that is communicated in this second accommodation space below, this computer with integrated also comprises an eye identifying device be arranged in this second accommodation space, this heat abstractor also comprises at least one the 3rd radiator fan be arranged in this second accommodation space, and the 3rd radiator fan is positioned at above this time exhaust hole in order to towards the exhaust of this time exhaust hole direction.

7. computer with integrated according to claim 6, it is characterized in that: the quantity of the lower exhaust hole of this casing be two and both separately, this eye identifying device comprises two luminescence units that lay respectively at these twice exhaust hole tops, an and image capture element be arranged between this two luminescence unit, the quantity of the 3rd radiator fan of this heat abstractor is two, and respectively the 3rd radiator fan is positioned at this time corresponding exhaust hole top in order to this time exhaust hole direction exhaust towards correspondence.

8. computer with integrated according to claim 7, it is characterized in that: respectively the 3rd radiator fan is an aerofoil fan.

9. computer with integrated according to claim 7, it is characterized in that: this casing comprises a back casing, an and procapsid that is engaged in this back casing front end, this back casing and this procapsid form this first accommodation space jointly, this back casing comprises the top board that a rear plate, is connected in this rear plate top, reach one and be connected in this side plate of plate side afterwards, should be formed with described the first air inlet through hole by rear plate, this top board is formed with on described first exhaust hole on exhaust hole and described second, and this side plate is formed with described the second air inlet through hole.

10. computer with integrated according to claim 9, it is characterized in that: this casing also comprises that one is engaged in the lower house of this back casing bottom and this procapsid bottom, this back casing, this procapsid and this lower house form this second accommodation space jointly, and this lower house is formed with this twice exhaust holes.