CN204925957U - High -efficient heat abstractor of computer - Google Patents

Abstract

The utility model discloses a high -efficient heat abstractor of computer, the load simulator comprises a case, water tank, compression fan, air -out dish, catch tray, air exhauster and computer motherboard are installed to the inner chamber of machine case, and hot exchange pipe is installed to the inner chamber of water tank, and hot exchange pipe's the end of giving vent to anger is connected through air duct and compression fan, and the computer motherboard is installed between air -out dish and catch tray. The during operation of this high -efficient heat abstractor of computer's computer motherboard, the compression fan starts with the air exhauster simultaneously, outside air is through the water of hot exchange pipe in with the heat transfer feed -tank, thereby make the air in hot exchange pipe obtain the cooling, aerial transmission after rethread compression fan will cool off is for the air -out dish, the refrigerated air is cooled down to the computer motherboard through the exhaust vent of air -out dish, and the catch tray of computer motherboard below is taken out the remaining heat of computer motherboard through the air exhauster and is left, at last through the outside of thermovent with the quick -witted case of remaining heat discharge.

Description

A kind of computing machine efficient radiating apparatus

Technical field

The utility model relates to computing machine efficient radiating apparatus technical field, is specially a kind of computing machine efficient radiating apparatus.

Background technology

Computing machine efficient radiating apparatus is a kind of device for computer motherboard heat radiation, computing machine is while raising function and performance, also to miniaturization, highly integrated future development, in the computer system of small size, because system layout space is very limited, therefore the heat-sinking capability for the heat abstractor dispelled the heat to central processing unit seems particularly important, computing machine efficient radiating apparatus great majority are in the market to computer motherboard blowing heat radiation with fan, this radiating mode is the computer motherboard that blown off by heat, but these heats are also in cabinet, the cooling-down effect of fan will be made to reduce, for this reason, we propose a kind of computing machine efficient radiating apparatus.

Summary of the invention

The purpose of this utility model is to provide a kind of computing machine efficient radiating apparatus, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme: a kind of computing machine efficient radiating apparatus, comprises cabinet, and the inner chamber of described cabinet is provided with water tank, compression fan, air-out dish, catch tray, air exhauster and computer motherboard;

The side of described water tank is provided with filler and freeing port, and described filler and freeing port run through the side of cabinet, the inner chamber of described water tank is provided with heat-exchange tube, and the surface of water tank is all run through at the two ends of described heat-exchange tube, the outlet side of described heat-exchange tube is connected with compression fan by wireway, described compression fan is connected with air-out dish by wireway, the lower end of described air-out dish is provided with the catch tray corresponding with air-out dish, described catch tray is connected with air exhauster by wireway, described air exhauster is connected with thermovent by wireway, described computer motherboard is arranged between air-out dish and catch tray.

Preferably, the rear surface of described air-out dish is provided with air outlet opening, and the upper end face of described catch tray is provided with collection hole.

Preferably, described heat-exchange tube is S shape, and the installation number of described heat-exchange tube is no less than four.

Preferably, the inner chamber of described catch tray is provided with temperature sensor, and described temperature sensor is electrically connected with computer motherboard.

Compared with prior art, the beneficial effects of the utility model are: the inner chamber of the cabinet of this computing machine efficient radiating apparatus is provided with water tank, compression fan, air-out dish, catch tray, air exhauster and computer motherboard, the inner chamber of water tank is provided with heat-exchange tube, the outlet side of heat-exchange tube is connected with compression fan by wireway, compression fan is connected with air-out dish by wireway, the lower end of air-out dish is provided with the catch tray corresponding with air-out dish, catch tray is connected with air exhauster by wireway, air exhauster is connected with thermovent by wireway, computer motherboard is arranged between air-out dish and catch tray, when the work of computer motherboard, compression fan and air exhauster start simultaneously, outside air transfers heat to the water in water tank by heat-exchange tube, thus the air in heat-exchange tube is cooled, again by compression fan by cooled transfer of air to air-out dish, the air of cooling is lowered the temperature to computer motherboard through the air outlet opening of air-out dish, and remaining for computer motherboard heat is detached by air exhauster by the catch tray below computer motherboard, finally by thermovent, remaining heat is discharged the outside of cabinet.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

In figure: 1 cabinet, 2 water tanks, 3 compression fans, 4 air-out dishes, 5 catch traies, 6 air exhausters, 7 thermovents, 8 heat-exchange tubes, 9 filler, 10 freeing port, 11 computer motherboards, 12 air outlet openings, 13 collection holes, 14 temperature sensors.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1, the utility model provides a kind of technical scheme: a kind of computing machine efficient radiating apparatus, comprises cabinet 1, and the inner chamber of cabinet 1 is provided with water tank 2, compression fan 3, air-out dish 4, catch tray 5, air exhauster 6 and computer motherboard 11.

The side of water tank 2 is provided with filler 9 and freeing port 10, and filler 9 and freeing port 10 run through the side of cabinet 1, the inner chamber of water tank 2 is provided with heat-exchange tube 8, and the surface of water tank 2 is all run through at the two ends of heat-exchange tube 8, heat-exchange tube 8 is S shape, and the installation number of heat-exchange tube 8 is no less than four, the outlet side of heat-exchange tube 8 is connected with compression fan 3 by wireway, compression fan 3 is connected with air-out dish 4 by wireway, the lower end of air-out dish 4 is provided with the catch tray 5 corresponding with air-out dish 4, the inner chamber of catch tray 5 is provided with temperature sensor 14, and temperature sensor 14 is electrically connected with computer motherboard 11, catch tray 5 is connected with air exhauster 6 by wireway, air exhauster 6 is connected with thermovent 7 by wireway, the rear surface of air-out dish 4 is provided with air outlet opening 12, the upper end face of catch tray 5 is provided with collection hole 13, computer motherboard 11 is arranged between air-out dish 4 and catch tray 5, when the work of computer motherboard 11, compression fan 3 and air exhauster 6 start simultaneously, outside air transfers heat to the water in water tank by heat-exchange tube 8, thus the air in heat-exchange tube 8 is cooled, pass through compression fan 3 again by cooled transfer of air to air-out dish 4, the air of cooling is lowered the temperature through air outlet opening 12 pairs of computer motherboards 11 of air-out dish 4, and remaining for computer motherboard 11 heat is detached by air exhauster 6 by the catch tray 5 below computer motherboard 11, finally by thermovent 7, remaining heat is discharged the outside of cabinet 1.

Although illustrate and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and spirit, scope of the present utility model is by claims and equivalents thereof.

Claims (4)

1. a computing machine efficient radiating apparatus, comprises cabinet (1), it is characterized in that: the inner chamber of described cabinet (1) is provided with water tank (2), compression fan (3), air-out dish (4), catch tray (5), air exhauster (6) and computer motherboard (11), the side of described water tank (2) is provided with filler (9) and freeing port (10), and described filler (9) and freeing port (10) run through the side of cabinet (1), the inner chamber of described water tank (2) is provided with heat-exchange tube (8), and the surface of water tank (2) is all run through at the two ends of described heat-exchange tube (8), the outlet side of described heat-exchange tube (8) is connected with compression fan (3) by wireway, described compression fan (3) is connected with air-out dish (4) by wireway, the lower end of described air-out dish (4) is provided with the catch tray (5) corresponding with air-out dish (4), described catch tray (5) is connected with air exhauster (6) by wireway, described air exhauster (6) is connected with thermovent (7) by wireway, described computer motherboard (11) is arranged between air-out dish (4) and catch tray (5).

2. a kind of computing machine efficient radiating apparatus according to claim 1, is characterized in that: the rear surface of described air-out dish (4) is provided with air outlet opening (12), and the upper end face of described catch tray (5) is provided with collection hole (13).

3. a kind of computing machine efficient radiating apparatus according to claim 1, is characterized in that: described heat-exchange tube (8) is S shape, and the installation number of described heat-exchange tube (8) is no less than four.

4. a kind of computing machine efficient radiating apparatus according to claim 1, is characterized in that: the inner chamber of described catch tray (5) is provided with temperature sensor (14), and described temperature sensor (14) is electrically connected with computer motherboard (11).