CN2514399Y - Temp differential radiator - Google Patents

Abstract

The utility model relates to a temperature differential radiator. The utility model comprises a fan, a gas distribution cylinder, a dynamic cylinder and a channel, wherein the gas distribution cylinder and the dynamic cylinder are respectively connected to both sides of the fan through a first connecting rod and a second connecting rod so as to push the fan to rotate; the channel is used for the circulation of gas in the gas distribution cylinder and the dynamic cylinder; thereby, a central processing unit is arranged beneath the gas distribution cylinder, the principle of heat expansion and cold contraction of the gas and high temperature produced by the working central processing unit are utilized to enable the first and the second connecting rods to run, and consequently, the fan is driven to rotate; thus, the purpose of heat radiation can be realized.

Description

The thermal type heating radiator

Technical field

The utility model relates to a kind of thermal type heating radiator, particularly relates to a kind of temperature difference principle of utilizing, and gas is expanded with heat and contract with cold as power resources, drives the heating radiator of fan running.

Background technology

The speed that current computer is handled is more and more faster, function is also powerful further, the high temperature that work chip (as central processing unit) is produced is considerable, and in order to make the computer function amplification, expansion adapter by the grafting difference in functionality or connect different peripheral units in computer system, make current computing machine oneself singly just be not used for data processing, more can be competent at other numerous and diverse computing or operation, yet in order to make the computing machine running more stable, under so many power consumption components, whether radiating treatment quality and voltage are stablized and are occupied decisive influence.

As shown in Figure 1, it is a known radiator fan that is used for computing machine, this radiator fan 1a be below be provided with radiating fin 2a, and the heat abstractor that radiator fan 1a and radiating fin 2a are constituted, be positioned on the central processing unit 4a of computer main frame panel 3a, this radiator fan 1a is provided with electric power connection line 11a, and obtain a power supply supply from computer system by electric power connection line 11a, thereby driving radiator fan 1a rotates, the heat that central processing unit (CPU) 4a is produced is discharged, make the computing machine running more smooth and easy and stable.

But, though above-mentioned known radiator fan 1a can reach the purpose of heat radiation, but it mainly is to provide an electric power to use to radiator fan 1a by computing machine, yet the heat generating component of computer-internal is more and more now, also and then increase in order to quicken the employed radiator fan 1a of heat extraction number, it is many that relative electric consumption also becomes, add the electrical source consumption of other numerous assemblies of computing machine, oneself forms a kind of burden to the electric power supply source, even cause the instability of electric power, and further can have influence on whole computer system normal operation, and this radiator fan 1a also can't be according to the temperature of central processing unit 4a height, and in addition elasticity is adjusted its rotating speed.

So as from the foregoing, above-mentioned known radiator fan on reality is used, obviously exists inconvenience and defective, and waits to be improved.

Summary of the invention

In order to improve known above-mentioned every shortcoming, fundamental purpose of the present utility model is to provide a kind of thermal type heating radiator, utilizes the principle of expanding with heat and contracting with cold of gas, and power resources required when driving the fan rotation are provided.

Another purpose of the present utility model is to provide a kind of thermal type heating radiator, utilizes to add a thermal source power consumption that is caused during with the replacement electricity consumption.

Another purpose of the present utility model is to provide a kind of thermal type heating radiator, can adjust its rotation speed of the fan automatically according to the temperature height of extraneous thermal source.

Above-mentioned purpose of the present utility model is achieved in that a kind of thermal type heating radiator, wherein, comprising:

One fan;

One distribution cylinder, its inner gas distribution piston one side is connected in fan one side by first connecting rod;

One actuating cylinder, its inner power piston one side is connected in the fan opposite side by second connecting rod; And

One passage for the gas communication in distribution cylinder and the actuating cylinder.

Thermal type heating radiator described in the utility model, wherein said fan are blower fan or axial flow fan.

Thermal type heating radiator described in the utility model, wherein said first connecting rod are matched with the first protruding axle of fan one side by first pivot pin.

Thermal type heating radiator described in the utility model, wherein said second connecting rod are matched with the second protruding axle of fan opposite side by second pivot pin.

Thermal type heating radiator described in the utility model, wherein said distribution casing outer wall is provided with radiating subassembly.

Thermal type heating radiator described in the utility model, wherein said actuating cylinder outer wall is provided with radiating subassembly.

Thermal type heating radiator described in the utility model, wherein said first connecting rod are a crankshaft-link rod.

Thermal type heating radiator described in the utility model, wherein said second connecting rod are a crankshaft-link rod.

Thermal type heating radiator described in the utility model, wherein said first connecting rod are connected in fan one side, and second connecting rod is connected in the fan opposite side, and it is certain phase differential with respect to fan center's rotating shaft place.

Thermal type heating radiator described in the utility model, wherein said phase differential are 90 degree.

This shows that the utility model mainly provides a kind of thermal type heating radiator, comprise a fan, a distribution cylinder, an actuating cylinder and a passage; Wherein gas distribution piston one side of this distribution cylinder internal is to be connected in fan one side by first connecting rod; Power piston one side of this actuating cylinder inside is to be connected in the fan opposite side by second connecting rod; This passage is for the gas communication in distribution cylinder and the actuating cylinder.

Describe specific embodiment of the utility model in detail below in conjunction with accompanying drawing, yet accompanying drawing only provides reference and explanation usefulness, is not to be used for the utility model is limited.

Description of drawings

Fig. 1 is the synoptic diagram that known radiator fan is installed in computer-internal;

Fig. 2 is the three-dimensional exploded view of thermal type heating radiator described in the utility model;

Fig. 3 is the three-dimensional combination figure of thermal type heating radiator described in the utility model;

Fig. 4 is the first operating state synoptic diagram of thermal type heating radiator described in the utility model;

Fig. 5 is the second operating state synoptic diagram of thermal type heating radiator described in the utility model;

Fig. 6 is the 3rd an operating state synoptic diagram of thermal type heating radiator described in the utility model;

Fig. 7 is the 4th an operating state synoptic diagram of thermal type heating radiator described in the utility model.

Embodiment

As shown in Figures 2 and 3, be respectively three-dimensional exploded view of the present utility model and three-dimensional combination figure of the present utility model.The utility model is a kind of thermal type heating radiator, comprises a fan 1, a distribution cylinder 3, an actuating cylinder 5 and a passage 7.

Wherein, this fan 1 is a blower fan, and the one side is provided with the first protruding axle 11, and opposite side is provided with the second protruding axle 12; This distribution cylinder 3 is made up of upper cylinder body 31 and lower cylinder body 32, its inside is provided with a gas distribution piston 33, upper cylinder body 31 outsides are provided with radiating subassembly 34, this gas distribution piston 33 is fixed in the distribution cylinder 3 by two fixed bars 35, this gas distribution piston 33 can be slided front and back on fixed bar 35, and be provided with first crankshaft-link rod 36 in gas distribution piston 33 1 sides, and be provided with first pivot pin 37 in first crankshaft-link rod, 36 1 sides, it is matched with the first protruding axle 11 of fan 1; These actuating cylinder 5 outer walls are provided with radiating subassembly 51, and its inside is provided with a power piston 52, and these power piston 52 1 sides are provided with second crankshaft-link rod 53, and are provided with second pivot pin 54 in second crankshaft-link rod, 53 1 sides, and it is matched with the second protruding axle 12 of fan 1; This passage 7 is connected between distribution cylinder 3 and the actuating cylinder 5, and the gas in distribution cylinder 3 and the actuating cylinder 5 can be circulated mutually; This fan 1 also can be axial flow fan (figure slightly) in addition.

Thus, by adding a thermal source 9 (as Fig. 4) at distribution cylinder 3, and the characteristic of utilizing cylinder internal gas to expand with heat and contract with cold, promote distribution and power piston 33 and 52 is made front-rear reciprocation movement, rotate to drive fan 1 by first and second crankshaft- link rod 36 and 53 again.

As shown in Figure 4, be the first operating state synoptic diagram of the present utility model, this distribution cylinder 3 adds a thermal source 9 in its outside, make that when gases are heated, they expand in the distribution cylinder 3, produce a thrust, promote gas distribution piston 33 and outwards move, and drive fan 1 rotation by first crankshaft-link rod 36.

As shown in Figure 5, be the second operating state synoptic diagram of the present utility model, the gas that is positioned at distribution cylinder 3 is behind expanded by heating gradually, to begin to be transferred in the actuating cylinder 5 by passage 7, and produce a thrust, come propulsion power piston 52 outwards to move, and drive fan 1 rotation by second crankshaft-link rod 53.

As shown in Figure 6, be the 3rd operating state synoptic diagram of the present utility model, in the time of in the heated gas overwhelming majority in the distribution cylinder 3 is transferred to actuating cylinder 5, be positioned at the gas of actuating cylinder 5, will be through the set radiating subassembly 51 of actuating cylinder 5 outer walls, begin to cool down and reduced volume gradually, and the gas in distribution cylinder 3, also see through the radiating subassembly 34 of being located at distribution cylinder 3 outer walls, begin to cool down and reduced volume gradually, order about gas distribution piston 33 and power piston 52 moves inward, and drive fans 1 by first and second crankshaft- link rod 36 and 53 and rotate.

As shown in Figure 7, it is the 4th operating state synoptic diagram of the present utility model, when power piston 52 beginning inside when mobile in actuating cylinder 5, to make the gas in actuating cylinder 5 be back in the distribution cylinder 3 by passage 7, and by 1 rotation of second crankshaft-link rod, 53 drive fans, the gas that is positioned at distribution cylinder 3 this moment is subjected to external heat source 9 influences, begins to get back to the operating state as Fig. 4 again; Thus, as long as extraneous thermal source 9 do not interrupt, the utility model continuous running that will go round and begin again.

Extremely shown in Figure 7 by above-mentioned Fig. 4, the high temperature that this thermal source 9 is produced when can be central processing unit (figure slightly) work, the utility model running efficiency is good more when temperature is high more, and the quick rotation by fan 1, take away the high temperature on radiating subassembly 34 and 51 rapidly, wherein this distribution cylinder 3 is a Heat Conduction Material with the material of actuating cylinder 5, and can be when this central processing unit fits tightly below distribution cylinder 3 outer wall, temperature when reducing its work rapidly, and the change of the speed of this fan 1 rotational speed along with the central processor temperature height.

The position is set is that 90 phase differential of spending are arranged with respect to fan 1 central rotating shaft place to this first protruding axle, 11 and second protruding axle 12 in addition, makes this fan 1 sense of rotation be fixing.

So, by thermal type heating radiator of the present utility model, have following characteristics:

(1) utilizes the gas principle of expanding with heat and contracting with cold, power resources are provided.

(2) utilize an external thermal source, the electrical source consumption that is caused when replacing electrification.

(3) fan revolution speed can be adjusted automatically along with the temperature height of external heat source.

The above; only be the detailed description and the accompanying drawing of the specific embodiment of one of the utility model the best; but feature of the present utility model is not limited thereto; be not in order to restriction the utility model; protection domain of the present utility model should be as the criterion with the claim scope; the all spirit of the utility model scope and embodiment of similar variation thereof of according with; all should be contained in the category of the present utility model; anyly be familiar with this skill person in field of the present utility model, can think easily and variation or modify all can be encompassed in the protection domain of the present utility model.

Claims (10)

1, a kind of thermal type heating radiator is characterized in that, comprising:

One fan;

One distribution cylinder, its inner gas distribution piston one side is connected in fan one side by first connecting rod;

One actuating cylinder, its inner power piston one side is connected in the fan opposite side by second connecting rod; And

One passage for the gas communication in distribution cylinder and the actuating cylinder.

2, thermal type heating radiator as claimed in claim 1 is characterized in that, described fan is blower fan or axial flow fan.

3, thermal type heating radiator as claimed in claim 1 is characterized in that, described first connecting rod is matched with the first protruding axle of fan one side by first pivot pin.

4, thermal type heating radiator as claimed in claim 1 is characterized in that, described second connecting rod is matched with the second protruding axle of fan opposite side by second pivot pin.

5, thermal type heating radiator as claimed in claim 1 is characterized in that, described distribution casing outer wall is provided with radiating subassembly.

6, thermal type heating radiator as claimed in claim 1 is characterized in that, described actuating cylinder outer wall is provided with radiating subassembly.

7, thermal type heating radiator as claimed in claim 1 is characterized in that, described first connecting rod is a crankshaft-link rod.

8, thermal type heating radiator as claimed in claim 1 is characterized in that, described second connecting rod is a crankshaft-link rod.

9, thermal type heating radiator as claimed in claim 1 is characterized in that, described first connecting rod is connected in fan one side, and second connecting rod is connected in the fan opposite side, and it is certain phase differential with respect to fan center's rotating shaft place.

10, thermal type heating radiator as claimed in claim 9 is characterized in that, described phase differential is 90 degree.

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