CN102410776A

CN102410776A - Tube type radiator

Info

Publication number: CN102410776A
Application number: CN2011103230514A
Authority: CN
Inventors: 李绍志; 吴国荣; 卢玉生; 李世民; 赵明军; 崔贵兴; 高立顺; 黄永波
Original assignee: WEIFANG HENGAN RADIATOR GROUP CO Ltd
Current assignee: WEIFANG HENGAN RADIATOR GROUP CO Ltd
Priority date: 2011-10-21
Filing date: 2011-10-21
Publication date: 2012-04-11

Abstract

The invention relates to a tubular radiator which comprises a radiating pipe, wherein a supporting shaft is arranged in the radiating pipe, a flow disturbing piece is arranged on the supporting shaft, and when a fluid flows through the radiating pipe, the fluid is in a turbulent flow state under the action of the flow disturbing piece, so that the laminar flow characteristic can not occur, and the radiating efficiency of the radiator is greatly improved.

Description

Tubular radiator

Technical field

The present invention relates to a kind of heat abstractor, relate to a kind of tubular radiator specifically.

Background technology

The heat pipe heat sink production technology is simple, and production cost is low, has obtained using widely in every field.When fluid flowed in radiating tube, fluid demonstrated the bigger oily fluid of characteristic, particularly viscosity of laminar flow through regular meeting, and laminar flow characteristic is more obvious, and the appearance of laminar flow characteristic greatly reduces the radiating efficiency of radiator.

Summary of the invention

The problem that the present invention will solve is to above problem, provides a kind of radiating efficiency high tubular radiator.

For addressing the above problem, the technical scheme that the present invention adopted is: tubular radiator, comprise radiating tube, and be provided with back shaft in the said radiating tube, said back shaft is provided with flow-disturbing spare.

As a kind of prioritization scheme, said flow-disturbing spare comprises some groups, and some groups of flow-disturbing spares are along the axial setting of back shaft.

A kind of concrete prioritization scheme, said flow-disturbing spare comprise five groups.

As a kind of prioritization scheme, every group of flow-disturbing spare comprises several flow-disturbing spares, and several flow-disturbing spares are along the axial setting of back shaft.

A kind of concrete prioritization scheme, several flow-disturbing spares distribute along the axial screw shape of back shaft.

A kind of concrete prioritization scheme, several flow-disturbing spares circumferentially are being uniformly distributed with perpendicular to the edge of the projection in the plane of back shaft.

A kind of concrete prioritization scheme, every group of flow-disturbing spare comprises eight flow-disturbing spares.

As a kind of prioritization scheme, being shaped as of said flow-disturbing spare is circular, and said flow-disturbing spare is sleeved on the back shaft and with back shaft and is fixedly connected.

As a kind of prioritization scheme, the quantity of said back shaft is two, and two back shaft spirals are intertwined and connected.

As a kind of prioritization scheme, a wherein end of said back shaft is provided with limiting plate.

The present invention takes above technical scheme; Have the following advantages: be provided with back shaft in the radiating tube, said back shaft is provided with flow-disturbing spare, when fluid is flowed through radiating tube; Under the effect of flow-disturbing spare; Fluid presents turbulent condition, laminar flow characteristic can not occur, has improved the radiating efficiency of radiator greatly.

Below in conjunction with accompanying drawing and embodiment the present invention is described further.

Description of drawings

Accompanying drawing 1 is the structural representation of tubular radiator in the embodiment of the invention;

Accompanying drawing 2 is the structural representation of back shaft and flow-disturbing spare in the accompanying drawing 1;

Accompanying drawing 3 is the vertical view of accompanying drawing 2;

Accompanying drawing 4 is the right view of accompanying drawing 2.

Among the figure:

The 1-fin; The 2-radiating tube; 3-flow-disturbing spare; The 4-limiting plate; The 5-back shaft.

The specific embodiment

Embodiment: shown in accompanying drawing 1, tubular radiator comprises radiating tube 2, and radiating tube 2 is provided with fin 1, is provided with back shaft 5 in the radiating tube 2, and back shaft 5 is provided with flow-disturbing spare 3.

Shown in accompanying drawing 2, accompanying drawing 3 and accompanying drawing 4, flow-disturbing spare 3 comprises five groups, and five groups of flow-disturbing spares can increase or reduce the group number of flow-disturbing spare 3 as required along the axial setting of back shaft 5.

Every group flow-disturbing spare comprises the axial setting of 3, eight flow-disturbing spares 3 of eight flow-disturbing spares along back shaft 5, and eight flow-disturbing spares 3 distribute along the axial screw shape of back shaft 5.

Eight flow-disturbing spares 3 circumferentially are being uniformly distributed with perpendicular to the edge of the projection in the plane of back shaft 5.

Can increase or reduce the number of every group of flow-disturbing spare 3 as required.

Being shaped as of flow-disturbing spare 3 is circular, and flow-disturbing spare 3 is sleeved on the back shaft 5 and with back shaft 5 and is fixedly connected, and flow-disturbing spare 3 is processed by elastic wire.

The quantity of back shaft 5 is two, and two back shaft 5 spirals are intertwined and connected and flow-disturbing spare 3 is fixing.

A wherein end of back shaft 5 is provided with limiting plate 4, limiting plate 4 and back shaft 5 welding.

Fluid under the effect of annular flow-disturbing spare 3, makes fluid present turbulent condition when flowing through radiating tube 2, laminar flow characteristic can not occur, has improved the radiating efficiency of radiator greatly.

Claims

1. tubular radiator comprises radiating tube (2), it is characterized in that: be provided with back shaft (5) in the said radiating tube (2), said back shaft (5) is provided with flow-disturbing spare (3).

2. tubular radiator as claimed in claim 1 is characterized in that: said flow-disturbing spare (3) comprises some groups, and some groups of flow-disturbing spares are along the axial setting of back shaft (5).

3. tubular radiator as claimed in claim 2 is characterized in that: said flow-disturbing spare (3) comprises five groups.

4. tubular radiator as claimed in claim 2 is characterized in that: every group of flow-disturbing spare comprises several flow-disturbing spares (3), and several flow-disturbing spares (3) are along the axial setting of back shaft (5).

5. tubular radiator as claimed in claim 4 is characterized in that: several flow-disturbing spares (3) distribute along the axial screw shape of back shaft (5).

6. tubular radiator as claimed in claim 4 is characterized in that: several flow-disturbing spares (3) circumferentially are being uniformly distributed with perpendicular to the edge of the projection in the plane of back shaft (5).

7. tubular radiator as claimed in claim 4 is characterized in that: every group of flow-disturbing spare comprises eight flow-disturbing spares (3).

8. like one of them described tubular radiator of claim 1-7, it is characterized in that: being shaped as of said flow-disturbing spare (3) is circular, and said flow-disturbing spare (3) is sleeved on back shaft (5) and goes up and be fixedly connected with back shaft (5).

9. tubular radiator as claimed in claim 1 is characterized in that: the quantity of said back shaft (5) is two, and two back shafts (5) spiral is intertwined and connected.

10. tubular radiator as claimed in claim 1 is characterized in that: a wherein end of said back shaft (5) is provided with limiting plate (4).