CN109059599A - A kind of ultra-thin high frequency Type B diplopore gets heat-dissipating pipe ready - Google Patents

Abstract

The invention discloses a kind of ultra-thin high frequency Type B diplopores to get heat-dissipating pipe ready, including upper piece, lower piece and tie point, the upper piece and lower piece are bent by a block piece material, the tie point is arranged in sheet material bending place, the middle part of the lower piece forms reinforcing rib to heat-dissipating pipe interior folding, heat-dissipating pipe internal insulation is made entirely to radiate tube section in Type B at two individual cavities by the reinforcing rib, the upper piece and lower piece are equipped with several flow-disturbing holes with angle, the distribution in the flow-disturbing hole extends near the end of heat-dissipating pipe, wherein there is certain distance with heat dissipation pipe end closest to the flow-disturbing hole of end.Heat-dissipating pipe of the present invention increases heat-dissipating pipe intensity using reinforcing rib is bent to form, and setting flow-disturbing cheats the heat dissipation effect of optimization heat-dissipating pipe, and in addition to this, the radiating pipe wall is thin, and entire heat-dissipating pipe is also thin, easy to process and installation and saving material.

Description

A kind of ultra-thin high frequency Type B diplopore gets heat-dissipating pipe ready

Technical field

The present invention relates to automobile cooling pipe production technical field, in particular to a kind of ultra-thin high frequency Type B diplopore gets heat dissipation ready Pipe.

Background technique

At present the structure of automotive radiator water tank cooling tube be mostly by sheet fold after, by high-frequency welding at complete cycle list Layer light wall pipe, the cooling tube material of complete cycle single layer light wall pipe is more fragile, is easy to happen longitudinal bending and lateral recesses, causes to damage, Influence cooling tube lifetime and cooling effect；In addition, in the existing cooling tube with reinforcing rib, anter of the reinforcing rib in cooling tube External surface leaves protrusion and is perhaps recessed so that forming sky after the outer surface of preceding sheet body and heat dissipation welding out-of-flatness or welding Gap causes heat dissipation effect to reduce.And the tube wall of light wall pipe is smooth, when cooling water passes through tube wall, since tube wall is smooth, and cooling level Quiet to pass through cooling tube, the time that the heat transmission of tube wall is needed at cooling tube hub is longer, therefore, the temperature at cooling water center Degree is few from heat less, is absorbed into cooling tube to outflow variation cooling tube this period, causes cooling effect limited, complete cycle list The cooling tube material of layer light wall pipe is more fragile, is easy bending, causes to damage, and influences cooling tube lifetime；In addition, existing have adds In the cooling tube of strengthening tendons, the both ends that reinforcing rib extends to cooling tube cause at reinforcing rib and the connection of cooling water tank design is complicated, And it is easily damaged after connecting and leak.

It can reinforce radiating without increasing component materials in the case where guaranteeing the sufficiently thin condition of heat-dissipating pipe therefore, it is necessary to design a Pipe intensity and acceleration radiating rate, improve the heat-dissipating pipe of cooling effect.

Summary of the invention

It is an object of the invention to provide a kind of ultra-thin high frequency Type B diplopores to get heat-dissipating pipe ready, which, which utilizes to be bent to form, adds Strengthening tendons increase heat-dissipating pipe intensity, and the heat dissipation effect that flow-disturbing cheats optimization heat-dissipating pipe is arranged, and in addition to this, the radiating pipe wall is thin, whole A heat-dissipating pipe is also thin, and easy to process and installation and saving material solve the problems, such as that above-mentioned background technique proposes.

To achieve the goals above, present invention employs following technical solutions:

A kind of ultra-thin high frequency Type B diplopore gets heat-dissipating pipe ready, it is characterised in that: including upper piece, lower piece and tie point, institute It states upper piece and lower piece to be bent by a block piece material, the tie point is arranged in sheet material bending place, the lower piece Portion forms reinforcing rib to heat-dissipating pipe interior folding, which makes entire heat-dissipating pipe at two individual cavities for heat-dissipating pipe internal insulation Section is in Type B, and the upper piece and lower piece are equipped with several flow-disturbing holes with angle, and the distribution in the flow-disturbing hole extends to scattered Near the end of heat pipe, wherein the flow-disturbing hole closest to end has certain distance to form one section of white space with heat dissipation pipe end.

Further, the tie point is ratio-frequency welding contact.

Further, the reinforcing rib be lower piece formed to heat-dissipating pipe folded inside, the highest point of the reinforcing rib with it is upper Sheet body is contacted and is welded and fixed.

Further, the reinforcing rib folds to form U-shaped or line style, and the outside of the reinforcing rib folding position is fillet, And inside is the arc slot being recessed to fillet direction.

Further, the diameter of the fillet is less than 0.1mm.

Further, the flow-disturbing hole is random is distributed in upper piece and lower piece, and the flow-disturbing hole is by heat-dissipating pipe Outer lateral heat-dissipating pipe inner recess forms the protrusion with angle in the inner space of heat-dissipating pipe.

Further, flow-disturbing hole outside is oval is recessed inwardly, and the section of the protrusion is trapezoidal, the angle For random angles.

Further, the depth in the flow-disturbing hole is 0.3~0.5mm.

Further, the length of the white space of the heat dissipation pipe end is 5~20mm.

Further, the material of the sheet material is H26 aluminium alloy, the sheet material with a thickness of 0.26mm, the heat-dissipating pipe With a thickness of 2mm.

A kind of disclosed ultra-thin high frequency Type B diplopore gets heat-dissipating pipe ready according to the present invention, and technical effect is as follows:

1, the present invention forms line style or U-shaped reinforcing rib using heat-dissipating pipe folding itself, increase entire heat-dissipating pipe laterally and Longitudinal mechanical strength, makes the smooth light in welding position using high-frequency welding at situations such as making heat-dissipating pipe be not likely to produce bending or recess It is sliding, tight and facilitate subsequent installation, heat-dissipating pipe inner space is also isolated into two other than increasing heat-dissipating pipe intensity by reinforcing rib Type B pipe is partially formed, the contact area of internal cooling water and heat-dissipating pipe is increased, the bending place of reinforcing rib is equipped with fillet and recess The shape of reinforcing rib is auxiliarily fixed in arc slot, forms stress build up point in reinforcing rib stress and plays buffer function, guarantees reinforcing rib It is indeformable.

2, the flow-disturbing hole with angle is set on radiating pipe wall in the present invention, is on the one hand that used flow-disturbing cheats inwardly protruding formation Barrier upsets the flowing of cooling water, increases the exchange rate in cooling water, in addition, also dissipating by the way that the part of protrusion is increased The contact area of heat pipe wall and cooling water, flow-disturbing hole surface is oval be recessed inwardly after, what is formed inside heat-dissipating pipe is convex It rises in long strip, and because random distribution angle is different, sufficiently reinforces flow-disturbing effect；The both ends of heat-dissipating pipe are equipped with one end distance and do not beat Point can facilitate heat-dissipating pipe to connect with tank seal, and antileaking, heat-dissipating pipe thinner thickness of the invention use thin slice aluminium system At the exchange rate of cooling water and heat-dissipating pipe can be increased.

Generally speaking, entire radiation tube structure with heat is simple, facilitates installation, and heat exchanger effectiveness is high when use, and can be widely popularized makes With.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that a kind of ultra-thin high frequency Type B diplopore of the present invention gets heat-dissipating pipe embodiment 1 ready；

Fig. 2 is enlarged structure schematic diagram at the A of Fig. 1 in the present invention；

Fig. 3 is that a kind of ultra-thin high frequency Type B diplopore of the present invention gets heat-dissipating pipe lateral sectional view ready；

Fig. 4 is that a kind of ultra-thin high frequency Type B diplopore of the present invention gets the structural schematic diagram after heat-dissipating pipe opens ready；

Fig. 5 is the structural schematic diagram that a kind of ultra-thin high frequency Type B diplopore of the present invention gets heat-dissipating pipe embodiment 2 ready；

1- upper piece, 2- lower piece, 3- tie point, 4- reinforcing rib, 41- fillet, 42- arc slot, 5- flow-disturbing hole, 51- protrusion, 6- white space.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment 1

As depicted in figs. 1 and 2, a kind of ultra-thin high frequency Type B diplopore gets heat-dissipating pipe, including upper piece 1, lower piece 2 and company ready Contact 3, tie point 3 are connected using high-frequency welding, and the upper piece 1 and lower piece 2 are bent by a block piece material, tie point 3 In sheet material bending place, bending place is arc-shaped bending for setting, and the middle part of the lower piece 2 forms reinforcing rib to heat-dissipating pipe interior folding 4, the horizontal and vertical mechanical strength of heat-dissipating pipe is considerably increased, losing or being recessed for heat-dissipating pipe is avoided, which will radiate Pipe internal insulation makes entirely to radiate tube section in Type B at two individual cavities, increases internal cooling water and heat dissipation when in use The contact area of pipe reinforces heat dissipation effect, and reinforcing rib 4 is that lower piece is formed to heat-dissipating pipe folded inside, the highest of the reinforcing rib 4 Point is contacted and is welded and fixed with upper piece 1, and the folding of reinforcing rib 4 forms line style, does not need to increase external, 4 folding position of reinforcing rib The outside set is fillet 41, and inside is the arc slot 42 being recessed to fillet direction, can assist that the shape of reinforcing rib will be fixed, Certain buffer function is provided when 4 stress of reinforcing rib to avoid deforming；Wherein the diameter of fillet 41 is less than 0.1mm, and current market Seen other similar product can only accomplish that minimum diameter is 0.16mm, and the diameter of fillet is smaller, and the stability of reinforcing rib 4 is got over It is good, it is less susceptible to deform.

As shown in Figure 3 and Figure 4, the upper piece 1 and lower piece 2 are equipped with several flow-disturbing holes 5 with angle, the flow-disturbing The distribution in hole extends near the end of heat-dissipating pipe, wherein there is certain distance in the flow-disturbing hole 5 closest to end with heat dissipation pipe end, Flow-disturbing hole 5 is random to be distributed in upper piece 1 and lower piece 2, flow-disturbing hole 5 by heat-dissipating pipe outer lateral heat-dissipating pipe inner-concave It falls into, forms the protrusion 51 with angle in the inner space of heat-dissipating pipe, the angle ranging from random angles, 5 outside of flow-disturbing hole is in ellipse Shape is recessed inwardly, and raised 51 section is trapezoidal, and the depth in flow-disturbing hole 5 is 0.3mm, when being got ready, heat-dissipating pipe There are partial blank regions for both-side ends, when being got ready with the speed of 150m/min, white space i.e. closest The flow-disturbing hole 5 of end is 15mm at a distance from heat dissipation pipe end, and when being got ready with the speed of 120m/min, hair space region is 10mm, when being got ready with the speed of 60m/min, hair space region is 5mm, and the material of sheet material is H26 aluminium alloy, is closed using aluminium Gold is that the ground of material is lighter and easy to process, the sheet material with a thickness of 0.26mm, the heat-dissipating pipe with a thickness of 2mm.

Embodiment 2

As shown in figure 5, reinforcing rib 4 be folded into it is U-shaped, closest to end flow-disturbing hole 5 with radiate pipe end at a distance from be 30mm, the depth in flow-disturbing hole 5 are 0.5mm, remaining implements consistent with embodiment 1.

The present invention folds the reinforcing rib for forming line style or inverted u-shaped using heat-dissipating pipe itself, and it is lateral to increase entire heat-dissipating pipe With longitudinal mechanical strength, keeps heat-dissipating pipe not pliable or the service life of recess increase heat-dissipating pipe, make to weld using high-frequency welding It is flat and smooth to connect position, tight and facilitates subsequent installation, reinforcing rib will also be inside heat-dissipating pipe other than increasing heat-dissipating pipe intensity Space is isolated into two parts, forms Type B pipe, increases the contact area of internal cooling water and heat-dissipating pipe.It is arranged on radiating pipe wall On the one hand flow-disturbing hole with angle is the flowing that used flow-disturbing cheats inwardly protruding formation barrier upset cooling water, increases cooling Exchange rate inside water also passes through the contact area of the part increased radiating pipe wall and cooling water of protrusion, heat-dissipating pipe Both ends are equipped with one end distance and do not get ready and heat-dissipating pipe can be facilitated to connect with water tank, and antileaking.

Finally it should be noted that the foregoing is only a preferred embodiment of the present invention, it is not limited to this hair It is bright, although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, still It is possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is equally replaced It changes, all within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in the present invention Protection scope within.

Claims (10)

1. a kind of ultra-thin high frequency Type B diplopore gets heat-dissipating pipe ready, it is characterised in that: including upper piece (1), lower piece (2) and connection Point (3), the upper piece (1) and lower piece (2) are bent by a block piece material, and tie point (3) setting is bent in sheet material Place, the middle part of the lower piece (2) form reinforcing rib (4) to heat-dissipating pipe interior folding, and the reinforcing rib (4) is by heat-dissipating pipe internal insulation At two individual cavities tube section that makes entirely to radiate in Type B, the upper piece (1) and lower piece (2) several are equipped with angle Flow-disturbing cheat (5), the distribution in flow-disturbing hole (5) extends near the end of heat-dissipating pipe, wherein closest to the flow-disturbing hole of end (5) certain distance forms one section of white space (6) with heat dissipation pipe end.

2. a kind of ultra-thin high frequency Type B diplopore according to claim 1 gets heat-dissipating pipe ready, it is characterised in that: the tie point It (3) is ratio-frequency welding contact.

3. a kind of ultra-thin high frequency Type B diplopore according to claim 1 gets heat-dissipating pipe ready, it is characterised in that: the reinforcing rib (4) it is formed for lower piece (2) to heat-dissipating pipe folded inside, the highest point of the reinforcing rib (4) contacts with upper piece (1) and welds solid It is fixed.

4. a kind of ultra-thin high frequency Type B diplopore according to claim 3 gets heat-dissipating pipe ready, it is characterised in that: the reinforcing rib (4) it folds and forms U-shaped or line style, the outside of reinforcing rib (4) folding position is fillet (41), and inside is to fillet (41) The arc slot (42) of direction recess.

5. a kind of ultra-thin high frequency Type B diplopore according to claim 4 gets heat-dissipating pipe ready, it is characterised in that: the fillet (41) diameter is less than 0.1mm.

6. a kind of ultra-thin high frequency Type B diplopore according to claim 1 gets heat-dissipating pipe ready, it is characterised in that: the flow-disturbing hole (5) random to be distributed in upper piece (1) and lower piece (2), flow-disturbing hole (5) by the outer lateral heat-dissipating pipe of heat-dissipating pipe inside Recess forms the protrusion (51) with angle in the inner space of heat-dissipating pipe.

7. a kind of ultra-thin high frequency Type B diplopore according to claim 5 gets heat-dissipating pipe ready, it is characterised in that: the flow-disturbing hole (5) outside is oval is recessed inwardly, and the section of the protrusion (51) is trapezoidal, the angle ranging from random angles.

8. a kind of ultra-thin high frequency Type B diplopore according to claim 6 gets heat-dissipating pipe ready, it is characterised in that: the flow-disturbing hole (5) depth is 0.3~0.5mm.

9. a kind of ultra-thin high frequency Type B diplopore according to claim 1 gets heat-dissipating pipe ready, it is characterised in that: the heat-dissipating pipe White space (6) length of end is 5~20mm.

10. a kind of ultra-thin high frequency Type B diplopore according to claim 1 gets heat-dissipating pipe ready, it is characterised in that: the sheet material Material is H26 aluminium alloy, the sheet material with a thickness of 0.26mm, the heat-dissipating pipe with a thickness of 2mm.