CN108655249A - A kind of hydraulic expanding-forming pipe and its manufacturing process that local wall thickness thickens - Google Patents

Abstract

A kind of hydraulic expanding-forming pipe and its manufacturing process that local wall thickness thickens, the hydraulic expanding-forming pipe tube body is big in the wall ratio tube wall wall thickness of the circumferentially upper part or all of R Angle Positions in section in axial direction vertical with axis, or/and, its tube body increases in stress concentration position wall thickness, and the wall thickness thicken it is axially consecutive along tube body；The wall thickness of R Angle Positions is 1.2t~6.0t, and t is tube wall wall thickness, mm.The hydraulic expanding-forming pipe design that the present invention is thickened by local wall thickness can improve part section rigidity, improve stress concentration, and pipe increases at the angles R and corresponding stress concentration position thickness, it is possible to prevente effectively from the larger generation wall thickness excessive thinning of local bulging amount and cracking.

Description

A kind of hydraulic expanding-forming pipe and its manufacturing process that local wall thickness thickens

Technical field

The present invention relates to pipe fitting hydraulic expanding-forming field more particularly to a kind of hydraulic expanding-forming pipe that local wall thickness thickens and its at Shape method.

Background technology

Fittings hydraulic formation technology is suitable for processing the light body component of hollow variable cross-section, is obtained in fields such as automobile, Aeronautics and Astronautics Extensive use is arrived.Hydroformed part cross sectional shape is various, including circle, ellipse, rectangle, V-arrangement, U-shaped etc., wherein square Tee section is because section rigidity height is that hydroformed part section preferably selects.

Current hydroformed part pipe processing mostly uses multistep bending or roll-in round steel pipe, and circular tube is in bend pipe It is relatively easy in technique, but when parts locally bulging amount is larger is easy that wall thickness excessive thinning is occurring or even is cracking, particularly To rectangular section, in section R angular zones part, bulging amount is big, is easy to happen wall thickness excessive thinning and cracking, considers that formability is past Toward needing to sacrifice ideal cross sectional shape, this patent proposes a kind of hydraulic expanding-forming pipe that local wall thickness thickens design and forming side Method, the hydraulic expanding-forming pipe design thickened by local wall thickness can further increase part section rigidity, improve stress concentration, pipe Base uses almag extruded tube or roll-in steel pipe, pipe that can be processed as the shapes such as rectangle, and in the angles R and corresponding stress concentration Position wall thickness increases, from formability angle it is possible to prevente effectively from the larger generation wall thickness excessive thinning of local bulging amount and cracking.

China Patent Publication No. CN101172292A disclose " for vehicle hydroforming tubular articles and hydraulic pressure at The method of the tubular articles of shape " is related to automobile hydraulic formed parts, is intensity, the rigidity of structural enhancing regional area, zero The generally " T " shaped tubular articles with side wall are devised in part axial direction；China Patent Publication No. CN105312372A is disclosed Entitled " automobile accessory frame and manufacturing process ", being related to a kind of automobile accessory frame and manufacturing process, the subframe has rectangle Section feature proposes to shape by single wall thickness cylindrical tube；103920787 A of China Patent Publication No. CN, disclose entitled " a kind of hydraulic forming method of pipe fitting torsion beam ", is related to a kind of tubulose torsion beam, cross sectional shape includes rectangle, U-shaped, V-arrangement, is carried Go out and shaped using pipe, is needed to use substep forming mode according to section feature, each section of hydroformed part is gradually shaped, So that round tube deformation is substantially deformed into final part shape, reaches size requirement finally by hydraulic expanding-forming.

Therefore, based on the above patent analysis, these patents, which are related to hydroformed part, does not have partial thickening feature, adopts It is equal thickness pipe with pipe, without reference to a kind of design of hydraulic expanding-forming pipe that local wall thickness thickens and manufacturing process.

Invention content

It is an object of the invention to propose a kind of hydraulic expanding-forming pipe and its manufacturing process that local wall thickness thickens, there is part The hydraulic expanding-forming tube design that wall thickness thickens feature can improve hydroformed part section rigidity, improve stress concentration.

In order to achieve the above objectives, the technical scheme is that：

A kind of hydraulic expanding-forming pipe that local wall thickness thickens, tube body is in section circumferential direction in axial direction vertical with axis The wall ratio tube wall wall thickness of part or all of R Angle Positions is big, or/and, tube body increases in stress concentration position wall thickness, And the wall thickness thicken it is axially consecutive along tube body；The wall thickness of the wall thickness of R Angle Positions is 1.2t~6.0t, and t is tube wall wall thickness, mm。

Preferably, the wall thickness is thickened characterized by being thickened to pipe interior direction or pipe lateral direction thickens, or to inside and outside two A direction thickens simultaneously.

The manufacturing process for the hydraulic expanding-forming pipe that local wall thickness of the present invention thickens comprising following steps：

A) pipe is processed, and pipe is cross-section aluminium alloy, magnesium-alloy tube or the roll-in etc. of technique molding by extrusion processing Section steel pipe；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe in circumferential R Angle Position wall thickness is increased to 1.5t~6.0t；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe right Part stress concentration position wall thickness is answered to be increased to 1.5t~6.0t；

It is circle according to bulging pipe feature or pipe cross section, in the corresponding larger position wall of bulging pipe part bulging amount It is 1.5t~6.0t that thickness, which increases,；

It is circle according to bulging pipe feature or pipe cross section, in corresponding bulging pipe stress concentration position, wall thickness increases For 1.5t~6.0t；

B) pipe is bent, using numerical-controlled bending or mold bending process one or multi-step bend pipe；Bend pipe mould is cut with pipe Face shape design；

C) preform makes pipe fitting be subsequently inputted into hydraulic expanding die and undercut does not occur by one or multi-step mould punching；

D) hydraulic expanding-forming, end part seal head design with the shape, partly or entirely hole synchronous hydraulic punching during hydraulic expanding-forming；

E) pipe end processing and remaining hole processing, using end laser cutting or end stamping or end mill or sawing mode Remove end excess stock, or realize one-mold multiple-member part separation, remaining hole laser cutting or stamping processing, complete part at Shape.

Further, in step a), the aluminium-alloy pipe, magnesium-alloy tube or roll-in steel pipe have cross-section feature：

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe in circumferential R Angle Position wall thickness is increased to 1.5t~6.0t；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe right Part stress concentration position wall thickness is answered to be increased to 1.5t~6.0t；

It is circle according to bulging pipe feature or pipe cross section, in the corresponding larger position wall thickness of parts locally bulging amount It is 1.5t~6.0t to increase；

It is circle according to bulging pipe feature or pipe cross section, is in corresponding part stress concentration position wall thickness increase 1.5t~6.0t.

Preferably, in step b), when use numerical-controlled bending technique, and bulging pipe has space continuous bend feature, pipe When rotation is interfered with bending mould, bend pipe is removed, multistep bend pipe on another set of bending mould is put into.

Preferably, when bulging pipe is without continuous bend feature, in step a), design pipe cross-sectional shape keeps pipe straight It connects and is put into hydraulic expanding die and does not occur undercut, the direct hydraulic expanding-forming of pipe omits step b), step c).

General cross-section thickness Element Design needs to increase part section when intensity, rigidity property are less than design object Area, or increase part thickness, weight can increase, and the hydraulic expanding-forming pipe that the local wall thickness thickens is a kind of light-weight design.

It should be noted that manufacturing process of the present invention is not only applicable to mentioned above there is local wall thickness to thicken spy Hydraulic expanding-forming pipe is levied, while being suitable for conventional pipe hydroformed part, local bulging amount is larger to cause wall thickness excessive to improve It is thinned and cracks.

Step b) pipes are bent, using numerical-controlled bending or mold bending process bend pipe.Conventional hydraulic forming pipe is generally Equal thickness round tube, bend pipe is relatively easy, and to above-mentioned pipe, bend pipe uses mold to bend as possible, and bend pipe mould is with pipe section Shape designs.When use numerical-controlled bending technique, and part have space continuous bend feature, pipe rotation with bending mould interfere When, bend pipe is removed, multistep bend pipe on another set of bending mould is put into.

Beneficial effects of the present invention：

The hydraulic expanding-forming tube design that local wall thickness of the present invention thickens, pair cross-section shape are rectangle or the hydraulic pressure of other shapes Pipe fitting is shaped, R angular zone wall thickness thickens as 1.2t-6.0t in section, and the feature that the wall thickness thickens runs through hydroformed part axial direction Direction, in non-R angular zones, corresponding stress concentration position wall thickness thickens as 1.2t-6.0t, and equally, which, which thickens feature, runs through Hydroformed part axial direction, above-mentioned wall thickness thicken that feature can be thickened to pipe interior direction or pipe lateral direction thickens, or It is thickened simultaneously to inside and outside both direction；The hydraulic expanding-forming tube design of feature is thickened with local wall thickness can improve hydroforming Part section rigidity improves stress concentration, and the above R angular zones wall thickness thickens feature or non-R angular zones wall thickness feature can be independent In the presence of or exist simultaneously.

Description of the drawings

Fig. 1 is the pipe fitting subframe schematic diagram that R Angle Position wall thickness in section of the present invention thickens；

Fig. 2 is the schematic diagram of the section A of Fig. 1；

Fig. 3 is the schematic diagram of the section B of Fig. 1；

Fig. 4 is the pipe fitting subframe pipe schematic diagram that R Angle Position wall thickness in section of the present invention thickens；

Fig. 5 is the schematic diagram of the section C of Fig. 4；

Fig. 6 is the pipe fitting subframe numerical controlled bending of pipe schematic diagram that R Angle Position wall thickness in section of the present invention thickens；

Fig. 7 is the schematic diagram of the section D of Fig. 6；

Fig. 8 is the pipe fitting subframe numerical controlled bending of pipe axis of bending schematic diagram that R Angle Position wall thickness in section of the present invention thickens；

Fig. 9 is the signal for the pipe fitting subframe hydraulic forming mold undercut inspection that R Angle Position wall thickness in section of the present invention thickens Figure；

Figure 10 is the pipe fitting torsion beam that stress concentration position of the present invention wall thickness thickens；

Figure 11 is the schematic diagram of the section E of Figure 10；

Figure 12 is the schematic diagram of the section F of Figure 10；

Figure 13 is the schematic diagram of the section G of Figure 10；

Figure 14 is the pipe fitting torsion beam pipe schematic diagram that stress concentration position of the present invention wall thickness thickens；

Figure 15 is the schematic diagram of the section H of Figure 14.

Specific implementation mode

With reference to specific embodiments and the drawings, the present invention is further explained.

Fig. 1~Fig. 3 is participated in, the hydraulic expanding-forming pipe that a kind of local wall thickness of the invention thickens, tube body is in axial direction The wall ratio tube wall wall thickness of the circumferentially upper part or all of R Angle Positions in the section vertical with axis is big, or/and, tube body exists Stress concentration position wall thickness increases, and, which thickens axially consecutive along tube body；The wall thickness of the wall thickness of R Angle Positions be 1.2t~ 6.0t, t are tube wall wall thickness, mm.

Preferably, the wall thickness is thickened characterized by being thickened to pipe interior direction or pipe lateral direction thickens, or to inside and outside two A direction thickens simultaneously.

The manufacturing process for the hydraulic expanding-forming pipe that local wall thickness of the present invention thickens comprising following steps：

A) pipe is processed, and pipe is cross-section aluminium alloy, magnesium-alloy tube or the roll-in etc. of technique molding by extrusion processing Section steel pipe；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe in circumferential R Angle Position wall thickness is increased to 1.5t~6.0t；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe right Part stress concentration position wall thickness is answered to be increased to 1.5t~6.0t；

It is circle according to bulging pipe feature or pipe cross section, in the corresponding larger position wall of bulging pipe part bulging amount It is 1.5t~6.0t that thickness, which increases,；

It is circle according to bulging pipe feature or pipe cross section, in corresponding bulging pipe stress concentration position, wall thickness increases For 1.5t~6.0t；

B) pipe is bent, using numerical-controlled bending or mold bending process one or multi-step bend pipe；Bend pipe mould is cut with pipe Face shape design；

C) preform makes pipe fitting be subsequently inputted into hydraulic expanding die and undercut does not occur by one or multi-step mould punching；

D) hydraulic expanding-forming, end part seal head design with the shape, partly or entirely hole synchronous hydraulic punching during hydraulic expanding-forming；

E) pipe end processing and remaining hole processing, using end laser cutting or end stamping or end mill or sawing mode Remove end excess stock, or realize one-mold multiple-member part separation, remaining hole laser cutting or stamping processing, complete part at Shape.

Further, in step a), the aluminium-alloy pipe, magnesium-alloy tube or roll-in steel pipe have cross-section feature：

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe in circumferential R Angle Position wall thickness is increased to 1.5t~6.0t；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe right Part stress concentration position wall thickness is answered to be increased to 1.5t~6.0t；

It is circle according to bulging pipe feature or pipe cross section, in the corresponding larger position wall thickness of parts locally bulging amount It is 1.5t~6.0t to increase；

It is circle according to bulging pipe feature or pipe cross section, is in corresponding part stress concentration position wall thickness increase 1.5t~6.0t.

Preferably, in step b), when use numerical-controlled bending technique, and bulging pipe has space continuous bend feature, pipe When rotation is interfered with bending mould, bend pipe is removed, multistep bend pipe on another set of bending mould is put into.

Preferably, when bulging pipe is without continuous bend feature, in step a), design pipe cross-sectional shape keeps pipe straight It connects and is put into hydraulic expanding die and does not occur undercut, the direct hydraulic expanding-forming of pipe omits step b), step c).

Embodiment one

A kind of fittings hydraulic formation that R Angle Position wall thickness in section thickens, as shown in FIG. 1 to 3, wherein t are 2.0mm, 4 A angles R wall thickness thickens, specific to be processed for convenience of post forming mold, and wall thickness thickens 2 to pipe medial thickness, maximum position wall thickness Times, it fades away to both sides, it is to exist which, which thickens feature in pipe fitting whole length direction,.

The subframe pipe is as shown in Figure 4, Figure 5, pipe rectangular cross-section, for the cross-section aluminium shaped by extrusion process Compo pipe realizes that wall thickness thickens feature in 4 R Angle Positions of rectangle pipe by extrusion process.

Pipe is by numerical controlled bending of pipe bend pipe, and schematic diagram after bend pipe as shown in Figure 6, Figure 7, bend pipe mould designs with the shape, such as Fig. 8 Shown, totally 8 bent angles, all bent angles do not need bending air in approximately the same plane during numerical controlled bending of pipe, can be by a set of Rectangular bend mold realizes continuous bend.

Judge after bend pipe the direct hydroforming of elbow member whether undercut schematic diagram as shown in figure 9, black for elbow member grey For hydroformed part, it can be seen that elbow member tentatively judges that direct hydroforming is not stung completely inside hydroformed part Side, it is convenient to omit preform process, it should be noted that the method is only preliminary judgement, can specifically pass through simulation means mould The quasi- direct hydroforming clamping process of elbow member can be omitted preform process judged to present case part.

Hydraulic expanding die end part seal head designs with the shape, rectangular cross-section, hydraulic expanding-forming process synchronous hydraulic punching.

End excess stock is removed by laser cutting, obtains the pipe fitting subframe part that section R Angle Position wall thickness thickens.

It should be noted that due to wall thickness reduction in Bulging Process, actual parts are generally less than in the practical wall thickness of R Angle Positions Design value.

It should be noted that since there is preferable section rigidity, general subframe relatively to mostly use with square for rectangular section Tee section, due to local bulging in forming process, section R Angle Position wall thickness excessive thinnings or cracking are the problem of being most commonly encountered, There is case section R Angle Positions wall thickness to thicken the pipe fitting subframe of feature compared with equal thickness part, have better intensity and Rigidity, simultaneously because pipe is rectangle, and pipe has been thickened in the angles R wall thickness, can be effectively improved R Angle Positions wall in forming process Thick excessive thinning and cracking can be bent after bend pipe further, since pipe is rectangular section tube and be put into hydraulic forming mold, can To omit preform process.

Embodiment two

The pipe fitting torsion beam that a kind of stress concentration position wall thickness thickens, as shown in Figure 10~Figure 13, torsion beam can be divided into 3 Part, middle part section are V-arrangement, and such as section E, both ends rectangular cross-section, such as section G, centre is changeover portion.

Torsion beam is semi-independent rear suspension body element, is turned round by curved in car running process, and service condition is harsh, one As torsion beam stress concentration position be happened at changeover portion U-lag top, present case as shown in fig. 6, wherein t be 2.5mm, in correspondence It is 1.5 times that stress concentration position wall thickness, which thickens, is faded away to both sides, which thickens feature is in pipe fitting whole length direction In the presence of such as Fig. 6, in section, E, section G corresponding positions equally there is wall thickness to thicken feature.

Pipe is cross-section roll-in steel pipe as shown in Figure 14, Figure 15；Increase in subsequent parts stress concentration corresponding position wall thickness Thickness is 1.5 times.

To case pipe fitting torsion beam without bend pipe feature, bend pipe is not needed.

It is generally pipe to pipe fitting torsion beam part pipe, because of middle part section V-arrangement feature, direct punching press V-arrangement pipe can be sent out Raw rotation, at least needs a step preform；Case odd-shaped cross section, lower part is similar round, and top is similar to rectangle, top centre position There is 5mm recessed, so that V-arrangement is pushed process pipe fitting and stablize, case odd-shaped cross section width is less than part cross-section width, and pipe is put into liquid Undercut does not occur for compression mould, it is convenient to omit preform, direct hydraulic expanding-forming are final part shape.

Hydraulic expanding die end part seal head designs with the shape, rectangular cross-section.

End excess stock is removed by laser cutting, obtains the pipe fitting torsion beam part that section R Angle Position wall thickness thickens.

It should be noted that due to wall thickness reduction in Bulging Process, actual parts are generally less than in the practical wall thickness of R Angle Positions Design value.

There is wall thickness to thicken feature torsion beam and be beneficial to improve stress concentration for stress concentration position in the embodiment of the present invention, Under equal performance requirement condition, weight is lighter compared with equal thickness torsion beam, is a kind of light-weight design.

Claims (6)

1. a kind of hydraulic expanding-forming pipe that local wall thickness thickens, which is characterized in that its tube body is vertical with axis in axial direction The wall ratio tube wall wall thickness of the circumferentially upper part or all of R Angle Positions in section is big, or/and, tube body is in stress concentration position Wall thickness increases, and, which thickens axially consecutive along tube body；The wall thickness of the wall thickness of R Angle Positions is 1.2t~6.0t, and t is tube body Side wall wall thickness, mm.

2. the hydraulic expanding-forming pipe that local wall thickness as described in claim 1 thickens, characterized in that the wall thickness thicken characterized by Pipe interior direction thickens or pipe lateral direction thickens, or is thickened simultaneously to inside and outside both direction.

3. the manufacturing process for the hydraulic expanding-forming pipe that local wall thickness as claimed in claim 1 or 2 thickens, characterized in that including such as Lower step：

A) pipe is processed, and pipe is aluminium-alloy pipe, magnesium-alloy tube or the roll-in steel pipe of technique molding by extrusion processing；

B) pipe is bent, using numerical-controlled bending or mold bending process one or multi-step bend pipe；Bend pipe mould is with pipe section shape Shape designs；

C) preform makes pipe fitting be subsequently inputted into hydraulic expanding die and undercut does not occur by one or multi-step mould punching；

D) hydraulic expanding-forming, end part seal head design with the shape, partly or entirely hole synchronous hydraulic punching during hydraulic expanding-forming；

E) pipe end processing and remaining hole processing are removed using end laser cutting or end stamping or end mill or sawing mode End excess stock, or realize one-mold multiple-member part separation, remaining hole laser cutting or stamping processing, complete hydraulic expanding-forming pipe at Shape.

4. the manufacturing process for the hydraulic expanding-forming pipe that local wall thickness as claimed in claim 3 thickens, characterized in that in step a), The aluminium-alloy pipe, magnesium-alloy tube or roll-in steel pipe have cross-section feature：

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe in the circumferential angles R position It sets wall thickness and is increased to 1.5t~6.0t；

According to bulging pipe feature, pipe cross section is non-circular shape, by extrusion process or rolling process pipe corresponding zero Part stress concentration position wall thickness is increased to 1.5t~6.0t；

It is circle according to bulging pipe feature or pipe cross section, increases in the corresponding larger position wall thickness of parts locally bulging amount For 1.5t~6.0t；

It is circle according to bulging pipe feature or pipe cross section, it is 1.5t that in corresponding part stress concentration position, wall thickness, which increases, ~6.0t.

5. the manufacturing process for the hydraulic expanding-forming pipe that local wall thickness as claimed in claim 3 thickens, characterized in that in step b), When use numerical-controlled bending technique, and bulging pipe have space continuous bend feature, pipe rotation with bending mould interfere when, remove Bend pipe is put into multistep bend pipe on another set of bending mould.

6. the manufacturing process for the hydraulic expanding-forming pipe that local wall thickness as claimed in claim 3 thickens, characterized in that when bulging pipe without Continuous bend feature, in step a), design pipe cross-sectional shape allows pipe to be directly placed into hydraulic expanding die not occur Undercut, the direct hydraulic expanding-forming of pipe omit step b), step c).