CN109163006A - A kind of link mechanism of composite material and metal bonding - Google Patents

Abstract

For the problem of the durability difference between the stack shell and metal joint of existing composite material connecting rod, the present invention provides the link mechanism of a kind of composite material and metal bonding, belongs to aircraft Technology of Weight Reduction field.The present invention includes two metal joints and composite material stack shell, and two metal joints are connect with the both ends of composite material stack shell respectively；Each metal joint includes two metal auricles and a metal connecting structure, and the head end of metal connecting structure is arranged in two metal auricles, and two metal auricles and metal connecting structure are structure as a whole；Composite cylinder is as inside and outside double-barrel structure；The end of the metal connecting structure of two metal joints is connect with two ends of composite material stack shell inner cylinder respectively；Along the axial direction of connecting rod, using composite material being intertwined the inner cylinder of the metal connecting structure of two metal joints and composite material stack shell, and the outer cylinder of composite material stack shell is formed in the outer surface of inner cylinder and metal connecting structure.

Description

A kind of link mechanism of composite material and metal bonding

Technical field

The present invention relates to a kind of aircrafts to hang box force transferring structure, in particular to a kind of composite material connecting rod belongs to aircraft and subtracts Weight technical field.

Background technique

The development of aircraft mainly using low cost, high carrying capacity as target, will reach this target and be to solve first Structural weight reduction problem hangs box section lower link, is the important force-transmitting part for hanging box section, for connecting hanging box section bottom and machine Wing lower aerofoil transmits motor power.Conventional airplane, including B737, B777, C919 aircraft are all made of metal material, but with The progress of composite technology, compared to conventional steel link mechanism, if hanging connecting rod is mutually tied using metal with composite material It closes, can be with loss of weight 50%~60%, potential economic benefit is huge.Therefore, developing composite material connecting rod is to realize aircraft loss of weight mesh One of key technology.

The existing link mechanism using composite material, weight reduces 35% compared with the similar component of steel, but right For designer, how to guarantee that the design of composite structure meets fiber properties and ensures component safety when in use It is reliably a huge challenge.Compared with metal structure, behavior of the composite material under load condition is more complicated, so cannot Simply metal structure is substituted with fiber compound structure.

Connecting rod is as the critical component in aircraft, and Development Techniques directly determine its performance, and its performance has aircraft Very big influence, if connecting rod is primarily subjected to tensile load and compressive load during the work time, the reliability during being on active service Seem most important, especially the durability between composite cylinder and metal joint.

Summary of the invention

For the problem of the durability difference between the stack shell and metal joint of existing composite material connecting rod, the present invention provides one The link mechanism of kind composite material and metal bonding.

The link mechanism of a kind of composite material and metal bonding of the invention, including two metal joints 1 and composite material Stack shell 2, two metal joints 1 are connect with the both ends of composite material stack shell 2 respectively；

Each metal joint 1 includes two metal auricle 1-1 and metal connecting structure a 1-2, two metal auricle 1-1 The head end of metal connecting structure 1-2 is set, and two metal auricle 1-1 and metal connecting structure 1-2 are structure as a whole；

The composite material stack shell 2 is inside and outside double-barrel structure；

The end of the metal connecting structure 1-2 of two metal joints 1 two with 2 inner cylinder 2-1 of composite material stack shell respectively End connection；

Along the axial direction of connecting rod, using composite material by the metal connecting structure 1-2 of two metal joints 1 and compound The inner cylinder 2-1's of material stack shell 2 is intertwined, and forms composite wood in the outer surface of inner cylinder 2-1 and metal connecting structure 1-2 The outer cylinder 2-2 of barrel body 2.

Preferably, a groove 1-3 is arranged in the end metal connecting structure 1-2 between two metal auricle 1-1.

Preferably, the laying angle of the composite material stack shell is ± 10 °.

Preferably, the end of the metal connecting structure 1-2 and the end of 2 inner cylinder 2-1 of composite material stack shell use wedge The bonding mode of shape connects.

Beneficial effects of the present invention, the structure that the present invention be combined with each other using composite material and metal, mitigate significantly The weight of structural body, improves structure efficiency, main loss of weight of the invention is on composite material barrel body structure, due to connecting rod master Pulling force and pressure are born, the coil structure of composite material stack shell and metal joint that the present invention is arranged can effectively transmit drawing Power enables composite material outer cylinder to bear pulling force well, and composite material inner cylinder is then arranged by outer cylinder package in two metals Among connector, inner cylinder is allowed effectively to bear pressure, increases the durability between the stack shell of connecting rod and metal joint.The present invention For composite material and the connecting rod unitary design of metal bonding and load bearing organization plan, structure can be made full use of in this way Material reduces the quality of structure.

Detailed description of the invention

Fig. 1 is the structure principle chart for not twining the metal joint of composite material；

Fig. 2 is the overall structure diagram of connecting rod of the invention；

Fig. 3 is the structural schematic diagram of metal joint 1 of the invention；

Fig. 4 is the part of the front structure diagram of metal joint 1 in Fig. 2；

Fig. 5 is the axial cross-sectional views of the metal joint 1 in Fig. 2.

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, those of ordinary skill in the art without creative labor it is obtained it is all its His embodiment, shall fall within the protection scope of the present invention.

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

The present invention will be further explained below with reference to the attached drawings and specific examples, but not as the limitation of the invention.

The link mechanism of a kind of composite material and metal bonding of the invention, including two metal joints 1 and composite material Stack shell 2, two metal joints 1 are connect with the both ends of composite material stack shell 2 respectively；

Each metal joint 1 includes two metal auricle 1-1 and metal connecting structure a 1-2, two metal auricle 1-1 The head end of metal connecting structure 1-2 is set, and two metal auricle 1-1 and metal connecting structure 1-2 are structure as a whole；

The composite material stack shell 2 is inside and outside double-barrel structure；

The end of the metal connecting structure 1-2 of two metal joints 1 two with 2 inner cylinder 2-1 of composite material stack shell respectively End connection；

Along the axial direction of connecting rod, using composite material by the metal connecting structure 1-2 of two metal joints 1 and compound The inner cylinder 2-1's of material stack shell 2 is intertwined, and forms composite wood in the outer surface of inner cylinder 2-1 and metal connecting structure 1-2 The outer cylinder 2-2 of barrel body 2.

Present embodiment winds outer cylinder 2-2, and there are two types of modes:

The first forms outer cylinder original shape, further along connecting rod first in the outer surface wound composite of inner cylinder 2-1 Outer cylinder original shape and the metal connecting structure 1-2 of two metal joints 1 are intertwined by axial direction using composite material, The composite material wound twice is formed together outer cylinder 2-2；

Second, do not wind outer cylinder original shape, directed along connecting rod axial direction by the metal of two metal joints 1 Connection structure 1-2 and inner cylinder 2-1 are intertwined, the composite material of winding while fixing two metal joints 1 and inner cylinder, And outer cylinder 2-2 is formed, because of the limitation of metal connecting structure 1-2, outer cylinder is unsuitable blocked up in this case；

In preferred embodiment, a groove 1- is arranged in the end metal connecting structure 1-2 between two metal auricle 1-1 3, when Filament Wound Composite, across the groove of one end metal connecting structure 1-2, using 2 inner cylinder 2-1 of composite material stack shell and another The groove of one end metal connecting structure 1-2 repeats to wind, and realizes the coil structure of composite material stack shell and metal joint, described Groove is for placing composite material.

The schematic illustration of the link mechanism of present embodiment is as shown in Figures 1 to 5, when connecting rod under tension, metal Auricle 1-1 by pulling force by the end effect of composite material stack shell 2 and metal connecting structure 1-2 in outer cylinder, when connecting rod is pressed When power, pressure is acted on inner cylinder by composite material stack shell 2 and metal connecting structure 1-2 by metal auricle 1-1, makes pulling force and pressure Power can be good at transmitting.

The design method of present embodiment connecting rod:

For composite material connecting rod, since size limits, composite material stack shell very thin thickness, therefore composite material connecting rod Structure design it is particularly important.Winding pattern design and ply stacking-sequence of the composite cylinder during winding process design past Toward prior to technological design, design and craft is caused to disconnect.The result of optimum design of laminate layup is often unable to satisfy fiber in technique Stable requirement causes the target of optimization design cannot achieve, and needs to redesign, and carries out a large amount of test technology and grope. By the calculating of butt joint winding path, the boundary condition of theoretical optimization design can be determined, trial and error test is greatly reduced Quantity, while reducing cost, available feasible optimal case.

Winding layer of the composite material connecting rod at fiber and metal joint is attached in connector due to continuous fiber winding Fiber accumulations phenomenon will be closely generated, this fiber accumulations will lead to joint thickness and discontinuous nonlinear change occur, and connector is attached The design size and composite material of nearly composite wood material heap height limitation connector during the winding process fiber slip, it is aerial phenomena such as. In addition, the near joints thickness distribution under various winding patterns and winding layer distribution how is accurately predicted, to composite joint The accuracy of finite element modeling also influences greatly.Therefore, by the accurate prediction to winding thickness, while every kind of line style is being connect Head place track distribution accurately calculated after, available every kind of line style within the scope of each unit thickness accumulation situation with Then winding angle exact value substitutes into finite element unit point by point again, can carry out more accurate FEM calculation.

On the basis of the above work, by combination Abaqus and iterative calculation program and winding pattern table, design is not With winding pattern, and then with strain uniformly for design object, to it is various permission line styles under deformations carry out calculate and it is excellent Choosing reaches the strength and stiffness optimization design of composite material stack shell, and then completes the design of entire connecting rod.

In preferred embodiment, the laying angle of the composite material stack shell is ± 10 °.

In preferred embodiment, the end of the metal connecting structure 1-2 and the end of 2 inner cylinder 2-1 of composite material stack shell are adopted It is connected with the bonding mode of wedge shape.

The present invention uses the composite material barrel body structure of the inside and outside bitubular, substantially increases the energy that structure bears compressive load Power, while carbon fibre composite stack shell 2 being connect with metal joint 1 with wedge shape and canoe, it improves structure and bears to draw The ability of load is stretched, to meet link mechanism requirement.

Although describing the present invention herein with reference to specific embodiment, it should be understood that, these realities Apply the example that example is only principles and applications.It should therefore be understood that can be carried out to exemplary embodiment Many modifications, and can be designed that other arrangements, without departing from spirit of the invention as defined in the appended claims And range.It should be understood that different appurtenances can be combined by being different from mode described in original claim Benefit requires and feature described herein.It will also be appreciated that the feature in conjunction with described in separate embodiments can be used In other described embodiments.

Claims (4)

1. the link mechanism of a kind of composite material and metal bonding, which is characterized in that including two metal joints (1) and composite wood Barrel body (2), two metal joints (1) connect with the both ends of composite material stack shell (2) respectively；

Each metal joint (1) includes two metal auricles (1-1) and a metal connecting structure (1-2), two metal auricles The head end in metal connecting structure (1-2) is arranged in (1-1), and two metal auricles (1-1) and metal connecting structure (1-2) are integrated Structure；

The composite material stack shell (2) is inside and outside double-barrel structure；

The end of the metal connecting structure (1-2) of two metal joints (1) respectively with composite material stack shell (2) inner cylinder (2-1) Two end connections；

Along the axial direction of connecting rod, using composite material by the metal connecting structure (1-2) of two metal joints (1) and compound Inner cylinder (2-1's) of material stack shell (2) is intertwined, and in the outer surface shape of inner cylinder (2-1) and metal connecting structure (1-2) At the outer cylinder (2-2) of composite material stack shell (2).

2. the link mechanism of a kind of composite material and metal bonding according to claim 1, which is characterized in that in two gold A groove (1-3) is arranged in the metal connecting structure end (1-2) belonged between auricle (1-1).

3. the link mechanism of a kind of composite material and metal bonding according to claim 2, which is characterized in that described compound The laying angle of material stack shell is ± 10 °.

4. the link mechanism of a kind of composite material and metal bonding according to claim 3, which is characterized in that the metal The end of connection structure (1-2) is connect with the end of composite material stack shell (2) inner cylinder (2-1) using the bonding mode of wedge shape.