GB2373219A

GB2373219A - Safety arrangement

Info

Publication number: GB2373219A
Application number: GB0121878A
Authority: GB
Inventors: Heath Knight-Newbury; John Macari
Original assignee: Autoliv Development AB
Current assignee: Autoliv Development AB
Priority date: 2001-03-13
Filing date: 2001-09-10
Publication date: 2002-09-18
Anticipated expiration: 2021-09-10
Also published as: GB0106175D0; GB0121878D0; KR20030090669A; GB2373219B; KR100837309B1

Abstract

A safety arrangement comprises a unit 20 to be located beneath a bonnet 8 of a motor vehicle. The unit can become of increase length (fig 5) in response to a signal from a sensor 35 and may comprise a bellows-sleeve 21 and a gas generator 19. The unit has a catch arrangement 23 that engages part 9 of the bonnet structure so that part of the bonnet structure is engaged and retained when the length of the unit is increased. When the front part of a motor vehicle strikes a pedestrian the bonnet 8 is lifted by unit 20 allowing further deformation of the bonnet decreasing the severity of possible injury suffered by the pedestrian.

Description

DESCRIPTION OF INVENTION "IMPROVEMENTS IN OR RELATING TO A SAFETY ARRANGEMENT" THE PRESENT INVENTION relates to a safety arrangement, and more particularly relates to a safety arrangement for a motor vehicle.

When a motor vehicle, such as a motor car, is involved in an accident in which the front part of the vehicle strikes a pedestrian, it is not uncommon for the head of the pedestrian to be brought forcibly into contact with the hood or bonnet of the vehicle. This may cause the hood or bonnet to deform, but, in many cases, that deformation is arrested as the hood or bonnet engages part of the engine block, or other component within the engine compartment, immediately beneath the hood or bonnet. As a consequence, the movement of the head of the pedestrian is suddenly stopped, and the head of the pedestrian is thus subjected to a very severe deceleration, which is undesirable.

It has been proposed previously to provide one or more inflatable elements located adjacent the rear edge of the hood or bonnet adapted to be inflated in an accident situation of the type described, so that the rear edge of the hood or bonnet is lifted, thus spacing hood or bonnet from the engine block, or other components, within the engine compartment. This enables the head of a pedestrian, if it strikes a hood or bonnet in an accident of the type under consideration, to be decelerated gradually, as the hood or bonnet deforms.

The inflatable elements that have been previous proposed, have been conventional air-bags, which suffer from the disadvantage that they do not remain inflated for a period of time long enough to provide an adequate degree of protection for a pedestrian during a typical accident situation, and also may accelerate the hood or bonnet to such an extent that the hood or bonnet moves upwardly to such an extent that the pedestrian is injured.

The present invention seeks to provide an improved safety arrangement.

According to one aspect of this invention there is provided a safety arrangement for a vehicle having a hood or bonnet, the safety arrangement comprising a unit adapted to be located beneath the rear part of the hood or bonnet, the unit incorporating means to increase the length of the unit in response to a signal from a sensor, the unit carrying a catch adapted to engage and retain part of the bonnet structure when the length of the unit is increased.

According to another aspect of this invention there is provided a safety arrangement in a vehicle having a hood or bonnet, the safety arrangement comprising a unit located beneath the rear part of the hood or bonnet, the unit incorporation means to increase the length of the unit in response to a signal from a sensor, the unit carrying a catch adapted to engage and retain part of the bonnet structure when the length of the unit is increased.

Preferably the unit is provided with a boss provided with two diametrically opposed spring clips which constitute the catch.

Conveniently the boss is provided with a conical or tapering upper surface, each spring clip being provided with a free arm defining an inclined portion which is co-aligned with the conical surface, the lower end of which terminates with a radially inwardly directed arm.

Advantageously the unit incorporates a base, the base carrying a pyrotechnic charge, the unit further incorporating an upper plate carrying the boss, there being means connecting the base and the upper plate adapted to increase in length on actuation of the gas generator.

Conveniently part of the unit, when the length thereof has been increased, is capable of plastic deformation.

In one embodiment the means between the base and the upper plate comprise a sleeve formed of a plastically deformable material.

Preferably the sleeve is provided with corrugations.

In another embodiment the means between the base and the top plate comprise a piston and cylinder arrangement.

Preferably the piston incorporates a piston rod of plastically deformable material and means are provided to retain the piston in an extended position.

Conveniently the unit is provided with means which enable the unit to be connected to part of the vehicle with a screwing action.

Preferably the unit is provided with a quarter turn screw or a bayonettype connection to secure the unit to part of the vehicle beneath the hood or bonnet.

Advantageously the bonnet structure is provided with an aperture to receive said catch, the aperture having a first dimension in one direction, and a second larger dimension in another direction so that after the catch has engaged an edge of the aperture, a quarter turn will release the catch.

In an alternative embodiment the unit incorporates an air-bag, the airbag carrying the catch adapted to engage and retain part of the bonnet structure.

Preferably the air-bag incorporates a sleeve formed from a material that does not permit substantial radial expansion of the sleeve.

Conveniently the sleeve is formed of fabric.

Preferably the sleeve is provided with an inner lining of substantially gas-tight material.

Conveniently the upper part of the sleeve is trapped in a substantially gas-tight manner between two inter-engaging elements, one of the interengaging elements carrying said catch.

Preferably the catch comprises a catch plate adapted to engage and retain a barb that forms part of the bonnet structure.

Preferably the lower end of the sleeve is received within a groove formed in a base block.

In a preferred embodiment the airbag is of cylindrical form, but alternatively the airbag may be conical with a broad base and a narrow top carrying the catch.

In order that the invention may be more readily understood, and so that further features thereof may be appreciated, the invention will now be described by way of example with reference to the accompanying drawings in which: FIGURE I is a side view of part of a safety arrangement in accordance with the invention mounted on a motor vehicle, FIGURE 2 is a diagrammatic sectional view of part of the safety arrangement of Figure 1, FIGURE 3 is a sectional view taken on the line A-A of Figure 2, FIGURE 4 is a sectional view taken on the line B-B of Figure 2, FIGURE 5 is a view corresponding to Figure 2, showing the arrangement in Figure 1 following an accident, FIGURE 6 is a view corresponding to Figure 2, illustrating an alternative embodiment of the invention, FIGURE 7 is a diagrammatic sectional view of an alternative embodiment of the invention, prior to deployment of the safety arrangement, and FIGURE 8 is a view corresponding to Figure 7 illustrating the arrangement of Figure 7 after deployment.

Referring initially to Figures 1 to 4 of the accompanying drawings, the safety arrangement in accordance with the present invention is illustrated.

Part of the inner wing structure 1 is provided with a recess or depression 2, that recession or depression 2 having an aperture 3 formed in the base thereof. Aperture 3 is of circular form provided with two radially inwardly directed diametrically opposed lugs 4,5, which have inclined lower surfaces 6,7, to form part of a quarter-turn screw or "bayonet" -type fixing.

Located above the inner wing structure is the hood or bonnet 8 which is provided, on its upper surface, with a stiffening structure or reinforcing beam 9.

An aperture or cut-out 10 is provided in the stiffening structure 9 at a position above the aperture 3. The cut-out 10 is of a cruciform shape having a first pair of opposed arms 11,12 and, orthogonally arranged to the first pair of arms a second pair of slightly longer opposed arms 13,14.

A unit incorporating an inflatable element 15 is provided. The inflatable element is mounted on a base 16. The outer part of the base 16 is provided with two helical projections 17,18 which are diametrically opposed and which are adapted to engage with the projections 4,5 of the aperture 3 to form a quarterturn screw fixing or a bayonet fixing. The base 16 may thus be connected to or disconnected from the aperture 3 in the inner wing structure with a straightforward screwing action.

The base 16 is provided with a central aperture 18 that receives a pyrotechnic inflator or gas generator 19. The base 16 is sealingly connected to one end of a sleeve 20 formed of a plastically deformable material, such as metal in the form of steel, so that gas from the gas generator may be injected into the sleeve 20. The sleeve 20 is provided with a plurality of corrugations 21. The corrugations may be provided by pressure forming the sleeve in an appropriate die or, alternatively, by processing the sleeve using cooperating rollers upon the interior and exterior of the sleeve as the sleeve rotates. The upper end of the sleeve is sealingly connected to an upper plate 22.

The upper plate 22 carries an upwardly directed boss 23, which has a conical or tapering upper surface 24. The boss is provided with two diametrically opposed spring clips 25,26. Each spring clip is provided with a free arm 27,28 defining an inclined portion 29,30, which is co-aligned with said conical surface, the lower end of which terminates with a radially inwardly directed arm 31,32. The arms 31,32 are spaced above the upper surface of the upper plate 22. The spring clips 25,26 are co-aligned with the shorter arms 11,12 of the crucifix-shaped engagement cut-out 10.

The upper plate 22 is secured to a bonnet latch release arm 33 which, as can be seen from Figures 1 and 5, extends to a bonnet catch 34. The bonnet catch 34 may be the ordinarily provided bonnet catch if the bonnet is a bonnet of the type that is provided with hinges or other pivotal mounting means at the front of the bonnet, but if the bonnet is of the type which is provided with rear hinges, the bonnet catch is adapted to retain the hinges in position. In any event, it is to be understood that when the bonnet catch 34 is released, the rear edge of the hood or bonnet 8 is free to move upwardly.

A sensor 35 is provided which may be mounted on the front bumper of the motor vehicle, adapted to sense an impact with a pedestrian. The sensor 35 is connected to the gas generator or inflator 19.

When the sensor 34 senses an impact with a pedestrian, and passes a signal to the inflator, the inflator 19 is actuated and gas from the inflator 19 passes into the interior of the sleeve 20. The sleeve expands, with the upper plate 22 moving upwardly. Thus the length of the sleeve 20 is increased. As the upper plate 22 moves upwardly, the boss 23 is directed through the cutout 10 by the conical surface 24, and the inclined parts 29 and 30 of the free arms 27,28 and spring slips 25,26, engage against the ends of the relatively short arms 11, 12 of the cruciform-shaped cut-out 10, thus flexing inwardly. As the spring clips 25,26 pass completely through the engagement cut-out 10, the resilient arms 25 and 26 flex back to their initial position with the horizontal, inwardly directed portions 31,32 engaging the metal in the bonnet stiffening structure 9 to either side of the engagement cut-out 10 beyond the ends of the relatively shortly arms 11,12 of the cruciform. Thus parts of the bonnet stiffening structure are trapped between the spring clips 25,26 and the upper plate 22.

As the upper plate 22 moves upwardly, the bonnet reaction release arm 33 is moved, thus releasing the bonnet catch 34.

As the sleeve 20 continues to expand, the rear part of the bonnet 8 is moved upwardly, as shown in Figure 5. Thus, should the head of a pedestrian strike the bonnet, the risk of the movement of the head being arrested, on deformation of the bonnet, due to the impact of the bonnet with the engine block or other component located within the engine compartment, is minimised. Also, as the head of a pedestrian strikes the hood or bonnet, a downward force will be applied to the extended sleeve 20, causing the extended sleeve 20 to be re-compressed with a plastic deformation, thus absorbing energy.

One or more vents may be provided, such as the flap 36 which may be adapted to be opened when subjected to a predetermined pressure of gas, to vent the gas from the interior of the expanded sleeve.

The engagement of the spring clips 25,26 with the bonnet stiffening structure serves to hold the rear edge of the bonnet in place and prevents the bonnet tipping forwardly in an undesired manner.

Following deployment of the safety device, the rear edge of the bonnet will remain in a lifted condition. If it is desired to return the hood or bonnet to its initial condition, the sleeve 20 may be grasped manually and may be rotated by 900, thus disengaging the lower half-turn screw or bayonet fixing, and also moving the spring clips 25,26 into alignment with the longer arms 13,14 of the cruciform-shaped opening 10, thus enabling the unit to be disconnected from both the inner wing structure and the bonnet stiffening structure.

Whilst the invention has been described above with reference to an embodiment in which an inflatable element is used which has a side wall formed of a plastically deformable material, Figure 6 illustrates an alternative embodiment of the invention in which a unit is provided wherein the base plate 18 carries a cylinder 40 adapted to receive gas from the pyrotechnic inflator. A piston 41 is contained within the cylinder adapted to move in response to the supply of gas from the inflator to increase the length of the unit, and the piston 41 is provided with a piston rod 42 which supports the upper cover. The piston rod 42 is provided with a ratchet arrangement 43 so that, once the piston has moved to an extended position, the piston cannot return to the initial position, and the piston rod 42 may be formed of a plastically deformable material.

It is to be appreciated that in use of the embodiment shown in Figure 6, on actuation of the inflator 19, the piston 41 will move from an initial retracted position to an extended position, and will be retained in the extended position by the operation of the ratchet 43. The bonnet will thus, as in the embodiment described above, be lifted. Should the head of the pedestrian strike the bonnet, applying a down-force to the bonnet, the piston rod 41 may deform plastically, thus absorbing energy.

It is to be appreciated that a safety device of the type described above may easily be mounted on the vehicle, when the vehicle is on the production

line, and even if there is a slight mis-alignment, the device will still operate in the intended manner, as the conical head 24 will always"self-align"with the engagement cut-out 10. Because the described unit does not form a constant connection between the bonnet and the inner wing structure, the bellows or the piston will not be subjected to any forces liable to cause metal fatigue. The installation may be compact and unobtrusive, and thus is unlikely to be damaged during vehicle servicing.

Figures 7 and 8 illustrate an alternative embodiment of the invention.

Referring to Figures 7 and 8 the described embodiment comprises a base housing 50, which may be formed as a casting of an appropriate lightweight metal such as aluminium or a tin and lead alloy, such as that sold under the Trade Mark MAZAC, or even a moulded plastics material. The base 50 is formed as a monolithic block 51, the block 51 having protruding apertured lugs 52,53, by means of which the block may be secured in position. The monolithic block defines a cavity 54 which opens into one side face of the block, the cavity 54 containing a gas generator 55. The cavity 54 is connected, by means of a gas flow duct 56 formed within the monolithic block 51 to the base of a recess 57 which is formed at the upper surface of the block. The base 57 is surrounded by a channel 59. The channel 59 is initially provided with two upstanding lips, the lips being formed of swageable or malleable material so that lips may be deformed inwardly towards each other.

As shown in Figure 7 and 8, an inflatable element 60 is provided, having a bead 59 surrounding an open mouth of the inflatable element. The bead 59 is received within the channel 59, and the lips of the channel are swaged or deformed inwardly so as to retain the bead 59 within the channel surrounding the recess 57.

The inflatable element 60 is formed from a cylindrical inner air-bag 61 which is relatively gas-tight, and an outer tubular sleeve, which may be made of fabric, for example, which does not permit any substantial radial expansion.

The inflatable element 60 is thus a cylindrical aibag, but in other embodiments a conical airbag may be used.

The upper end of the inner air bag 61 and the sleeve 62 is trapped between a lower metal cup 63, which has a base 64, and an upwardly and outwardly directed side wall 65 which terminates with a rolled-over lip 66 presenting a curved upper surface, and an upper cup 67 which is nestingly received within the lower cup 64, the upper cup 67 having a base 68 and an upwardly and outwardly directed side wall 69. The upper cup and the lower cup are secured together by means of a rivet 70 which passes through coaligned apertures formed in the centres of the bases 64 and 68 of the two cups. Thus, the upwardly and outwardly inclined side walls 65 and 68 trap between them the inner substantially gas-tight air-bag material 61 and the outer sleeve 62 in a substantially gas-tight manner.

The dimension of the lower cup 64 is such that at least part of the cup may be snugly received within the recess 57 formed in the upper surface of the monolithic block 51.

Provided within the upper cup 67 is a clip plate 71. The clip plate 71 extends across the open mouth of the upper cup 67 and defines a central aperture 72.

The base block 50 is adapted to be mounted at a position beneath the bonnet or hood on a motor vehicle. Figure 7 illustrates the under-surface 80 of the bonnet or hood which is located above the base block 50. The bonnet or hood 80 carries a support plate 81 by means of two mounting brackets 82,83.

The support plate 81 supports a downwardly directly barb 84. The barb may be formed of a plastics material for example. The barb has a pointed lower end 85 and outwardly directed retaining tangs 86. The pointed end is located above and substantially in alignment with the aperture 72 in the catch plate 71.

In an initial condition of the safety arrangement, as shown in Figure 7, the lower cup 64 is at least partially received within the recess 57, and the bonnet or hood 80 is spaced only a short distance above the base block 50. In the event that an impact with a pedestrian is sensed, the gas generator 55 is activated, and gas is injected into the chamber 54, with the gas flowing through the gas flow conduit 56 to the base of the recess 57. The gas serves to inflate the inflatable element 60. The length of the unit incorporating the inflatable element 60 thus increases. The rounded rolled over lips 66 prevent damage occurring to the inflatable element. The metal cups 63 and 67 move upwardly, and the aperture 72 in the catch plate 71, engages with the pointed lower end 85 of the barb 84. The catch plate moves upwardly, initially compressing the barbs 86 which pass through the aperture 72, and which then expand outwardly beneath the aperture, so that the barb 84 is securely connected to the catch plate 71.

As the cups 64 and 67 move upwardly, an upwardly force is applied to the hood or bonnet 80, causing the hood or bonnet 80 to lift.

The sleeve 62 is formed from a material or fabric that does not allow any substantial radial expansion. Thus the sleeve 62 effectively constrains the airbag 60 to inflate only in the axial direction, and serves to prevent any lateral movement of the inflated air-bag. It is thought that a simple air-bag, without any inherent strength, might be unstable, allowing the bonnet to move in a direction other than the intended upwardly direction.

It is to be appreciated that when the clip plate of the upper cup has engaged the barb, when the air-bag 60 is fully inflated, the engagement of the barb 84, with the clip plate 72, will prevent the bonnet moving further in the upward direction. Thus the described arrangement moves the hood or bonnet 80 upwardly by a predetermined amount. Any tendency for the bonnet 80 to move upwardly by a further amount will cause the barbs 86 to spread out and to engage the clip plate 71 more securely.

If a pedestrian should hit the bonnet while the bonnet is in the elevated condition, the pedestrian will apply, to the bonnet, a force tending to press the bonnet down. This will serve to compress the air-bag raising pressure within the air-bag 60. This rise in pressure may cause leakage of gas from the air-bag, with that gas flowing through the outer sleeve 62. This leakage of gas will allow the bonnet 80 to move downwardly while absorbing energy, and thus decelerating the pedestrian in a gradual and desired manner. The impact of the pedestrian with the bonnet will thus be damped.

In the present Specification"comprise"means"includes or consists of' and"comprising"means"including or consisting of'.

The features disclosed in the foregoing description, or the following Claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately, or in any combination of such features, be utilised for realising the invention in diverse forms thereof.

Claims

CLAIMS: 1. A safety arrangement for a vehicle having a hood or bonnet, the safety arrangement comprising a unit adapted to be located beneath the rear part of the hood or bonnet, the unit incorporating means to increase the length of the unit in response to a signal from a sensor, the unit carrying a catch adapted to engage and retain part of the bonnet structure when the length of the unit is increased.
2. A safety arrangement in a vehicle having a hood or bonnet, the safety arrangement comprising a unit located beneath the rear part of the hood or bonnet, the unit incorporation means to increase the length of the unit in response to a signal from a sensor, the unit carrying a catch adapted to engage and retain part of the bonnet structure when the length of the unit is increased.
3. A safety arrangement according to Claim 1 or Claim 2 wherein the unit is provided with a boss provided with two diametrically opposed spring clips which constitute the catch.
4. A safety arrangement according to Claim 3 wherein the boss is provided with a conical or tapering upper surface, each spring clip being provided with a free arm defining an inclined portion which is co-aligned with the conical surface, the lower end of which terminates with a radially inwardly directed arm.
5. A safety arrangement according to any one of the preceding Claims wherein the unit incorporates a base, the base carrying a pyrotechnic charge, the unit further incorporating an upper plate carrying the boss, there being means connecting the base and the upper plate adapted to increase in length on actuation of the gas generator.
6. An arrangement according to any one of the preceding Claims wherein part of the unit, when the length thereof has been increased, is capable of plastic deformation.
7. An arrangement according to Claim 5 or 6 wherein the means between the base and the upper plate comprise a sleeve formed of a plastically deformable material.
8. An arrangement according to Claim 7 wherein the sleeve is provided with corrugations.
9. An arrangement according to Claim 5 or 6 wherein the means between the base and the top plate comprise a piston and cylinder arrangement.
10. An arrangement according to Claim 9 wherein the piston incorporates a piston rod of plastically deformable material, and means are provided to retain the piston in an extended position.
11. An arrangement according to any one of the preceding Claims wherein the unit is provided with means which enable the unit to be connected to part of the vehicle with a screwing action.
12. An arrangement according to Claim I I wherein the unit is provided with a quarter turn screw or a bayonet-type connection to secure the unit to part of the vehicle beneath the hood or bonnet.
13. An arrangement according to Claim 11 or 12 wherein the bonnet structure is provided with an aperture to receive said catch, the aperture having a first dimension in one direction and a second larger dimension in another direction, so that after the catch has engaged an edge of the aperture, a quarter turn will release the catch.
14. A safety arrangement according to Claim 1 or Claim 2 wherein the unit incorporates an air-bag, the air-bag carrying the catch adapted to engage and retain part of the bonnet structure.
15. An arrangement according to Claim 14 wherein the air-bag incorporates a sleeve formed from a material that does not permit substantial radial expansion of the sleeve.
16. An arrangement according to Claim 15 wherein the sleeve is formed of fabric.
17. An arrangement according to Claim 15 or 16 wherein the sleeve is provided with an inner lining of substantially gas-tight material.
18. An arrangement according to any one of Claims 15 to 17 wherein the upper part of the sleeve is trapped in a substantially gas-tight manner between two inter-engaging elements, one of the inter-engaging elements carrying said catch.
19. An arrangement according to any one of Claims 14 to 18 wherein the catch comprises a catch plate adapted to engage and retain a barb that forms part of the bonnet structure.
20. An arrangement according to any one of Claims 14 to 19 wherein the lower end of the sleeve is received within a groove formed in a base block.
21. An arrangement according to any one of claims 14 to 20 wherein the airbag is of cylindrical form.
22. A safety arrangement substantially as herein described with reference to and as shown in Figures 1 to 5 of the accompanying drawings.
23. A safety arrangement substantially as herein described with reference to and as shown in Figure 6 of the accompanying drawings.
24. A safety arrangement substantially as herein described with reference to shown in Figures 7 and 8 of the accompanying drawings.
25. Any novel feature or combination of features disclosed herein.