A VEHICLE SEAT

Abstract

A seat tensioner (14) for a vehicle seat (1,2) includes a restraint member (15) and means (16) for tensioning the restraint member. The restraint member (15) is connected between the seat and a vehicle in which it is mounted and the means for tensioning is operative to tension the restraint member to urge the vehicle seat towards the vehicle. The restraint member (15) may be a cable and the means for tensioning (16) a gas activated piston and cylinder device. Means for disconnecting the restraint member from the seat may be provided to enable the seat to be moved following deployment of the tensioner.

Description

The present invention relates to a seat tensioner for a vehicle seat, particularly but not exclusively an automotive vehicle seat, and to a vehicle seat including such a restraint system.

Current automotive seats have become extremely complex in construction and this trend is continuing. Thus current automotive seats are routinely expected to provide for a whole variety of adjustments aimed at enhancing occupant comfort and safety. These adjustments include forward and backwards movement to enable the position of the seat on the longitudinal axis of the vehicle to be adjusted, and upward and downward adjustment to enable the position of the seat on the vertical axis of the vehicle to be adjusted. The forward and backward adjustment in turn enables the position of the front seats with respect to both the dashboard and the rear seats to be adjusted. The upward and downward adjustment in turn enables the height of seats with respect to the floor and roof of the vehicle to be adjusted. Where the seat in question is the driver's seat these adjustments enhance the ability of the driver to select the most comfortable and favourable driving position particularly with respect to the steering wheel. Other adjustments may provide for the adjustment of lumbar support, for the adjustment of headrests and for the adjustment of the squab part of the vehicle seat with respect to the seat part. This latter adjustment is usually a pivotal adjustment enabling the squab part to rotate or pivot with respect to the seat part. The mechanisms inherent in the provisions of all of these adjustments impart a certain degree of play or flexibility to a seat which would not be there without them. Whilst this is necessary under normal operating conditions it may be less desirable under impact conditions. It is an object of the invention to remove or mitigate this.

According to the present invention, there is provided a seat tensioner for a vehicle seat comprising a restraint member and means for tensioning the restraint member, the restraint member being adapted to be connected between the vehicle seat and a vehicle and the means for tensioning being operative to tension the restraint member to urge the vehicle seat towards the vehicle.

According to another aspect of the present invention, there is provided a vehicle seat incorporating a seat tensioner comprising a restraint member and means for tensioning the restraint member, the restraint member being connected to the vehicle seat at one end and being adapted to connect directly or indirectly to the vehicle at its other end and the means for tensioning being operative to tension the restraint member to urge the vehicle seat towards the vehicle.

In a preferred embodiment of the invention, the vehicle seat comprises a seat and a squab connected to the seat to be relatively movable with respect thereto. The restraint member may be connected to the seat or to the squab. The restraint member preferably comprises a flexible elongate member, advantageously a metal cable preferably made of a metal having a high tensile strength. Alternatively, the restraint member may be a rigid link advantageously made of a high tensile material such as a high tensile metal. The means for tensioning comprises a piston and cylinder device, advantageously a gas activated device. The seat comprises a fixed slide and a moveable slide. The fixed slide is adapted to be anchored to the floor of the corresponding vehicle and the movable slide may be moved forwardly and backwardly on the fixed slide to provide for corresponding movement of the vehicle seat longitudinally of the vehicle. A seat belt is advantageously provided for the seat. The belt may be integrally mounted on the seat or separately mounted. Electronic control means are provided to control activation of the means for tensioning in response to sensors providing signals under vehicle impact conditions.

A means may be provided for disconnecting the restraint member from the seat and/or vehicle. Such a means may advantageously be employed to release the restraint means after deployment of the seat tensioner to enable the seat to be moved relative to a vehicle in which it is mounted and in particular to allow the seat squab to be moved to the dumped position to allow access to rear seats of the vehicle. The means may comprise a latch. The latch may be manually operable. The latch is preferably operable by means of a squab release lever. If so, the latch is preferably arranged such that operation of the squab release lever will only cause the latch to release the restraint member if the seat tensioner has been deployed.

The invention also comprises a vehicle incorporating seats as defined above.

In order that the invention may be more clearly understood, embodiments thereof will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 diagrammatically shows a vehicle seat incorporating an embodiment of the invention in a fully forward and fully raised position, incorporating the seat tensioner of the invention;

FIG. 2 diagrammatically shows the vehicle seat of FIG. 1 incorporating the seat tensioner of the invention with the seat in a fully lowered and fully rearward position;

FIG. 3 diagrammatically shows the vehicle seat of FIGS. 1 and 2 incorporating the seat tensioner of the invention with the squab of the seat in the dumped position;

FIG. 4 diagrammatically shows the vehicle seat of FIGS. 1 to 3, with the seat tensioner actuated;

FIG. 5 diagrammatically shows the vehicle seat of FIGS. 1 to 4 with the seat tensioner released;

FIG. 6 shows a partial side elevational view in section of a vehicle seat incorporating another embodiment of the invention;

FIG. 7 shows a partial side elevational view in section of a vehicle seat incorporating another embodiment of the invention;

FIG. 8 shows the vehicle seat of FIG. 8 with the seat tensioner actuated;

FIG. 9 shows a detailed view of the seat tensioner release latch mounted to the seat of FIGS. 7 and 8;

FIG. 10 shows the seat tensioner release latch of FIG. 9;

FIG. 11 shows the seat tensioner restraint member end fitting of the latch of FIG. 10;

FIG. 12 shows an exploded view of the latch of FIG. 10 without the seat tensioner restraint member end fitting;

FIG. 13 shows a cut-away view of the latch of FIG. 10 during normal operation;

FIG. 14 shows the latch of FIG. 10 with the seat tensioner activated;

FIG. 15 shows operation of the latch of FIG. 10 following activation of the seat tensioner; and

FIG. 16 is a flow diagram illustrating operation of the seat tensioners of FIGS. 1 to 15.

Referring to FIGS. 1 to 15, vehicle seats comprise the usual seat 1 and squab 2 having respective metal frames 3 and 4 supporting respective upholstery 5 and 6 and pivotally connected together through a pivot 7 which enables the squab 2 to be pivoted forwardly and backwardly with respect to the seat 1. Seat 1 is mounted on a slide arrangement indicated generally by reference numeral 10. This slide arrangement 10 comprises a movable slide 11 and a fixed slide 12. The movable slide 11 is connected to the metal frame 3 and is slidable with respect to the fixed slide 12 which is fixed to the floor of the vehicle. This slide arrangement 10 enables the vehicle seat to be adjusted forwardly and backwardly along the longitudinal axis of the corresponding vehicle as shown diagrammatically in FIGS. 1 to 5. The seat is shown in its fully forward position in each of FIGS. 1 and 4 and in rearward positions in each of FIGS. 2 and 3. In FIG. 3 the squab 2 of the vehicle seat is shown in the “dumped” position in which it is pivoted forwardly about the seat 1 to enable access to the rear seats of a two door vehicle in the usual way. The seat 1 is also provided with a height adjustment mechanism indicated generally diagrammatically by reference numeral 13. This height adjustment mechanism enables the height of the vehicle seat to be adjusted upwardly and downwardly as desired with respect to the floor and roof of the vehicle. The vehicle seat is shown in its fully raised position in FIG. 1 and its fully lowered position in FIG. 2.

The vehicle seat incorporates a seat tensioner system indicated generally by reference numeral 14. The seat tensioner system 14 comprises a restraint member 15 and means indicated generally by reference number 16 for tensioning this restraint member. The restraint member, which in this embodiment is a flexible high tensile steel cable but may be a rigid metal link, is connected (by way of, in some embodiments, a latch 29) at one end to an anchorage 17 mounted on the metal frame 4 of the squab 2 and at its other end 18 to the tensioning means 16. The tensioning means 16 comprises a gas activated piston and cylinder device which is fixed to the moving slide 11 and through the fixed slide 12 to the floor of the vehicle.

Under normal operating conditions, the seat tensioner is inactive and the cable 15 is slack. Any required vehicle seat adjustments may therefore be made without any interference from the seat tensioner, and in particular the seat squab may be tilted forward to the dumped position shown in FIG. 3 to allow access for rear seat passengers to a two door vehicle. In the event of an accident causing an impact to the vehicle severe enough to deploy the tensioner, the tensioning means 16 are activated pulling the cable 15 taut (as shown at 15T in FIGS. 4,5 and 8) and tying the vehicle seat and its occupant more securely to the vehicle floor thus resisting any tendency for the seat and its occupant to pivot forwardly. The seat belt may be integral with the vehicle seat or separate from it.

An integral seat belt has an upper anchor for the shoulder belt mounted on top of the metal frame 4 of the squab 2. This provides for better belt fit, better belt access and greater comfort for the wearer. It also, however, removes an anchorage point to the body of the vehicle as compared with a non-integral seat belt which has a mounting point for the shoulder belt on the frame of the vehicle itself. This results in an increased load being placed on the vehicle seat by its occupant in the event of a vehicle impact. Although not particularly shown seats are also generally provided with head rests which are also usually adjustable on the top of the squab 2 of the seat.

Following deployment of the tensioner, with the embodiment shown in FIGS. 7 and 8 the tensioner prevents the seat squab 2 being moved to the dumped position. This creates a problem for two door, vehicles as the tensioner then impedes access to the rear seats of the vehicle restricting or preventing the escape of rear seat passengers from the vehicle following an impact, and preventing emergency services gaining access to rear seat passengers which may be necessary following a severe impact.

This problem is overcome by the embodiments shown in FIGS. 1 to 5 and 7 to 15, where the seat tensioner restraint member 15 is mounted to the seat squab 2 by way of a releasable latch 29. The latch 29 allows the restraint member 15 to be disconnected from the seat squab 2, following actuation of the tensioner, allowing the squab 2 to be moved to the dumped position.

With the embodiment of FIGS. 7 to 15 the seat tensioner release latch 29 is arranged to release the restraint member 15 on actuation of a squab release lever 30 normally used to unlock the squab 2 relative to the seat 1 to enable the squab 2 to be moved to the dumped position, but only to release the restraint member after deployment of the seat tensioner.

Referring now to FIGS. 9 to 15, the seat tensioner release latch 29 is mounted by way of two fasteners 31 to a mounting bracket 32 to the seat squab 2 frame 4. Also mounted to the squab frame 4 is a squab release lever 30. The lever 30 is arranged to operate two Bowden cables 33,34. The first cable 33 is only partially shown in FIG. 9 and would in practice be connected to a conventional squab release latch, operation of which enables the seat squab 2 to be moved to the dumped position. The second Bowden cable 34 is connected to the seat tensioner release latch 29.

The seat tensioner release latch 29 comprises two side plates 35 mounted together in a spaced apart manner by way of spacer rivets 36. Between the side plates 35 are mounted upper and lower latch members 37,38 (upper and lower in the illustrated orientation), by way of respective pivotal mountings 39,40. A pin 41 extends from one side of the upper latch member 39, through an arcuate slot 42 in the adjacent side member 35.

The Bowden cable 34 is connected to a pin 43 on the lower latch member 38, such that operation of the squab release lever 30 causes the lower latch member 38 to rotate around pivot 40 in the direction shown by arrows in FIGS. 13 and 14 and from the position shown in FIG. 12 when the seat squab 2 is locked to the position shown in FIGS. 13 and 15 when the seat squab is released.

The end of the restraint member 15 (in this embodiment a steel cable) is connected to a pin 44 which extends through respective apertures towards one end of each of two substantial parallel plates of an end fitting 45.

Towards the other end of the end fitting 45 an elongate slot is formed in each end plate and a pin 46 extends through the slot in both plates. In the assembled latch 29 the plates of the end fitting 45 lie outside the side plates and the pin 46 is received into a slot 47 in the side plates, where it is captured through being received by a slot 48 in the upper latch member 37.

A sacrificial pin 49 extends through respective apertures 50,51 in the end fitting 45 and side plate 35 securing the end fitting relative to the side plate 35.

The plate of the end fitting 45 which lies adjacent the side plate 35 through which the pin 41 of the upper latch member projects includes an arm 52 against which the pin bears. Whilst the sacrificial pin 49 is in tact the end fitting 45 is retained relative to the side plates 35 such that the arm 52 of the end fitting 45 holds the pin 41 of the upper latch member 37 towards the top of the arcuate slot 42 in the side plate. Thus the upper latch member 37 is retained in the position shown in FIG. 13 irrespective of the position of the lower latch member 40 and the pin 46 of the end fitting is captured by the latch 29.

On deployment of the seat tensioner a force in the direction of arrow 53 is applied to the restraint member 15, and in turn to the end fitting 45. This force is arranged to be sufficient to shear the sacrificial pin 49 and allow the end fitting 45 to move downward in the direction of arrow 53 until the pin 46 is caught by the top of the elongate slot in the end fitting. Force applied by the restraining member 15 is thus transmitted to the seat squab via the pin 46 and latch 29.

Movement of the end fitting 45 relative to the remainder of the latch 29 also results in arm 52 allowing pin 41 of the upper latch member 37 to move within the arcuate slot 42 of the side member and hence the upper latch member to rotate. In most impact situations, though, it is to be expected that the squab release lever will not be operative, in which case the lower latch member will be in the position shown in FIG. 12 and prevent movement of the upper latch member 37.

However, when the squab release lever 30 is next operated and the lower latch member 40 rotated to the position shown in FIG. 13, the upper latch member is now free to rotate to the position shown in FIG. 15, releasing pin 46 and thereby disconnecting the restraint member 15 from the seat squab 2 thereby allowing the squab 2 to be moved to the dumped position.

In practice full, or no fire of the tensioning means 16 may be provided for under the control of an occupant restraint electronic control unit 21 (ECU) which is programmed to determine restraint deployment in dependence upon impact conditions sensed by a series of impact sensors. Operation of the system following an impact will now be described with reference to the flow diagram shown in FIG. 16. Immediately, following impact information gathered by sensors 20 in the vehicle concerning the impact is sent to the ECU 21 which determines restraint deployment in dependence upon the nature and severity of the impact. In the event of a full fire 22, the seat restraints 23, 24 on both the driver's and the front passenger's seats are deployed as are the driver and the passenger airbags 25, 26 and subsequently the passenger airbags 25, 26 and subsequently the driver and passenger seatbelts 27, 28. In the event of a partial fire, device 16 would fire but certain of the airbags may not fire. The time delay from the point of impact when these events take place is shown on the vertical axis T on the right hand side of the diagram. These events all take place before the occupants themselves begin to move. Deployment of this arrangement limits forward travel of seat and occupant, under vehicle impact conditions, resulting in increased safety.

It will be appreciated that the above embodiment has been described by way of example only and that many variations are possible without departing from the scope of the invention. For example, although in the embodiment described, the restraint member 15 is connected to the squab of the vehicle seat it could alternatively be connected to the seat, although this would not directly oppose movement of the squab with respect to the seat.

Claims

1-14. (canceled)

15. A vehicle comprising a vehicle seat, a seat belt for the seat and characterized by a seat tensioner, the seat tensioner comprising a restraint member coupled between the vehicle seat and the vehicle, and a tensioner operative to tension the restraint member to urge the vehicle seat towards the vehicle.

16. A vehicle as claimed in claim 15, wherein the restraint member is a flexible elongated member.

17. A seat vehicle as claimed in claim 15, wherein the tensioner comprises a piston and cylinder device.

18. A vehicle as claimed in claim 15 comprising a means for disconnecting the restraint member from the seat and/or vehicle.

19. A seat tensioner as claimed in claim 18, wherein the means for disconnecting the restraint member is a latch.

20. A vehicle as claimed in claim 19, wherein the vehicle seat comprises a seat and a squab connected to the seat to be relatively movable with respect thereto and a squab release lever and wherein the latch is operable by means for the squab release lever.

21. A vehicle as claimed in claim 20, wherein the latch is arranged such that operation of the squab release lever will only cause the latch to release the restraint member if the seat tensioner has been deployed.

22. A vehicle as claimed in claim 21, wherein the latch comprises a sacrificial pin arranged to shear when the means for tensioning the restraint member is deployed.

23. A vehicle as claimed in claim 15, wherein the vehicle seat comprises a fixed slide and a moveable slide, the fixed slide being anchored to the floor of the vehicle and the movable slide being moveable forwardly and backwardly on the fixed slide to provide for corresponding movement of the vehicle seat longitudinally of the vehicle.

24. A vehicle claimed in claim 15, wherein the vehicle seat comprises an integrally mounted seatbelt.

25. A vehicle as claimed in claim 15, comprising an electronic control means to control activation of the means for tensioning in response to one or more sensors providing signals under vehicle impact conditions.

26. A vehicle seat comprising an integrally mounted seat belt and characterized by a seat tensioner comprising a restraint member connected to the vehicle seat at one end and adapted to connect directly or indirectly to a vehicle in which the seat is mounted at its other end, and a tensioner operative to tension the restraint member to urge the seat towards the vehicle.

27. A vehicle seat as claimed in claim 26 wherein the restraint member is a flexible elongate member and the tensioner comprises a piston and cylinder device.

28. A vehicle seat as claimed in claim 26 comprising a latch enabling the restraint member to be disconnected from the seat.

29. A vehicle seat as claimed in claim 28 comprising a seat and a squab connected to the seat to be relatively movable with respect thereto, and a squab release lever wherein the latch is operable by means of the squab release lever.

30. A seat tensioner system for a motor vehicle seat, comprising: a seat belt for the seat;a restraint member having opposed one and other ends with the one end attached to the seat;a tension member that is fixed to the vehicle and that is constructed and arranged to control the other end of the restraint member;said restraint member having an inactive position in which the seat is unrestrained, and a deployed position in which the tension member tensions the restraint member to thus urge the seat toward the vehicle;and a control member to control activation of the tension member in response to a signal representative of a vehicle impact condition.

31. A system as claimed in claim 30 wherein the restraint member includes a flexible elongated member that is slack in the inactive position thereof.

32. A system as claimed in claim 30 wherein the vehicle seat is comprised of a seat and a squab that is pivotally connected to the seat so as to be relatively movable with respect to the seat, and the one end of the restraint member is attached to the squab.

33. A system as claimed in claim 30 including a release member to enable a disconnect of the restraint member.

34. A system as claimed in claim 33 wherein the release member includes a latch connected at the one end of the restraint member.

35. A system as claimed in claim 34 including a squab release lever, said latch being operable by means of the squab release lever, said latch constructed and arranged so that the operation of the squab release lever only allows the latch to release the restraint member when the tension member is deployed.

36. A system as claimed in claim 35 wherein the latch includes a sacrificial pin that is constructed and arranged so as to shear when the tension member is deployed.

37. A system as claimed in claim 30 wherein the tension member comprises a piston and cylinder device.

38. A system as claimed in claim 30 wherein the control member comprises an electronic control unit that is responsive to sensors that detect the vehicle impact condition.

39. A system as claimed in claim 30 wherein the seat belt is an integrally mounted seat belt.