DE3920124A1 - SEAT SLIDE RAIL ARRANGEMENT - Google Patents

Abstract

A seat slide assembly for a vehicle seat which is more resistant to deformation and separation, comprises a first elongate slide member (12) of box section which defines a slot (34) in its upper surface and a longitudinally extending cavity and is arranged to be secured with respect to the vehicle floor and a second elongate slide member (10) mounted on the first slide member to slide longitudinally with respect to it. The second slide member (10) includes a generally planar portion (40) which extends through the slot (34) and two engaging formations (41) which extend over substantially its entire length within the cavity and engage a respective formation (45) on the first slide member (12). The first and second members (10, 12) are manufactured by extrusion. Each formation (41, 45) on the first and second slide members (10, 12) includes a substantially U-shaped portion in transverse cross-section, the limbs (42, 44, 48) of which extend transversely to the planar portion (40) and define a channel which receives a limb (48, 44) of the formation (12, 10) with which it is in engagement. <IMAGE>

Description

The invention is concerned with seat slide rail assemblies for adjustable seats. In particular, the invention is for a seat slide rail assembly for a seat in one Motor vehicle determined ver in the vehicle longitudinal direction is adjustable.

Seat slide rail arrangements for example for vehicles seats have two main parts, one that firmly connects to the floor  tied and another that is firmly attached to the seat is on which are slidably slidable on each other. Generally such seat slide rail assemblies are made of pressed or rolled steel. The sure one Seat belt anchorage is often attached to the slide rail part, which is fixed to the seat, a relative position the anchoring with respect to those sitting on the seat Keep person constant. This has changed with one baren proved to be useful because the arrangement of the Si seat belt here essentially by the adjustment the seat in relation to the vehicle body is not disturbing being affected.

The slide rail parts of such an arrangement are such designed that they interlock and thus the separation resist force that tries to get out of their relati vertical positions, if at one Vehicle decelerates sharply like in an accident occurs.

Typically, a slide rail assembly is also included provided a locking device designed in this way is that the parts are in a special relative horizontal Position can be recorded, which is a desired seat position corresponds.

The part of the arrangement that is firmly attached to the seat is, most of the impact comes from safety seat belt anchors that return the body of the passenger holds. This force acting on the slide rail arrangement can be divided into vertical and horizontal components the. The horizontal component resists the locking device which prevents the seat in the longitudinal direction of the vehicle is moving. The vertical force keep the in interlocking slide rail parts stood. The power on that  Slide rail parts is considerable when a passenger is on the seat has taken place.

Known pressed or rolled steel assemblies however lei to a number of restrictions that are related stand with their design and manufacture.

For one thing, the complexity of the profiles is one of the other gripping parts of the slide rail parts due to the Manufacturing process limited. Therefore, they can interlock of the gripping parts deform transversely when they are high Separating forces are exposed. The interlocking parts, which are usually lip-shaped, have the Tendency to bend out of engagement, so that the connection between the parts have games before the maximum shear strength of the metal of the slide rails parts is reached. Therefore, the maximum possible Do not use the strength of the slide rail material.

The second is the typical, rolled or pressed Seat slide rail assemblies the part of that element that is firmly attached to the ground, not per se designed that he is so rigid that he is inclined to the ground brought part can withstand, so that failure through Bending can occur. This tendency is amplified when the seat is adjusted so that the seat belt Anchoring point approximately in the middle between the points is the bottom part, where this ver ver with the floor is bound.

Third, steel is a suitable material for known ones Slide rail parts, which corresponds to general practice, that one builds on the rigidity of the material around which he to achieve required strength. This material is too can be shaped in a suitable manner for rolling or pressing. However  leads to the material thickness of the steel, which makes it stiff speed is required to ensure that the seat slide rails order becomes relatively difficult. The greater the material thickness of the Steel, the more powerful the presses have to be, which are used to form the parts.

According to the invention, a seat slide is distinguished order of the type that a first, elongated slide rails has part in a box-shaped cross section, the one Slit in its top surface and one in the longitudinal direction has running cavity, and which firmly with a Bottom is connectable, and a second, elongated slide Has part that on the first slide rail part Art is appropriate that it is slidable along the same is movable, the second slide rail part one in contains general flat section through the slot goes, and has two engagement parts, which are essentially lichen over the entire longitudinal extent in the cavity extend away and engage an associated part come on the first slide rail part, by the fact that he most and second parts are produced by extrusion, and that every structure or part on the first and two th slide rail part a substantially U-shaped Ab has cut, the arms or legs in the transverse direction run to the flat section and form a channel, which receives an arm or a leg of the structure, with which it comes into engagement. The is preferably The shape of each channel is essentially the same as the shape of the arm or thigh designed, which in the same on is taken.

In the arrangement according to the invention is therefore the shape of the both parts more complicated than in the known arrangements of this type, and you get an inevitable lock, which allows a relative longitudinal sliding movement,  but which to a greater extent a deformation and thus a Separation of the two parts opposes resistance.

The use of extrusion enables the Shape of the two parts solely with regard to their Strength determined and not by the manufacturing process is influenced, as has been the case with conventional rolled or pressed steel structures was the case. This will make him possible that the maximum possible strength of the seat sliding rail arrangement according to the invention mainly by the Tensile strength of the material used and not by the Shape or construction of the two parts is determined. The in interlocking parts can easily a U-för shape, with their arms or thighs in essence Chen run parallel and the web of the U essentially cut at right angles. However, more complex shapes are available gene possible, and the free end of the outer leg each U-shaped part can be used with one or more additional arms be connected, which are inclined to this. The arms or Legs of the U-shaped part do not need the web of the U- shaped part at right angles, but they can also with a different angle or at an angle Radius run to this.

To further stiffen the first part, are preferred one or more stiffening ribs are provided. The Verstei Fungsrippen can be a part of L-shaped webs on the Base part of the first part are formed, which is a hollow limit space that is accessible via a longitudinal slot is the through the opposite legs or arms of the Bridge parts is limited. The provision of such Slot facilitates the connection of the mounting supports.

In the seat-slide rail arrangement according to the invention the engaging parts on the first and second parts in action  interlocked. A separating force on the Arrangement acts and tries to deform the parts must be there overcome the interlocking parts before the Parts can be separated from each other. As a result of her However, complicated parts always grip these parts stronger with increasing separating force. It has been shown that separation under shock loads not in the seat-slide rail arrangement according to the invention occurs until the limit of the shear strength of the material the parts is reached. Consequently, the total possible Optimal use of the strength of the material.

Further details, features and advantages of the invention he give yourself one from the description below preferred embodiment with reference to the accompanying Drawing. It shows:

Fig. 1 is a side view of a seat slide rail device according to the invention,

Fig. 2 is an end view of the arrangement in Fig. 1, and

Fig. 3 is a sectional view taken along the line III-III in FIG. 1.

With reference to FIGS. 1 to 3, a seat-slide rail arrangement has an upper rail 10 which is slidably or slidably received in a lower guide rail. The arrangement is normally installed in a vehicle such that the rails extend in the longitudinal direction thereof. Although the arrangements are not normally used in pairs to carry a vehicle seat, only one arrangement is shown here, the seat not being shown for reasons of clarity.

As best seen in FIGS. 1 and 2, a seat belt anchor plate 14 is bolted to the upper rail 10 at the rear end (right end in FIG. 1).

The lower rail 12 can be screwed to the floor of the vehicle through front and rear openings 15 and 18, respectively. The rear opening 18 is formed in this preferred embodiment be in an angle plate 20 which is fixedly connected to the lower rail 12 .

The upper rail 10 runs on ball bearings 22 which run in the longitudinal direction along pairs of transverse spaced Ku gellaufringen 24 and 26 which are formed in the rails 10 and 12 .

The relative longitudinal position of the upper rail 10 with respect to the lower rail 12 is maintained in all position areas with the aid of a movable toothed plate 28 which is attached to the end of a lever arm 30 . The lever arm 30 is articulated to the upper rail 10 in order to bring the tooth plate into the engaged state with complementary parts 32 on the lower rail 12 or to bring it out of engagement by the same. When the tooth plate 28 is engaged with the parts 32 , the upper rail 10 is prevented from moving in a longitudinal direction. Of course, it is not essential that the tooth plate and lever are attached to the upper rail, although this does not mean that they move with the seat. These parts could also be attached in an equivalent manner to the stationary lower rail, and engaging parts could be provided on the upper rail.

With particular reference to FIG. 3, the lower slider 12 has ne a box-shaped cross-section of an extruded aluminum material. The box-shaped cross-section has an upper, longitudinally extending, central slot 64 which opens towards the interior of a cavity 36 which is delimited by the box-shaped cross-section. The respective lower corners 38 of the inner surface of the box-shaped cross section form one of the two, in the transverse direction spaced ball races 26 , each receiving a set of ball bearings 22 .

The upper rail has a plate 40 with a closed box-shaped cross-section made of extruded aluminum, which is generally flat and extends into the central slot 34 of the lower rail. The dimensions of the box-shaped cross-section in the direction of insertion behind the slot 34 are smaller than the transverse dimensions. The lower end of the plate 40 has a pair of similar engaging parts 41 which have opposite transverse flanges 42 . Each flange 42 is formed with an outer, inwardly radiused portion that forms the pair of transversely spaced upper ball races 24 . Each ball race 24 is in the diameter direction of the associated ball race 26 in the part with a box-shaped cross section. Thus, the weight of the seat mounted on the upper rail 10 is evenly distributed between the two sets of ball bearings 22 which in turn rest on the lower rail 12 which is fixed to the floor of the vehicle.

Each flange 42 extends from the plate 40 , ie essentially horizontally in the transverse direction and then from the Ku gellaufringen 24 upwards. Then it is bent inward to form an engagement lug 40 which projects transversely towards the plate 40 .

Similarly, the upper portion of the box-shaped lower rail 12 which forms the slot 34 has an engaging member 45 on each side which has a downwardly extending flange 46 which terminates in a transversely outwardly extending engagement boss 48 . It can be seen from this that the engagement lugs 44 and 48 cooperate by extending into a corresponding channel formed by the U-shaped cross section of the parts 41 and 45 to prevent the upper rail 10 from being vertical Direction is lifted from the lower rail 12 through the slot 34 .

The lugs 44 and 48 are arranged by means of a tight fit in the channels in such a way that the cross section of each lug is essentially complementary to that of the channel in which it is received. Elongated plastic strips 47 are located between the shoulders 48 and the flanges 42 , which ensure that these two parts do not come into direct contact with one another, but that a sufficient sliding movement of these parts relative to one another is possible. The strips 47 are slightly curved across their width dimension to provide low preload and to ensure that they remain in contact with the tabs 48 and flanges 42 .

The lower rail 12 is also provided with a pair of United stiffening ribs 50 which extend in the transverse direction from the upper surface to the outside. The lower rail is further provided with a pair of transverse stiffening ribs 52 which are oppositely disposed and which extend downward from the bottom of the box-shaped cross-section. Each of the lower ribs ends in a horizontally extending footplate 54 such that a slot is formed below the box-shaped cross section, by means of which access to the base is made possible by means of fastening openings and / or locking openings in the box-shaped cross section of the lower rail 12 to be able to train.

The purpose of the hollow plate 40 is that the upper mounting supports, the slide locking parts and / or a height adjustment device can be accommodated, which are provided in connection with the seat. The plate 40 can easily be machined as necessary to define the additional auxiliary devices.

In the event of a sudden deceleration of the vehicle, the person sitting on the seat, who is placed on a pair of such seat slide rail assemblies, is in any case exerted a sudden load on the seat belt anchor plate 14 . This load is transmitted to the upper rail 11 , which tries to release itself from the engaged state with the lower rail 12 , which is firmly connected to the vehicle floor. The interlocking parts 41 and 45 prevent this separation. In the worst case, the load destroys the arrangement and an attempt is made to pull the flanges 12 and 46 out of their Engagements stand. This leads to a deformation of the ka-shaped cross section of the lower rail 12 such that the flanges 46 are pressed upwards and outwards. In a similar manner, the flanges 42 on the upper rail 10 are pressed both outwards and downwards. However, the deformation of all flanges is opposed by the complicated shaping resistance. By the mutual engagement of the engagement lugs 44 and 48 , the separation of the two rails is opposed by a further resistance after a certain deformation has taken place by the engagement state of the lugs being increased as a result of this destruction or deformation. In reality, the flanges 42 and 46 become more and more jammed together as the deformation increases. Thus, the resistance of the rails against separation is applied not only by the rigidity of the material, but also by the interlocking of the engaging lugs, which prevent the lugs from coming apart before the shear strength of the material is reached.

By designing the rails with such interlocking approaches, it is possible to choose the inherent shear strength of the material as the reference variable as opposed to the rigidity. This makes it possible to use extruded aluminum or a light metal alloy as the material for the rails. The use of the extrusion process also enables the cross-sections of the rails to be designed so that they can have a more complicated shape than in the case of rolled or pressed parts. Thus, the shape of the interlocking parts or sections is less restricted by the manufacturing process. The parts can therefore be designed such that you can achieve the maximum resistance moments of the rails for a given rail size by means of a single extrusion process without having to carry out any further treatment to improve the strength of the rail. The extrusion process also made it possible that the rails can be formed with stiffening ribs if necessary. In practice, these can have any shape and position, such as the lower ribs 52 . The in the base of the lower rail 12 he held T-shaped slot enables lower mounting supports arranged in corresponding openings in the base of the kastenför shaped cross-section and then fixed by rivets or in another way at this point with the bottom of the Vehicle can be connected.

Claims (13)

1. seat slide rail assembly with a first, Längli Chen slide rail part with a box-shaped cross-section that limits a slot in its upper surface and a longitudinally extending cavity, and which is laid out in such a way that it can be fixed with respect to a floor, and with a second elongated slide rail member mounted on the first slide rail member such that it is slidable longitudinally with respect to the same, the second slide rail member including a generally planar portion extending through the slot and two engaging members which are substantially extend over the entire longitudinal extent in the cavity and cooperate with an associated part on the first slide rail part, characterized in that the first and second parts ( 10 , 12 ) are produced by extrusion and that each engagement part ( 41 , 45 ) is open the first and second slide rail parts ( 10 , 1 2 ) from a section with a substantially U-shaped cross-section, the legs ( 42 , 44 , 48 ) of which run transversely to the planar section ( 40 ) and form a channel which forms a leg ( 48 , 44 ) of the part ( 12 , 10 ) with whom it is engaged. 2. Seat slide rail assembly according to claim 1, characterized in that the shape of each channel is substantially the same as that of the leg ( 44 , 48 ) which it receives. 3. Seat slide rail arrangement according to claim 1 or claim 2, characterized in that the first and second parts ( 10 , 12 ) are made of aluminum or a light metal alloy. 4. Seat slide rail arrangement according to one of the preceding claims, characterized in that the slot ( 34 ) by a part of the engagement parts ( 45 ) on the first part ( 12 ) is limited. 5. Seat-slide rail arrangement according to one of the preceding claims, characterized in that the flat section ( 14 ) of the second part ( 10 ) is a longitudinally extending, hollow plate. 6. Seat-slide rail arrangement according to one of the preceding claims, characterized in that ball bearings ( 22 ) between the first and second parts ( 10 , 12 ) are arranged. 7. seat-slide rail arrangement according to claim 6, characterized in that the balls ( 12 ) are received in two ball races, which between two lower corners ( 26 ) of the box-shaped cross section of the first part ( 12 ) and the sections ( 24 ) of the engagement parts ( 41 ) are formed on the second part ( 10 ). 8. seat-slide rail arrangement according to one of the preceding claims, characterized in that the first part ( 12 ) with at least one longitudinally extending Ver stiffening rib ( 50 or 52 ) is provided. 9. seat slide rail assembly according to claim 8, characterized in that the first part ( 12 ) with a pair of transversely spaced and an L-shaped cross-section webs ( 52 , 54 ) on the basis of the first slide rail part ( 12 ) is. 10. Seat slide rail arrangement according to one of the preceding claims, characterized in that a position locking device ( 28 ) is attached to one of the first and second parts ( 10 , 12 ), and that this device ( 28 ) from a first position in which it engages with one of the other first and second parts ( 12 , 10 ) to prevent a relative longitudinal movement between the same, and a second position is movable in which a relative movement is possible. 11. Seat slide rail arrangement according to claim 10, characterized in that the locking device has a tooth plate ( 28 ) which is designed such that it works with complementary parts ( 32 ) on the other part ( 12 ) when they are in the first position. 12. Seat slide rail arrangement according to one of the preceding claims, characterized in that an elongated plastic strip ( 47 ) between the U-shaped sections of the respective cooperating pair of engagement parts ( 41 , 45 ) is arranged and the two adjacent legs ( 42 , 48 ) touched. 13. Adjustable vehicle seat arrangement, characterized records that it has a seat on a Pair of transversely spaced seat slides arrangements attached according to one of the preceding claims is.