Abstract:
A steering column for a motor vehicle, which can be adjusted at least in the longitudinal direction thereof, comprises a carrying unit fixed to the chassis, an adjusting unit that rotatably supports the steering spindle, and a tensioning mechanism, in the open state of which the steering column can be adjusted and in the closed state of which the set position is fixed and which comprises at least one locking part ( 16 ), which in the closed state of the tensioning mechanism is tensioned with an engagement part, wherein the adjusting unit is connected to the engagement part such that it is held non-displaceably in the longitudinal direction of the steering column relative to the engagement part during normal operation, and can be displaced in the longitudinal direction of the steering column relative to the engagement part while absorbing energy in the event of a crash. The engagement part interacts with at least one bending wire or strip, of which at least one section is carried along by the adjusting unit during the displacement of the adjusting unit relative to the engagement part, wherein the bending wire or strip deforms during the displacement of the adjusting unit relative to the engagement part.

Description:
BACKGROUND OF THE INVENTION 
       [0001]    The invention relates to a steering column for a motor vehicle, which is at least adjustable in its longitudinal direction. The steering column comprises a support unit connectable with the chassis of the motor vehicle, a setting unit rotatably bearing supporting a steering spindle, and a clamping mechanism. In the opened state of the clamping mechanism, the setting unit is at least displaceable with respect to the support unit in the longitudinal direction of the steering column and, in the closed state of the clamping mechanism, the set position of the setting unit in normal operation is secured in position with respect to the support unit. The clamping mechanism comprises at least one arresting part which, in the closed state of the clamping mechanism, is tightened together with an engagement element and, in the opened state of the clamping mechanism, is spaced apart from the engagement element. The setting unit is connected with the engagement element so that the setting unit in normal operation is held nondisplaceably in the longitudinal direction of the steering column with respect to the engagement element, and in the event of a crash is dislocatable in the longitudinal direction of the steering column with respect to the engagement element with the absorption of energy. 
         [0002]    Steering columns which are adjustable for the adaptation of the position of the steering wheel to the seating position of the driver are known in various embodiments. Apart from adjustable steering columns which are only adjustable in length or height and inclination direction, respectively, steering columns are known which are adjustable in length as well as also in height and inclination. 
         [0003]    As a safety measure in the event of a vehicle crash, it is known to realize the steering column in a section adjoining the steering wheel-side end such that it is displaceable in the longitudinal direction of the steering column with the absorption of energy. A conventional form of implementation provides for this purpose that the support unit, with respect to which the setting unit in the opened state of the clamping mechanism, which unit rotatably supports the steering spindle, is adjustable for setting the position of the steering column, is connected with a chassis part applied on the vehicle chassis such that it is displaceable with respect to the chassis part under the consumption of energy. Such a design is disclosed, for example, in U.S. Pat. No. 5,517,877 A. 
         [0004]    DE 28 21 707 A1 discloses a non-generic, since not adjustable, steering column, in which the jacket tube rotatably bearing the steering spindle includes bilaterally projecting lobes, which lobes are connected by means of securement blocks and bolts penetrating therethrough on the chassis. In the event of a crash, the lobes can become detached from the securement blocks whereby a dislocation of the jacket tube becomes possible. Herein, between the securement blocks and the lobes, U-shaped bending strips are provided on which, during the dislocation of the jacket tube, deformation work is carried out. The bending strips are herein enclosed in chambers of the lobes and are in contact on opposing side walls of the chamber such that the rolling radius of the particular bending strip is limited and predetermined in its deformation. 
         [0005]    An adjustable steering column comprising a setting unit rotatably supporting the steering spindle and a support unit, with respect to which the setting unit, in the opened state of a clamping mechanism, for setting the position of the steering columns is at least adjustable in the longitudinal direction of the steering column, is disclosed in EP 0 598 857 B1. In the event of a crash, the setting unit can become dislocated in the longitudinal direction of the steering column with respect to the support unit or a clamp bolt of the clamping mechanism. For the energy absorption bending strips or bending wires are provided entrained by the setting unit and placed about the clamp bolt, which are deformed. A disadvantage of this solution is that the possible dislocation path or the characteristic of the energy absorption in the case of this device depends on the particular set length of the steering column. 
         [0006]    U.S. Pat. No. 5,961,146 A, further, discloses a non-generic steering column adjustable only in the height direction in normal operation. Similarly to the manner previously described, about the clamp bolt of the clamping mechanism is provided a U-shaped curved bending wire, which, in the event of a crash, is entrained by the setting unit becoming dislocated with respect to the clamp bolt in the longitudinal direction of the steering column, wherein bending work is performed. 
         [0007]    A steering column of the type described in the introduction is disclosed in WO 2007/048153 A2. In the closed state of the clamping mechanism, the engagement element is prevented by the arresting part of the clamping mechanism from becoming displaced with respect to this arresting part. The setting unit can become displaced with the absorption of energy with respect to the engagement element in the longitudinal direction of the steering column. For the absorption of energy, a bolt is disposed on the engagement element, which bolt projects into an elongated hole of an energy absorption part disposed on the setting unit, and during its dislocation in the event of a crash widens this elongated hole. To attain a defined energy absorption, the material properties of the energy absorption part must, in reproducible manner, be precisely fixed in the proximity of the elongated hole. 
         [0008]    Similar steering columns are also disclosed in EP 0 849 141 A1 and EP 1 464 560 A2. The engagement elements are guided such that they are displaceable in the manner of a carriage by guidance parts in the longitudinal direction of the steering column, wherein they are retained under friction closure with respect to the guidance parts or deform these parts with the consumption of energy. In the case of a friction-closure retention, the clamping force of the clamping mechanism enters into the extent of the energy absorption and with a plastic deformation of the guidance parts, their material properties must be realized such that it is reproducible in a precisely defined manner. 
       SUMMARY OF THE INVENTION 
       [0009]    The invention addresses the problem of providing an adjustable steering column of the type described in the introduction in which a highly reproducible energy absorption predeterminable in its characteristic is attainable, wherein the installation space for the energy absorption is as small as possible. This is attained according to the invention by a steering column with the features of the present invention. 
         [0010]    In the steering column according to the invention, the engagement element cooperates with at least one bending wire or strip and, in the event of a crash, deforms the bending wire or strip if the setting unit is dislocated with respect to the engagement element. The engagement element is herein retained through the tightening together with the arresting part such that it is nondisplaceable with respect to the arresting part, which, in turn, is nondisplaceable in the longitudinal direction of the steering column with respect to the support unit. At least one section of the bending wire or strip is entrained by the setting unit in the dislocation of the setting unit in the longitudinal direction of the steering column. The deformation of the bending wire or strip takes place by bending the bending wire or strip or comprises at least one such bend. Herein, a relatively precisely defined energy absorption can be attained. The progression of the energy absorption over the displacement path is, for example, progressively settable with simple means. Such a bending wire or strip is a cost-effective element. 
         [0011]    In a steering column according to the invention, the possible dislocation path traversed in the event of a motor vehicle crash with the absorption of energy can advantageously be independent of the set position of the steering column. Since the arresting part, referring to the longitudinal direction of the steering column or steering spindle, is nondisplaceable with respect to the support unit and the engagement element in the displacement of the setting unit with respect to the support unit in the opened state of the clamping mechanism moves simultaneously with the setting unit, the arresting part and the engagement element, with different longitudinal settings of the steering column in different settings, come into mutual contact if the clamping mechanism is closed. With the tightening together of the arresting part with the engagement element in the closed state of the clamping mechanism, there is counteraction against the displacement of the engagement element with respect to the arresting part through arresting elements, advantageously through cooperating toothings, preferably cooperating under form closure. The securement of the steering column in the closed state of the clamping mechanism with respect to a longitudinal adjustment consequently takes place at least also via the cooperation of the arresting part with the engagement element. Additional securement elements, acting, for example, under frictional closure, for the securement of the steering column with respect to a longitudinal adjustment in the closed state of the clamping mechanism can be provided. 
         [0012]    The bending wire or strip advantageously comprises two shanks, connected across a recurvature, one of which is fixed on the engagement element and the other is entrained by the setting unit or a part fixed thereon if the setting unit is dislocated with respect to the support unit in the event of a crash. The other shank can herein, be, for example, in contact on a fixed stop opposite the setting unit. The two shanks of the bending wire or strip are connected with one another in particular via a recurvature of 150° to 220°, preferably 180°, such that a U-shaped realization of the bending wire or strip results. In an advantageous embodiment of the invention, the bending wire or strip is herein at least partially enclosed in a housing which, advantageously, is nondisplaceable with respect to the setting unit in the longitudinal direction of the steering column. The housing can be a single-part or a multi-part housing. Depending on the technical conditions, it can also be advantageous for the housing or parts of the housing to be fixed on the support unit. In one feasible embodiment, all of the walls of this housing can be formed by the jacket tube rotatably supporting the steering spindle. It is, however, preferred if on the jacket tube of the setting unit at least one part is attached which forms at least one wall of the housing. It is herein conceivable and feasible for all of the walls of the housing to be formed by at least one part attached on the jacket tube or for at least one wall to be formed by the jacket tube itself. This part attached on the jacket tube, which part forms at least one wall of the housing receiving the bending wire or strip, can be a rail which displaceably guides the engagement element in the longitudinal direction of the steering column with respect to the setting unit. 
         [0013]    The bending wire or strip is preferably connected with the engagement element via an entrainer which projects through a slot in a wall of the housing, which slot extends in the longitudinal direction of the steering column. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0014]    Further advantages and details of the invention are explained in the following section in conjunction with the attached drawings. In the drawings: 
           [0015]      FIG. 1  is an oblique view of a steering column according to the invention, 
           [0016]      FIG. 2  shows the steering column of  FIG. 1  in side view, 
           [0017]      FIG. 3  is an oblique view of the setting unit with the section of the steering spindle rotatably supported by the setting unit, 
           [0018]      FIG. 4  is a cross section along line BB of  FIG. 2 , 
           [0019]      FIG. 5  is a section along line AA of  FIG. 2 , 
           [0020]      FIG. 6  is a section along line CC of  FIG. 4 , 
           [0021]      FIG. 7  is a section along line DD of  FIG. 4 , 
           [0022]      FIG. 8  is a section along line EE of  FIG. 4 , 
           [0023]      FIG. 9  is a side view of the bending wire or strip, 
           [0024]      FIG. 10  is an end-side view of the rail fixed on the jacket tube, 
           [0025]      FIGS. 11 and 12  are an end-side view and a side view, respectively, of the engagement element, 
           [0026]      FIG. 13  is a cutaway of a section along line EE of  FIG. 4  after a vehicle crash. 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0027]    An embodiment of a steering column according to the invention is depicted in  FIGS. 1 to 13 . The steering column comprises a support unit  1 , connectable with the chassis of the motor vehicle, and a setting unit  2  which rotatably supports a section of the steering spindle  3  adjoining the steering wheel-side end of the steering column. In the depicted embodiment, the setting unit  2  comprises a jacket tube  4  and a rail  5  rigidly connected therewith, for example by welding, and extending in the longitudinal direction  6  of the steering column or steering spindle  3 . 
         [0028]    In the opened state of a clamping mechanism  7 , the setting unit  2  is adjustable with respect to the support unit  1  in the longitudinal direction  6  of the steering column (=direction of the longitudinal axis of the steering spindle  3 ) for a length adjustment of the steering column and, in the setting direction  8 , for a height or inclination adjustment of the steering column. In the closed state of the clamping mechanism  7 , the set position of the setting unit  2  is secured with respect to the support unit  1 . Referring to the length adjustment, this securement is maintained as long as the force components, acting in the longitudinal direction of the steering column, of a force acting onto the steering column is below a predetermined limit value (=normal operation). If this limit value is exceeded (=event of a crash), the setting unit  2  is dislocatable in the longitudinal direction  6  of the steering column with respect to the support unit  1  with the absorption of the energy, as will become evident in the following. With proper operation of the steering column, the clamping mechanism  7  is in the closed state in the event of a crash. 
         [0029]    In the direction of height or inclination adjustment, in the closed state of the clamping mechanism  7  as high a securement force as possible is raised. 
         [0030]    In the depicted embodiment, the setting unit  2  is disposed between side jaws  9 ,  10  of the support unit  1 . Between the side jaws  9 ,  10  of support unit  1  and setting unit  2  are further located side shanks  40 ,  41  of an intermediate unit  11  which encompasses the setting unit  2  at least over a large portion of its circumference. In the opened state of the clamping mechanism  7 , the intermediate unit  11  is adjustable with respect to the support unit  1  in the setting direction  8  corresponding to the height or inclination adjustment. For this purpose, it is swivellable about a swivel axle  12  with respect to the support unit  1 . The intermediate unit  11  is connected, for example (also) via the realization of this swivel axle  12 , nondisplaceably with the support unit  1  referred to the longitudinal direction  6  of the steering column. The setting unit  2  is nondisplaceable with respect to the intermediate unit  11  in the setting direction  8 , but in the opened state of the clamping mechanism  7  for the length setting of the steering column is displaceable with respect to the intermediate unit  11  in the longitudinal direction  6 . 
         [0031]    The clamping mechanism  7  comprises a clamp bolt  13  extending transversely to the steering spindle  3 , in particular at right angles to the longitudinal direction  6  of the steering column, which bolt penetrates openings  14 ,  15 , realized as elongated holes, in the side jaws  9 ,  10 . The clamp bolt  13  is displaceable in these openings  14 ,  15  during the height or inclination adjustment of the steering column into the setting direction  8 . The clamp bolt  13  is nondisplaceably retained by the margins of these openings  14 ,  15  in the longitudinal direction  6  with respect to the support unit  1 . The clamp bolt  13  further penetrates openings in the side shanks  40 ,  41  of the intermediate unit  11 , whereby it is retained nondisplaceably in the setting direction  8  with respect to the intermediate unit  11 . The intermediate unit  11  is thereby also retained nondisplaceably in the longitudinal direction  6  with respect to the support unit  1 . 
         [0032]    On both sides of the side jaws  9 ,  10  of support unit  1 , arresting parts  16 ,  17  are disposed on the clamp bolt  13 , which parts are penetrated by clamp bolt  13  through openings and are axially displaceable in the direction of the axis of the clamp bolt  13 . 
         [0033]    The one arresting part  16  includes a section in which it is penetrated by clamp bolt  13  and a section  19 , connected therewith via a connection section  18 , in which it cooperates with an engagement element  20 , as will be described further on. 
         [0034]    In the closed state of clamping mechanism  7 , the arresting part  17  and the arresting part  16  in the proximity of its section penetrated by clamp bolt  13  are pressed onto side jaws  9 ,  10  of support unit  1  in order to secure the adjustment of the steering column in setting direction  8 . The securement in the adjustment direction  8  can take place by frictional closure. Elements, cooperating under form closure, for example toothings, can also be provided. 
         [0035]    Section  19  of arresting part  16  penetrates an opening in side jaw  9  (the side jaw  9  could also terminate above section  19  of arresting part  16 ) and an opening in the side shank  40  of the intermediate unit  11  and, in the closed state of the clamping mechanism  7 , is tightened together with the engagement element  20 . Section  19  of arresting part  16 , which as a whole is located on one side of clamp bolt  13 , is held nondisplaceably against a displacement in the longitudinal direction  6  of the steering column with respect to the support unit  1  by the margins of the penetrated opening in the side jaw  9  and/or by the margins of the penetrated opening in the side shank  40  of the intermediate unit  11 . 
         [0036]    The engagement element  20  is connected with a bending wire or strip which is located in a housing formed by the rail  5 , U-shaped in cross section, in connection with a section of the jacket tube  4 . The engagement element  20  for this purpose comprises an entrainer  21  formed by a pin which projects through a slot  23  in the wall  24 , removed from the steering spindle  3  and at right angles to clamp bolt  13 , of rail  5  forming parts of the housing, which wall represents the base shank connecting the two side shanks  25 ,  26  of rail  5 . The slot  23  extends in the longitudinal direction  6  of the steering column. 
         [0037]    Via the entrainer  21  projecting through this slot  23 , the engagement element  20 , further, is guided displaceably in the longitudinal direction of the setting unit  2  by such unit. The disposition of the entrainer on the bending wire or strip  22  is also conceivable and feasible. The displaceable guidance of the engagement element  20  by the setting unit  2  can also be carried out in a manner different from that described. 
         [0038]    The bending wire or strip  22  includes shanks  27 ,  28  connected via a recurvature of preferably 180°, which shanks extend substantially in the longitudinal direction  6  of the steering column. The two shanks  27 ,  28  are in contact on opposing sides of the housing, and especially on the inner surfaces of the side shanks  25 ,  26  of rail  5 . The radius of curvature of the bending wire or strip  22  is thereby limited during its deformation, in particular during the progressive bending in the event of a crash. 
         [0039]    To connect the engagement element  20  with the bending wire or strip  22 , the pin-shaped entrainer  21  in the depicted embodiment projects into a bore  29  in the shank  28 . Other connections of the engagement element  20  with the bending wire or strip  22  are conceivable and feasible. 
         [0040]    The other shank  27 , not connected with the engagement element  20 , of the bending wire or strip  22  is stayed on a stop  30  of rail  5  by which it is entrained during a displacement of the setting unit  2  with respect to the support unit  1  in the longitudinal direction  6  of the steering column. 
         [0041]    Other connections of the shank  27  with the housing, in which the bending wire or strip  22  is disposed, in order to entrain the shank  27  in the event of a crash in the longitudinal direction  6  of the steering column are conceivable and feasible. 
         [0042]    For blocking a displacement of the engagement element  20  in the closed state of the clamping mechanism  7  with respect to the arresting part  16  in the longitudinal direction  6  of the steering column, section  19  of the arresting part  16  includes a toothing  42  in contact on engagement element  20 , which toothing cooperates with a toothing  31  of the engagement element. If during the closing of the clamping mechanism  7  these two toothings come to be in contact in a tooth-on-tooth position, a further displacement of the engagement element  20  with respect to the arresting part  16  is blocked at least after a minimal initial displacement (which is smaller than the tooth spacing of the toothing). 
         [0043]    Other form-closure connections between the arresting part  16  and the engagement element  20  are also conceivable and feasible, for example via bolts engaging into holes. 
         [0044]    A plane intersecting the longitudinal axis (=rotational axis) of the steering spindle  3  and oriented parallel to the clamp bolt  13 , intersects the arresting part  16  and engagement element  20  in the proximity of its engagement. In the depicted embodiment, the clamp bolt  13  is located above this plane. Location below this plane is also conceivable and feasible. 
         [0045]    During normal operation, the engagement element  20  is held nondisplaceably with respect to the setting unit  2  in the longitudinal direction  6  of the steering column. This can only be effected through the connection of the two parts via the at least one bending wire or strip  22 . In the depicted embodiment, additionally a pin  32  is provided which engages into an opening  33  (cf.  FIG. 7 ) of rail  5 . If, in the longitudinal direction  6  of the steering column, a force is exerted which exceeds a predeterminable limit value (=event of a crash), the pin  32  is sheared off. 
         [0046]    Since in normal operation (=if the force acting in the closed state of the clamp mechanism  7  in the longitudinal direction  6  onto the setting unit  2  is zero or below the limit value) the engagement element  20 , referring to the longitudinal direction  6  of the steering column, is held nondisplaceably with respect to the setting unit  2 , in the closed state of the clamping mechanism  7 , through the cooperation of the section  19  of arresting part  16  with the engagement element  20 , the securement of the setting unit  2  with respect to the support unit  1  in the longitudinal direction  6  of the steering column is effected. Additional securement elements for securing the length adjustment can be provided. In the depicted embodiment, the section of arresting part  16  penetrated by the clamp bolt  13 , and the arresting part  17  include extensions  34 ,  35 , which project through the openings  14 ,  15  in the side jaws  9 ,  10  of the support unit  1  and onto which the side shanks  40 ,  41  of the intermediate unit  11  are pressed. The press-on sections  36 ,  37  of the intermediate unit  11  are thereby pressed onto the jacket tube  4  and hold it under frictional closure, or also under form closure, against a displacement in the longitudinal direction  6  of the steering column with a holding force (which enters into the limit value for the force component acting in the longitudinal direction of the steering column, above which a displacement of the setting unit  2  with respect to the support unit  1  occurs). 
         [0047]    The clamping mechanism  7  can be realized in a conventional manner. For example, a clamp lever  38  for opening and closing the clamping mechanism  7  is connected with a cam disk  39 , which the clamp lever  38  entrains during a turning about the axis of the clamp bolt  13  and which cooperates with a crank disk. The crank disk is here realized in one piece with the arresting part  16 . A separate crank disk can also be provided. Known arrangements with rolling bodies as clamping systems can also be employed. Other implementations of the clamping mechanism  7  are also conceivable and feasible. 
         [0048]    If, starting from its opened state, the clamping mechanism  7  is closed, the arresting parts  16 ,  17  are displaced in the axial direction of the clamp bolt  13 . The securement elements for the height or inclination adjustment come herein into engagement (by pressing the friction faces of the arresting parts  16 ,  17  onto the friction faces of the side jaws  9 ,  10 ). Further, the section  19 , in the opened state of the clamping mechanism  7  spaced apart from the engagement element  20 , of arresting part  16  is pressed onto the engagement element  20 . Furthermore, the optionally provided extensions  34 ,  35  are pressed onto the intermediate unit  11 . The height or inclination adjustment and the length adjustment are thus secured. 
         [0049]    If a force exceeding a limit value acts in the longitudinal direction  6  of the steering column (event of a crash), the pin  32  is sheared off and the setting unit  2  is dislocated in the longitudinal direction  6  with respect to the support unit  1  (in a direction pointing toward the vehicle front). As a result, telescopable sections of the steering spindle  2  slide one into the other and the setting unit  2  becomes dislocated with respect to the engagement element  20  held by the arresting part  16  and therefore the bending wire or strip  22  is deformed. This deformation includes in particular the change of the site of the recurvature between the shanks  27 ,  28 . Through this plastic deformation of the bending wire or strip  22 , energy is consumed. 
         [0050]    In the depicted embodiment, the thickness of shank  27  increases toward its free end, for example in the form of a wedge. Thereby, since the bending wire or strip  22  is confined between the side walls of the housing formed by the side shanks  25 ,  26 , with progressive displacement of the setting unit  2  with respect to the support unit  1 , lastly, a ramping-up of section  28  (in the proximity in which it is provided with the bore  29 ) on the thickening region of shank  27  occurs, whereby additional deformation work through compression occurs. 
         [0051]    Through the geometric implementation of the bending wire or strip  22 , a desired characteristic for the energy consumption can be attained. For this purpose, the cross section of shank  27  can be realized with a predefined progression over its length with reference to its area and/or with reference to its contour. 
         [0052]    Through the encapsulation of the bending wire or strip  22  in a housing, in particular within the rail  5  between wall  24  of the rail  5 , the surface  43  of the jacket tube  4  and the two side shanks  25 ,  26  of rail  5 , an especially defined force progression in the event of a crash is settable. The distance between the side shanks  15 ,  26  of the rail  5 , the cross section of the shanks  28  of the bending wire or strip  22 , the distance between the surface  43  of jacket tube  4  and the wall  24  of rail  5  can be dimensioned accordingly free of problems via its length and be set with different values. 
         [0053]    The shearable pin  32  of the engagement element  20  could also be omitted. The engagement element  20  could also be held in a different manner in a starting position from which it is only dislocatable under increased force, for example so that a pin-shaped entrainer  21  must traverse a nose narrowing the slot  23 . 
         [0054]    The bending wire or strip  22  could also be realized in a manner different from that described. Two or more bending wires or strips deformed through the cooperation with the engagement element  20  could also be provided. 
         [0055]    On both sides of the setting unit  2 , energy absorption devices realized in the described manner could also be provided for the longitudinal dislocation of the setting unit  2  in the event of a crash. 
         [0056]    Although the implementation with side jaws  9 ,  10  disposed on both sides of the setting unit  2  is preferred, against which, in the closed state of the clamping mechanism  7 , parts of the clamping mechanism are tightened together, implementations are also conceivable and feasible in which the support unit comprises only one side jaws located on one side of the setting unit  2 . 
         [0057]    In contrast, it is also feasible to provide on both sides of the jacket tube  4  corresponding sections  19 , each of which engages into associated engagement elements  20  under form closure. The engagement element cooperates with one associated bending wire or bending strip  22 , of which at least one section is entrained by the setting unit  2  during the displacement of the setting unit  2  with respect to the engagement element  20 . The particular bending wire or strip  22  is deformed in the displacement of the setting unit  2  with respect to the engagement element  20 . 
         [0058]    In a further implementation of the invention, for the control of the energy absorption the device is realized so that in the event of a crash, either one, both or none of the bending strips are reformed under control. For this purpose, in a first variant, the two entrainers  21  are realized as pins displaceable in their axial direction, which, if necessary, are brought into engagement or out of engagement with the particular associated bore  29 . In a second variant, the section  19  is brought into or out of engagement with the associated engagement element  20 , although the clamping mechanism  7  is in the closed state. As the setting unit, pyrotechnical switches and/or other electrically, magnetically, hydraulically or pneumatically acting switches can be employed. The regulation can take place based on information such as, for example: driver buckled in yes/no, weight of driver, distance of driver from the steering column, etc. 
         [0059]    The steering column is appropriately realized such that the entrainer  21  or the section  19  of the arresting part  16  is selectively activatable through a control such that at least in the event of a crash, the connection between section  19  of the arresting part  16  and bending wire or strip  22  is optionally established or not established. 
         [0060]    Through an additional conventional absorption device, such as is generally known within prior art, a correspondingly lower level of energy absorption can be set. 
         [0061]    For the height or inclination adjustment and/or length adjustment, additional cooperating friction faces can also be provided, for example in the form of cooperating lamella, as is known in conventional steering columns. 
         [0062]    A steering column according to the invention could, for example, also be realized such that it is adjustable in the longitudinal direction  6 . In such an embodiment, the intermediate unit  11  could be omitted and the opening  14 ,  15  penetrated by clamp bolt  13  could be realized in the form of a circle in each side jaw  9 ,  10  of the support unit  1 . 
         [0063]    A steering column adjustable in the longitudinal direction  6 , as well as also in the setting direction  8  of the height or inclination, can also be realized without an intermediate unit  11 . Herein in the setting unit  2  elongated holes penetrated by clamp bolt  13  could be provided which extend in the longitudinal direction  6  of the steering column. For example, for this purpose on the jacket tube  4 , at least one upwardly or downwardly projecting part could be attached in which these elongated holes are disposed. 
         [0064]    The support unit  1  could also comprise one subunit stationary on the chassis and one subunit, in the closed state of the clamping mechanism  7 , connected with the setting unit  2 , which is dislocatable in the longitudinal direction  6  of the steering column with respect to the chassis-stationary subunit in the event of a crash with the absorption of energy, as is known. 
         [0065]    It is obvious to a person of skill in the art that the large number of described embodiments of the invention does not represent a conclusive enumeration, and that the features of the discrete embodiments of the invention can be combined with one another. 
       LEGEND TO THE REFERENCE NUMBERS 
       [0000]    
       
           1  Support unit 
           2  Setting unit 
           3  Steering spindle 
           4  Jacket tube 
           5  Rail 
           6  Longitudinal direction 
           7  Clamping mechanism 
           8  Setting direction 
           9  Side jaw 
           10  Side jaw 
           11  Intermediate unit 
           12  Swivel axle 
           13  Clamp bolt 
           14  Opening 
           15  Opening 
           16  Arresting part 
           17  Arresting part 
           18  Connection section 
           19  Section 
           20  Engagement element 
           21  Entrainer 
           22  Bending wire or strip 
           23  Slot 
           24  Wall 
           25  Side shank 
           26  Side shank 
           27  Shank 
           28  Shank 
           29  Bore 
           30  Stop 
           31  Toothing 
           32  Pin 
           33  Opening 
           34  Extension 
           35  Extension 
           36  Press-on section 
           37  Press-on section 
           38  Clamp lever 
           39  Cam disk 
           40  Side shank 
           41  Side shank 
           42  Toothing 
           43  Surface