Abstract:
A support body designed in accordance with a support body that includes a groove with lateral wall areas cut into a support body and a profiled unit. The profiled unit including a profiled area attached to both a cover flange with a laterally protruding contact area and a scale, wherein the profiled area is inserted in a releasably fixable manner into the groove from an open side of the groove, and while the profiled area is inserted into the groove, alignment of the scale takes place by contact of the protruding contact area against the lateral wall areas at a top of the groove.

Description:
[0001]    Applicants claim, under 35 U.S.C. § 119, the benefit of priority of the filing date of Dec. 17, 2001 of a German patent application, copy attached, Ser. No. 101 62 068.3, filed on the aforementioned date, the entire contents of which is incorporated herein by reference.  
         BACKGROUND OF THE INVENTION  
         [0002]    1. Field of the Invention  
           [0003]    The present invention relates to a position measuring system having a scale which can be arranged with the aid of a groove provided on a profiled element or guide profile.  
           [0004]    2. Discussion of Related Art  
           [0005]    Position measuring systems of this type are employed in many areas, for example in connection with measuring apparatus, machine tools, metal-working machines, laser installations, positioning installations, wood-working machines, automatic hard-facing machines, handling installations, welding installations, eroding installations, presses, hoists, elevators, and the like.  
           [0006]    Moreover, areas of employment for such measuring systems lie in the determination of positions on linear axes, linear motors and movable units.  
           [0007]    In these cases a particularly great measuring accuracy, extending into the nanometer range, is demanded in many areas.  
           [0008]    Problems in detecting the results of measurements can be caused, for example, by swarf, fog from coolants, solvents, oil, grease, water and mechanical wear.  
           [0009]    Linear measuring systems of the type mentioned at the outset are known, which were documented in a catalog “Magnetisches Längenmess-System MS01—Technisches Handbuch” [Manual—Magnetic Linear Measuring System MS01] by Noesis. The measuring system employed there includes a scale embedded in a groove, a connecting cable and an evaluation system composed of a sensor head and electronic evaluation device. The sensor head detects the position while being moved over the scale. In the process, the sensor detects information from magnetic fields and passes these signals on to the electronic evaluation device. The electronic evaluation device processes these signals into interface-usable protocols for the exact position determination.  
           [0010]    A problem with known linear measuring system lies in that in case of repairs they cannot be exchanged if they are permanently integrated in the respectively existing component or in the machine. To protect the scales against swarf, fog from coolants, solvents, oil, grease, water and mechanical wear, they are integrated in closed spaces, which for disassembly, or reassembly, cannot be opened without damage, i.e. the parts surrounding the space, in particular along the measurement axis, of known linear measuring devices cannot be used again as a whole, or without reworking.  
           [0011]    A linear measuring system is known from DE 199 39 659 A1, wherein the scale is embodied as a flexible component, which is surrounded by a flexible encapsulation which completely surrounds the scale.  
           [0012]    A linear measuring system is described in the not pre-published WO 02/052220 A2, whose priorities are DE 100 64 734 and DE 201 10 905, wherein a conduit, which is only accessible from the front is provided, into which a measuring tape can be inserted and fixed in place.  
         OBJECT AND SUMMARY OF THE INVENTION  
         [0013]    Based on the mentioned prior art, an object of the present invention, or the technical problem on which it is based, is to disclose a position measuring system which, while maintaining a high degree of accuracy and dependability, assures efficient manufacture and simple exchange, wherein at the same time the processing outlay for producing the groove at the guide profile can be clearly reduced.  
           [0014]    This object is attained by a support body designed in accordance with a support body that includes a groove with lateral wall areas cut into a support body and a profiled unit. The profiled unit including a profiled area attached to both a cover flange with a laterally protruding contact area and a scale, wherein the profiled area is inserted in a releasably fixable manner into the groove from an open side of the groove, and while the profiled area is inserted into the groove, alignment of the scale takes place by contact of the protruding contact area against the lateral wall areas at a top of the groove.  
           [0015]    A position measuring system in accordance with the present invention is provided by a groove with lateral wall areas cut into a support body and a profiled unit. The profiled unit includes a profiled area attached to both a cover flange with a laterally protruding contact area and a scale, wherein the profiled area is inserted in a releasably fixable manner into the groove from an open side of the groove, and while the profiled area is inserted into the groove, alignment of the scale takes place by contact of the protruding contact area against the lateral wall areas at a top of the groove. The position measuring system further includes at least one sensor for scanning the scale.  
           [0016]    A position measuring system in accordance with the present invention is also provided by a scale which is arranged in a groove provided on a profiled body. A profiled unit includes a hollow profiled area attached to a cover flange with a laterally protruding contact area, wherein the scale is releasably provided inside the hollow profiled area and the hollow profiled area is inserted into the groove from an open side of the groove in a manner where the scale is releasably fixed in place. With the profiled unit inserted into the groove, alignment of the scale takes place by contact of the protruding contact area against a lateral edge area on a top of the groove. At least one sensor which is moved along the scale and detects information stored on the scale and an evaluation unit that evaluates the information received from the at least one sensor.  
           [0017]    The position measuring system of the present invention is advantageously distinguished in that a profiled unit is provided which, in cross section, has a hollow profiled area and a cover flange with two laterally protruding contact areas, wherein the scale is releasably provided within the hollow profiled area, the hollow profiled area can be releasably fixed in the groove from the open side of the latter and, when the profiled area has been inserted into the groove, the alignment of the scale takes place by the contact of the protruding contact areas of the profiled unit with the tops of the lateral edge areas of the groove.  
           [0018]    This position measuring system is distinguished by an especially economical manufacture. The profiled unit can be separately produced. The scale can be inserted into the profiled unit in a simple way and, in case of repairs, pulled out of it again. A particularly large advantage lies in that the groove bottom in the guide profile need not be made with extremely high accuracy, since the alignment of the scale inside the groove takes place by the contact of the protruding contact areas of the cover flange with the top of the lateral edge area of the groove. These edge areas can be made with high accuracy at a substantially smaller cost in comparison with the groove bottom.  
           [0019]    A particularly preferred embodiment is distinguished in that the hollow profiled area has a resilient wall which, with the profiled unit inserted into the groove, comes to rest in a fixing manner on undercut areas of the groove, in particular inclined surfaces of the latter.  
           [0020]    In a particularly preferred embodiment variation, the wall of the hollow profiled area of the profiled unit is embodied in such a way that the profiled unit can be inserted into the groove by applying a vacuum to the interior of the hollow profiled area.  
           [0021]    A particularly advantageous further development, which assures a simple and problem-free removal, is distinguished in that the wall of the hollow profiled area of the profiled unit is embodied in such a way that the profiled unit can be removed from the groove without problems when an overpressure is introduced into the hollow profiled area.  
           [0022]    For assuring an exact positioning of the scale inside the groove, or inside the profiled unit in a simple way, a particularly preferred embodiment is distinguished in that, when the profiled unit has been inserted into the groove, the resilient wall of the hollow profiled area fixes the scale in place inside the hollow profiled area.  
           [0023]    In accordance with an advantageous embodiment of the measuring system of the present invention it is also possible to releasably clip or snap the profiled unit into the groove from the direction of the open side of the latter.  
           [0024]    Metallic materials or plastics, in particular extrudable plastics, are preferable choices for the profiled unit.  
           [0025]    The measuring system in accordance with the present invention can be employed without any problems in a magnetic, inductive or optical measuring system.  
           [0026]    Further embodiments and advantages of the present invention ensue by combining various elements described and claimed in the present application with each other in any desired way, as long as they do not obviously cancel each other.  
           [0027]    The present invention, as well as advantageous embodiments and further developments thereof will be described in greater detail and explained in what follows by the examples represented in the drawings. The characteristics which can be taken from the specification and the drawings can be used in accordance with the present invention individually or together in any desired combination.  
           [0028]    The idea on which the present invention is based will be described in greater detail by exemplary embodiments represented in the drawings. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0029]    [0029]FIG. 1 shows a greatly schematized cross section through a guide profile with a carriage placed thereon, which is movable in the linear direction and whose position is determined by using a scale provided inside a groove in the guide profile, and whose information is detected via a sensor head fastened on the carriage wherein the scale is positioned via the linear measuring systems shown in FIGS.  3 - 5 ;  
         [0030]    [0030]FIG. 2 is a greatly schematized representation of the basic principle of a linear measuring system in accordance with the prior art;  
         [0031]    [0031]FIG. 3 is a schematic detailed perspective representation of an embodiment of a linear measuring system with a guide profile, carriage and a sensor head fastened on the side of the carriage in accordance with the present invention;  
         [0032]    [0032]FIG. 4 a  shows a schematic detailed cross section in the area of a groove of an embodiment of a guide profile with a profiled unit, which can be releasably inserted into the groove and in which a scale is arranged, in the inserted state in accordance with the present invention;  
         [0033]    [0033]FIG. 4 b  shows the cross section in accordance with FIG. 4 a  in the removal state;  
         [0034]    [0034]FIG. 4 c  shows the cross section in accordance with FIG. 4 a  in the inserting state; and  
         [0035]    [0035]FIG. 5 represents a cross section through a second embodiment of a guide profile with a resilient profiled area and the scale as the cover flange in accordance with the present invention. 
     
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0036]    A linear measuring system  10  is schematically represented in FIG. 2, which shows the basic structure. A scale  12  is fastened on a component, not further represented, which is designed in the shape of a tape and has a ferrite material bonded in polymer in the exemplary embodiment represented. A magnetic alternating field is generated over the scale  12  by systematic magnetizing with alternating south and north poles. At the same time at least one sensor  14  exists, which scans the scale  12  by moving in the linear direction A of the latter. The sensor converts the field strengths existing at the magnetic scale  12  because of the changing magnetic field strength into signals, which it passes on to an electronic evaluation unit  16  via a connector cable  44 . The evaluation unit  16  registers the signals arriving from the sensor  14  and evaluates them. The evaluated signals are conducted to a display unit  18 , or a memory or further processing unit  20 , for example. The measuring system can also be designed as an inductive or optical measuring system.  
         [0037]    [0037]FIG. 1 shows a practical transfer of the employment of the linear measuring device of the invention in the form of a guide profile  22  as the support body of the scale  12 , which is arranged on the base  26 . A U-shaped carriage  24  is seated, linearly displaceable via ball bearings  28 , above the rectangular-shaped guide profile  22 . A groove  32  has been machined into the right lower lateral wall of the guide profile  22 , in which a profiled unit  50  can be releasably inserted, on which, or in which the scale  12  is arranged.  
         [0038]    The linear measuring system can also be arranged on a simple plate as a support body without a guide profile with a carriage being provided.  
         [0039]    Directly on the exterior in front of the groove  32 , a sensor  14  is arranged on the carriage  24  and scans, longitudinally displaceable with the carriage  24 , a scale  12  located in the groove  32  for detecting the linear position.  
         [0040]    [0040]FIG. 3 schematically represents a detailed perspective view of a linear measuring system  10 . 1 , which is basically constructed similar to the linear measuring system  10  in FIG. 1, but has a guide profile  22 . 1 , whose cross section is different and has lateral U-shaped cutouts on each side. A carriage  24 . 1  is slidingly arranged on the guide profile  22 . 1 , which is controlled by a motor and control units, not represented in detail, and can in this way be positioned in the linear direction A by appropriate inputs. A sensor  14 . 1  is connected to the side of the carriage  24 . 1  and also extends over the top of the guide profile  22 . 1 , and by which the information signals from the scale  12  are detected. The scale  12  is provided inside a profiled unit  50 , which is releasably arranged inside the groove  32  of the guide profile  22 . 1 .  
         [0041]    An exemplary embodiment of a profiled unit  50  with the scale  12  is represented in FIGS. 4 a,    4   b  and  4   c,  namely in the state where it is inserted into the groove  32  (FIG. 4 a ), in the removal state (FIG. 4 b ) and in the inserting state (FIG. 4 c ).  
         [0042]    The groove  32  existing in the guide profile  22 . 1  has a groove bottom  34  and flanks  36 , whose cross section tapers laterally toward the exterior. The beveled flanks  36  constitute an undercut area of the groove  32 . The profiled unit  50  has a cover flange  30  with laterally protruding contact areas  54 . A hollow profiled area  52  with a resilient wall  58  has been formed on the underside of the cover flange  50 . The scale  12  is arranged inside the hollow profiled area  52 .  
         [0043]    In the inserted operating state in accordance with FIG. 4 a , the hollow profiled area  52  is laterally convexly arched toward the exterior and is pressed with a force F 1  against the groove flanks  36  of the groove  32 . At the same time the contact areas  54  press with a force F 2  against the tops of the lateral areas  56  of the groove  32 . Furthermore, in the inserted state the lower area of the wall  58  of the hollow profiled area  52  is concavely inwardly arched because of its resilient properties, wherein this concave area exerts a force F 3  on the scale  12 , so that the latter is pressed against the underside of the cover flange  30  and is fixed in its position in this way. A great advantage of the represented embodiment of the profiled unit  50  lies in that in the inserted state the alignment of the scale  12  takes place by contact of the contact areas  54  with the lateral wall areas  56 , and not because of the contact with the groove bottom  34 . This is of great advantage with respect to the production of the groove  32 , because the groove bottom need not be produced with great accuracy. The exact production of the lateral edge area  56  on the top demands substantially less outlay. Because of this the groove  32  can be produced with a substantially reduced manufacturing outlay, without the accuracy of the alignment of the scale  12  suffering because of this.  
         [0044]    In accordance with an exemplary embodiment not represented in more detail, the lateral wall areas  56  can lie on one level with the top  60  of the guide profile  22 . 1  or a base  26  as support body.  
         [0045]    If the profiled unit  50  is to be removed from the groove  32 , an overpressure is applied to the sealed hollow profiled area  52 , so that it arches upward and the profiled unit  50  as a whole can be removed (see FIG. 4 b ).  
         [0046]    If the profiled unit  50  is to be inserted into the groove  32 , in accordance with FIG. 4 c  a vacuum is applied to the sealed interior area of the hollow profile  52 , so that the wall  59  of the hollow profiled area  52  is deformed in such a way that the hollow profiled area  52  can be inserted into the interior of the groove  32 . Ambient pressure is again returned to the interior of the hollow profiled area  52  after the insertion, so that, because of the resilient properties of its wall  58 , the hollow profiled area  52  is automatically fixed in the position inside the groove  32  represented in FIG. 4 c.    
         [0047]    [0047]FIG. 5 shows a variation of the exemplary embodiments so far represented, wherein the scale  12 . 5  itself functions as the cover flange. The profiled area is a resilient body  52 . 5  which can be snapped into the groove  32  by resting against the undercut areas  36  of the groove  32 , and exerting a holding force on the tape-shaped scale  12 , which urges its contact areas  54  against the lateral wall areas  56  of the groove  32 . Here, too, the profiled area can be designed as a hollow profile.  
         [0048]    Within the scope of the present invention, further embodiment variations of course also exist besides the explained example.