Patent Abstract:
Ball joints, systems in which they are used, and suspension systems in which the ball joint systems are employed. The ball joints, systems and suspension mechanisms are especially useful for racing vehicles in which premium performance is desired. As an additional feature, the products of this invention are especially appreciated because of the ability to quickly and easily replace or change them.

Full Description:
[0001]    The invention disclosed and claimed herein deals with premium performance ball joints, systems in which they are used, and suspension systems in which the ball joint systems are employed. The ball joints, systems and suspension mechanisms are especially useful for racing vehicles in which premium performance is desired. As an additional feature, the products of this invention are especially appreciated because of the ability to quickly and easily replace or change the ball and shaft (ball stud combination) in the ball joints. The ball stud is what is damaged in accidents, and, it wears out first from normal use. Thus, the ability to change the ball stud rather than changing the entire ball joint is a decided advantage of this invention.  
           [0002]    Unlike the lower ball joints, upper ball joints do not have the load between the sprung mass of the vehicle and the suspension spring to keep them seated. Most prior art ball joints used in the upper ball joint position use an internal spring over the ball and in the void space above the ball to hold the ball in place. In high cornering situations, the lateral force on the ball joint creates sufficient force to compress the spring and unseat the ball. This problem makes it impossible to maintain the optimum camber in the tire to maximize the tire contact patch on the roadway. This movement also causes minor directional changes in the automobile steering that are detrimental to stability of the automobile. Thus, the premium performance aspect of this invention is based on the fact that prior art ball joints used for the same applications, all have a mechanical means for applying pressure to the ball within the ball joint to accommodate wear as the ball joint is in use, while the ball joint of this invention has no such mechanical means. The lubricants that are commonly used in these types of ball joints provide the pressure required within the inventive ball joint for accommodating the wear of the ball joints of this invention. The result is a ball that has minimal restriction in movement because of the reduction in friction and is therefore essentially “free wheeling” within the housing in which it is contained, thus, providing ease of steering. Original equipment manufactured ball joints of the prior art create inconsistent amounts of resistance to suspension movement, most frequently around twenty pounds, while the ball joints of this invention have less than one pound of resistance. This is important to race drivers, as shock and spring rates are critical to within five pounds. It is not conceivable that automobile handling advantages could be built into the automobile by making small spring and shock rate changes while the ball joints are gradually losing resistance, or “freeing up” as they wear. The ball joints of this invention greatly reduce the “moving resistance target” caused by prior art tight ball joints.  
         BACKGROUND OF THE INVENTION  
         [0003]    It is well know that ball joints and systems employing them are used in front wheel suspension of automotive vehicles. The ball joint lends flexibility for steering the wheels while accommodating changes in angles between the wheel and the suspension members. In conventional ball joints, a pin or shaft on which the wheel is mounted carries a ball, which is rigid with the shaft, the ball being housed in a housing wherein the ball is seated and retained. During both rotation and pivoting of the elongated shaft, the surface of the ball slides over a lining of the housing.  
           [0004]    Typically, prior art ball joints are all constructed such that they have an open space or void at the top of the ball, wherein there is typically placed a means for asserting pressure on the top of the ball to accommodate any wear on the ball. Such means are, for example, springs under tension, which are placed on the top of the ball and retained by some kind of insert over the top of the ball. Also known by the inventors herein are ball joints in which the pressure is provided by compressible nylon particles that are situated in the open space and impinge on and essentially surround the exposed top surface of the ball.  
           [0005]    All such ball joints require lubrication, and some means is provided to allow for the lubricant to be injected into the housing and onto and around the ball of the ball joint. Further, the ball per se often contains shallow, usually disconnected, channels in which the lubricant can take up residence. These channels help a situation that can occur in the ball joint in which the lubricant, contained within the housing, can block off all air into the housing and create a vacuum within the housing, that provides a lock. This lock is experienced when one tries to put grease into the housing, as the grease gun connector locks onto the grease zerk fitting and cannot be removed. The grooves not only provide a channel for the grease to reach the ball, but they also create vents that allow the grease to enter the ball joint housing and air to escape.  
           [0006]    The instant invention eliminates or reduces the above-mentioned problems with ball joints and provides a premium performance ball joint wherein the ball and shaft is easily installed, removable, and easily replaced without having to replace the entire ball joint, and, furthermore, the ball joint system provides premium performance in the operation of automobiles.  
         THE INVENTION  
         [0007]    Thus, this invention deals with novel ball joints, novel systems employing the ball joints, and suspension systems for automotive uses that employ the novel ball joint systems.  
           [0008]    More specifically, there is provided a ball joint comprising in combination an elongated shaft having an upper end and a lower end and having a longitudinal axis running through said upper end and said lower end, wherein the elongated shaft has threads on its lower end. There is in addition, a ball rigidly fixed and surmounted on the upper end of the elongated shaft. The ball, at the highest point opposite the attachment of the elongated shaft, has a truncated flat face. There is also a retaining member having an upper surface and a lower end. The retaining member is provided with a lubricating port located in the upper surface of the retaining member. The lubricating port is openly connected to a duct, the duct necessarily providing a passageway for lubricants from the lubricating port to the truncated flat face of the ball. The retaining member is externally threaded on the retaining member lower end.  
           [0009]    There is a housing having an outside surface, a middle portion, and a lower end. The housing is internally conformed at the lower end to seat the ball and retain it in the housing, and the seat allows a pivotal movement of the ball about the longitudinal axis of the elongated shaft relative to the housing. The middle portion of the housing is internally threaded to receive the retaining member and the middle portion is externally threaded on the outside surface. Finally, there is a fastening means for fastening the retaining member in the housing.  
           [0010]    In another embodiment, there is a combination of the ball joint described just above, and a socket to provide a ball joint system. The socket comprises a cylindrical housing having a wall with an internal surface wherein the internal surface is threaded to receive the housing in it and the socket has a means of attachment for attachment near a terminal end of a carrier for the ball joint system.  
           [0011]    Finally, there is an additional embodiment of this invention that is an automotive suspension system incorporating the ball joint systems described just above. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0012]    [0012]FIG. 1 is a full view of a ball joint system of this invention that is fully assembled.  
         [0013]    [0013]FIG. 2 is a full view of the ball and the elongated shaft of this invention.  
         [0014]    [0014]FIG. 3 is a full view of the housing of this invention  
         [0015]    [0015]FIG. 4 is a full top view of the housing of this invention without the retaining member in place  
         [0016]    [0016]FIG. 5 is a full top view of the housing of this invention with the retaining member in place.  
         [0017]    [0017]FIG. 6 is a full cross-sectional view of the housing of FIG. 3 through the lines  100 - 100  of FIG. 3 and also showing the ball therein.  
         [0018]    [0018]FIG. 7 is a full view of the retaining member of this invention.  
         [0019]    [0019]FIG. 8 is a full cross-sectional view of the retaining member of FIG. 7 through the lines  200 - 200  of FIG. 7.  
         [0020]    [0020]FIG. 9 is a full view of a fully assembled ball joint system of this invention and including the socket.  
         [0021]    [0021]FIG. 10 is a full top view of the socket of FIG. 9.  
         [0022]    [0022]FIG. 11 is a schematic drawing of one type of automotive suspension system showing the use of the ball joint systems of this invention.  
         [0023]    [0023]FIG. 12 is a full view in perspective of a portion of the suspension system of FIG. 11, wherein there is shown a wishbone support arm containing a ball joint system of this invention.  
         [0024]    [0024]FIG. 13 is a full top view of the wishbone support arm of FIG. 12.  
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0025]    Turning now to the Figures, and with reference to FIG. 1, which is a full view of a ball joint system  27  of this invention that is fully assembled. There is shown as the components thereof, an elongated shaft  2 , and the ball  3  (only a portion of the bottom of the ball is shown therein), the housing  4 , with external threads  5 , a retaining member  6 , and a fastening means  7 , which is a set screw  8  set into a threaded (not shown) opening  9 , in an upper flange  10  of the housing  4 .  
         [0026]    It should be noted that the elongated shaft  2  is threaded at its lower end  11 , and that there is an opening  12  though the threaded portion  13  of the elongated shaft  2  to accommodate a cotter pin (not shown), or the like, to retain a nut  31  (see FIG. 9), which in turn retains the elongated shaft  2  in a portion of a suspension system that is discussed below. It is contemplated within the scope of this invention to provide ball joints wherein the shafts  2  are provided in various lengths. The reason for the various lengths is that in racing, it is desirable to alter the suspension angles and positions to affect handling, i.e., roll centers, camber gain and other related geometry. Having ball joints with variable length shafts gives the users an option for altering the suspension geometry of the automobile using the ball joints. Currently, racers will change or alter the spindles to make the same geometry changes, and this provides an increased cost, as the spindles are about 6 to 7 times more expensive than the ball joints of this invention.  
         [0027]    [0027]FIG. 2 is a fill view of the combination  1  of the ball  3  and the elongated shaft  3  without the remainder of the components being shown, for clarification. Thus there is shown the ball  3 , the elongated shaft  3 , a truncated flat surface  14  at the topmost point of the ball  3 , and the treaded portion  13  at the lower end  11 , along with the opening  12 . What is meant by “longitudinal axis running through said upper end and said lower end” is shown by the line  300 - 300  in FIG. 2, which indicates the principal axis that the ball  3  would revolve around, it being understood that the ball will tilt from this axis within the housing  4  to provide flexibility in the ability of the ball  3  to coordinate with the suspension systems noted infra, and the degree of movement within the housing  4  is limited only by the contact of the elongated shaft  3  with the lower edge  15  of the housing  4 , and/or the connection that the elongated shaft  3  has with the suspension system and the wheel  33  shown in FIG. 11.  
         [0028]    It should be noted that the preferred combination I of ball  3  and elongated shaft  2  is that in which the two are joined as a unitary component. This combination is manufactured from hardened steel or the like to endure the wear that usually accompanies such devices. The truncated flat surface  14  is provided so that there is a space or void  25  (see FIG. 6) formed above the ball  3  when in the housing  4 . The space  25  is intended to contain lubricant, namely, a thickened oil or grease which is not shown in this Figure, but which can be any common lubricant known in the art. Filling the void  25  above the truncated surface  14  allows for pressure to be applied to the ball  3 , while in the housing  4 , and is employed to help seat the ball in the seat  18  (see FIG. 4) provided at the lower end of the housing  4 . The pressure created by lubricants inserted into the void  25  is also a means to help adjust the ball  3  in the housing  4  to accommodate for any wear on the ball  3 . As far as is known by the inventors herein, this means of accommodating for wear on the ball  3  is not known independently of mechanical means, or as a sole means for providing such pressure.  
         [0029]    The housing  4 , which houses and seats the ball  3  is shown in FIG. 3. With reference to this Figure, there is shown the threaded exterior surface  5 , which inserts into the socket  16 , that is described infra, the lower edge  15 , which in this Figure is beveled to fit into the bottom of the socket  16 , the flange  10  which is configured such that it can be used to turn the housing  4  into the socket  16 , and in this Figure, the flange  10  is shown as a hexagon configuration also any convenient configuration that allows the turning of the housing  4  is contemplated within the scope of this invention. In the side surface of the flange  10 , there is shown a fastening means  7  for the housing  4 , to retain the retaining member  6  in the housing  4 , which fastening means  7  is comprised of a simple set screw combination wherein there is shown the threaded opening  9 , into which a set screw  8  is inserted and turned down to complete the fastening. The type of fastening means  7  is not critical in this invention, and any fastening means which will secure the retaining member  6  in the housing  4  and which is fairly simple to use, is acceptable.  
         [0030]    With reference to FIG. 4, which is a top view of the housing  4 , there is shown the flange  10 , the fastening means opening  9 , in phantom, the internal threads  17  for accommodating the external threads  18  of the retaining member  6 , and the seat  18  for the ball  3 , which is located near the bottom edge  15  of the housing  4 .  
         [0031]    Further, with reference to FIG. 5, which is a top view of the housing  4 , wherein there is shown the flange  10 , therein is situated in the housing  4 , a retaining member  6 , wherein there is shown the top  19  of the retaining member  6 , a concavity  20  in the top  19 , and detachedly fixed in the concavity  20 , a grease zerk fitting  21 . Generally, such grease zerk fittings  21  are threaded and screwed into a threaded opening and that is contemplated within the scope of this invention as well as any convenient means of inserting and fastening the grease zerk fitting  21 . Also shown in this Figure are indentions  22 , which are indented in the wall of the concavity  20 , which indentions  22  are useful for applying a wrench or some other viable means to turn the retaining member  6  in and out of the housing  4 . The indentions  22  are not critical to this invention and can be optionally included in the retaining member  6 , and can be configured other than as an indention as shown.  
         [0032]    Reference should also be made to FIG. 6, which is a cross-sectional view of the housing  4 , taken through line  100 - 100  of FIG. 3, wherein there is shown the flange  10 , the opening  9 , the set screw  8  tail end, the external threads  5 , and the internal threads  17 , which accommodate the external threads  24  of the retaining member  6  (see also FIGS. 7 and 8).  
         [0033]    With further reference to the retaining member  6 , reference should be made to FIG. 7, which is a full view of the retaining member  6 , showing the top  19  and the external threads  24 . FIG. 8 is a full cross-sectional view of the retaining member  6  through line  200 - 200  of FIG. 7, wherein, there is shown the top  19 , the external threads  24 , the concavity  20 , and the grease fitting  21 . Also shown is the duct  23 , which carries lubricant applied to the grease fitting  21  to be carried to the void  25  (see FIG. 6), wherein the ball  3  is shown and wherein the majority of the lubricant resides. Also shown in FIG. 6 are the shallow channels  26  which in the prior art ball joints are typically placed into the ball  2 , but which in this invention are placed in the interior of the socket  16 . The reason for this placement of the shallow channels  26  is primarily cost, as placing the shallow channels  26  in the socket  16 , means that expensive machining does not have to be done in the ball  2 , which is the part that is replaced more often.  
         [0034]    Turning now to FIG. 9, there is shown a full view of the fully assembled ball joint system  27  wherein components shown therein have like numbers for like components as shown in FIG. 1, except, there is shown in addition, the socket  16 , into which the ball joint system  27  is screwed pursuant to the internal threads  28  of the socket  16 , and the external threads  5  on the housing  4 . The socket  16  is comprised of a hollow cylinder housing, which has a sidewall  29  and an upper rim  30 . The socket  16  is fastened securely into the support arms of a suspension system of an automobile or truck, which automotive suspension system is illustrated in the schematic drawing of FIG. 11. The ball joint system  27  can be used for both the upper and lower support arms configuration. The fully assembled ball joint system  27  is then turned into the socket  16  and is secured to the socket  16  by any conventional securing means, such as set screws, retainer rings, or the like. Also shown in association with the ball joint system  27  of FIG. 9 is a threaded nut  31 , which can be turned onto the threads  13  of the elongated shaft  2  for attachment to a support means (axle stud) of a wheel of an automobile, and thereafter, the nut  31  is secured thereon by the insertion of a cotter pin, or the like, through the opening  12 .  
         [0035]    Finally, turning to FIG. 11, there is shown a schematic drawing of one type of automotive suspension system  32 , in which there is shown as the main components therein, a fully mounted wheel  33  for the automobile, a support stud (axle)  34  for the wheel  33 , wishbone support arms, upper  35 , and lower  36 , a strut or shock absorber  37 , having an surrounding auxiliary spring  38 , a support mechanism  39  that is attached to the frame of an automobile (not shown), an upper ball joint system  40 , and a lower ball joint system  41 , wherein the support arms  35  and  36  do not show as being attached to the lower and upper ball joint systems,  40  and  41 , respectively, in order to more clearly show the total configuration of the suspension system. The openings in the support arms  35  and  36  are shown in phantom as  42  and  43 , respectively. In actual use, the sockets  16  for both the upper  40  and the lower  41  ball joint systems would normally be inserted in the openings  42  and  43  respectively.  
         [0036]    [0036]FIG. 12 is a full view in perspective of a wishbone support arm  35  or  36  with the ball joint system, either the upper  40 , or the lower  41 , inserted therein. In addition, FIG. 13 shows a full top view of the wishbone of FIG. 12, wherein the ball joint system  40  or  41  is clearly visible. The support arms  35  and  36  are securely attached to the frame of the vehicle by the bar  45 , while the respective ends  44  and  46  are constructed to allow the rotation of the arms  35  and  36  per se to rotate around the bar  45  in an up and down mode for the support arms pursuant to the movement of the wheel  33  and support stud  34  while in use the vehicle is in use. This is also shown in FIG. 13.

Technology Classification (CPC): 5