Patent Publication Number: US-2022213911-A1

Title: Turnbuckle for display cards, signs and the like

Description:
RELATED APPLICATIONS 
     This application claims the benefit of U.S. provisional patent application Ser. No. 63/134,337, filed on 6 Jan. 2021. 
    
    
     BACKGROUND OF THE INVENTION 
     The present invention relates to an improved fastening device for removably holding a disposable card, signs and the like. Specifically, the present invention relates to turnbuckles for removably holding such items. Fastening devices such as those contemplated for use with the present invention are used in numerous settings, such as sporting events, informational display arrangements, and banner displays. In sporting events, the fastening devices may hold cards for ease of displaying, marking and storage of the display cards. Further, the fastening devices may allow for displaying information about the game played or the course on which the players are competing. 
     The fastening devices may be used in a store or other point of purchase location to display a card having indicia of the products or services being offered for sale. As another non-limiting example, the device may be used on a machine and include job or safety specifications. Due to the nature of the invention, the device may also find application in a setting where a first set of information is printed on one side of the card and a second set of information is printed on the opposite side of the card. The desired information may be displayed depending upon the orientation of the selected card surface relative to the invention. Finally, the fastening devices may be used to display banners. 
     In the prior art, fastening devices such as those described require the display surface to be fixed to the base or secured in a housing, which prevents ease of removal of the display surface. A fastening device in a novel turnbuckle design would allow for ease of interchangeable removal of display surfaces. Additionally, such prior art fastening devices have incorporated multiple separate units in connection in a hook and loop arrangement. This reduces the stability of the display surface allowing for damage to the display surface. A fastening device having a design with formfitting components would address such a deficiency. Further, fastening devices of the prior art have required complex mechanical arrangements to achieve the desired fastening characteristics. A fastening device made of a molded design would reduce the mechanical complexity and production costs therein. Finally where multiple components are used to build a fastening fixture in the prior art, inherent design flaws lead to the devices having unsecure interchanging parts. This instability results in the fastening fixtures disassembling at inopportune moments. 
     A need exists for a fastening device having a novel turnbuckle design. 
     A need exists for a fastening device having form fitting interchangeable turnbuckle components for reduced vibration of display surfaces. 
     A need exists for a fastening device having form fitting interchangeable turnbuckle components made of a mold design for reduction in costs. 
     A need exists for a fastening device having a bracket designed to reduce the transfer of vibration through the card holding assembly. 
     A need exists for a method to secure components of a fixture in order to ensure stable operation. 
     SUMMARY OF THE INVENTION 
     The present invention is directed to a novel solution for displaying information. Specifically, the invention provides for a novel turnbuckle allowing for user friendly, tool free, placement and removal of a display holder or display in a display or presentation setting. An intended benefit of the invention is to provide for a fastening device having a turnbuckle design. 
     The invention for the turnbuckle may be incorporated in or paired with a base. The combination of the turnbuckle and the base are combined with the display holder where the turnbuckles are turned to lock the display holder in place. Additionally, the combination of the turnbuckle and the base can be removed from contact with the display holder with a turn of the turnbuckles. The display holder provides a sleeve or surface upon which information may be placed in or printed. The combination of the turnbuckle, the base and the display holder provides for a fixture. The turnbuckle may be paired with multiple embodiments of the base, and incorporated in multiple embodiments of the fixture. It is observed the fixture, and the base, containing the turnbuckle, may be removably attached or affixed to a surface or a vehicle or structure. 
     A first embodiment of a display fixture may comprise a first embodiment of a base, paired with a first embodiment of the turnbuckle, in removable communication with a first embodiment of a display holder. Along a length of the base there may be at least two turnbuckle through-holes. The holes may extend from a base first side to a base second side. The holes may provide an aperture in which the turnbuckle is inserted. The turnbuckle may comprise a knob, an axle, and a cam fixed to one another. The knob may be positioned to form a first turnbuckle end. The cam may be positioned to form a second turnbuckle end. The axle may be positioned between the knob and the cam in a linear orientation from the first end to the second end. The knob, axle and cam may be in a unitary one piece construction. The turnbuckle may further comprise at least one but preferably two bearings. The bearings may be in removal communication with the knob, axle and cam. 
     The display holder may comprise at least one display holder through-hole. At least one display holder through-hole may be aligned with at least one turnbuckle through-hole when the display holder is removably positioned in contact with the base. The knob may be positioned through both the turnbuckle through-hole and the display holder through-hole to provide for removable mounting of the display holder onto the base. 
     At least one turnbuckle may be paired with the base by inserting the turnbuckle into a cam well on the base second side and advancing the turnbuckle knob through the turnbuckle through-hole, which is positioned in the cam well. The pairing between the cam of the turnbuckle and a wall perimeter of the cam well provides for a frictional fit between the cam and the wall perimeter. Specifically, the wall perimeter, which defines the cam well, comprises at least one cam well wall section and at least one detent spring interspaced, positioned along the wall perimeter, between respective cam well wall sections. The frictional relationship between the cam and the cam well wall sections provides for stability of the turnbuckle and the display holder in turn. Further, a cam wall of the cam contains indentations. The indentations communicate with the detent springs to provide for static stability of the turnbuckle, preventing the turnbuckle from moving laterally or dislodging from the base, and rotational stability of the turnbuckle. Rotational stability ensures that when the knob is turned to the locked position or the unlocked position, the turnbuckle remains in the desired locked or unlocked orientation when in use. An intended benefit of the invention is to provide for a fastening device having form fitting interchangeable turnbuckle components for reduced vibration of display surfaces. Additionally, an intended benefit of the invention is to provide for a fastening device having form fitting interchangeable turnbuckle components made of a mold design for a reduction in costs. Further, an intended benefit of the invention is to provide for a fastening device having a bracket designed to reduce the transfer of vibration through the card holding assembly. 
     A stability structure, comprising concentric rings and may be formed on, and protrude from, the base first side between turnbuckles to provide stability of the display holder when the display holder is removably attached to the turnbuckles and base pairing. 
     A method of inserting the turnbuckle into the base is described. An intended benefit of the invention is to provide for a method to secure components of a fixture in order to ensure stable operation without the need for additional components to secure each turnbuckle and prevent its removal or withdrawal from the base. 
     A second embodiment of the display fixture may comprise the base, paired with the turnbuckle, in communication with a second embodiment of the display holder. The second embodiment of the display holder may comprise a pull-tab. 
     A third embodiment of the display fixture may comprise a second embodiment of the base, paired with the turnbuckle of the invention, in communication with a third embodiment of the display holder. The base and display holder may be adjusted in size from the earlier embodiments. 
     A fourth embodiment of the display holder may be provided. The fourth embodiment of the display holder may comprise a pouch. 
     A third embodiment of the base may be provided, and paired with the turnbuckle of the invention. The third embodiment of the base may be at least substantially oval in shape, such that multiple bases may be used to hang or display a banner. 
     A fourth embodiment of the base may be provided, and paired with the turnbuckle of the invention. The fourth embodiment of the base may be at least substantially circular in shape thus having a disc shape. Multiple bases may be used to hang or display a banner in the manner previously described for positioning display holders against the embodiments of the base. 
     A fourth embodiment of the display fixture may comprise a fifth embodiment of the base, paired with a second embodiment of the turnbuckle of the invention, in communication with a fifth embodiment of the display holder. The second embodiment of the turnbuckle may have an axle length greater than that of the first embodiment of the turnbuckle. The fixture may comprise a front bracket removably positioned to layer the display holder between the front bracket and the base in order to position the display holder and reduce a vibration and a movement of the display holder. The extended axle length may provide for locking in place the display holder and front bracket. The display holder may comprise a display surface, which may be a polymer or fabric sheet, or a mesh. The display surface provides an area on which the displayed information may be posted or printed or drawn. 
     Further, a sixth embodiment of the display holder may be provided, which is a plate or at least a semi-rigid board, preferably made of a polymer, in which the information to be display is printed or written upon. 
     A bracket may be employed to mount the fixture onto a surface. The bracket may be in the form of an L-bracket or series of plates. 
     At least one an anti-vibration washer and an anti-vibration spacer may be employed in a layered fashion as part of the fixture. The anti-vibration washer and the anti-vibration spacer absorb the resonance vibrations of the structure or vehicle on which the fixture is attached to ensure a viewer may easily read the information displayed by the display holder. Specifically, the space and the washer are designed to reduce the shock induced on the fixture when vehicle  26  on which the fixture is mounted starts or stops motion. Additionally, the spacer and the washer are designed to reduce the shock induced on the fixture due to the vibrations produced by operation of the motor placed in the vehicle on which the fixture is mounted. 
     At least one of the third and the fourth embodiments of the base, or a combination thereof, may be paired with a crossbar to allow for hanging of pliable items or sheets, such as a curtain. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a perspective view of a first embodiment of the display fixture comprising a first embodiment of a base, paired with a first embodiment of the turnbuckle of the invention, in communication with a first embodiment of a display holder. 
         FIG. 2A  is an exploded view of the first embodiment of the display fixture comprising the first embodiment of the base, paired with the first embodiment of the turnbuckle of the invention, in communication with the first embodiment of the display holder. 
         FIG. 2B  is a focused exploded rear view of the first embodiment of the base with a first embodiment of the turnbuckle. 
         FIG. 3  is a rear view of the first embodiment of the base, illustrating the first embodiment of the turnbuckle in communication with the base. 
         FIG. 4  is a perspective view of the first embodiment of the base paired with the first embodiment of the turnbuckle in an unlocked position. 
         FIG. 5  is a perspective view of the first embodiment of the display fixture comprising the first embodiment of the base, paired with the first embodiment of the turnbuckle of the invention, in communication with the first embodiment of the display holder, illustrating rotation of one turnbuckle to a locked position. 
         FIG. 6A  is a side cross-sectional view, taken through line  6 A- 6 A of  FIG. 1 , of the first embodiment of the base paired with the first embodiment of the turnbuckle of the invention in a locked position. 
         FIG. 6B  is a top cross-sectional view, taken through line  6 B- 6 B of  FIG. 1 , of the first embodiment of the base paired with the first embodiment of the turnbuckle in the locked position. 
         FIG. 7  is a top view of the first embodiment of the display fixture comprising the first embodiment of the base, paired with the first embodiment of the turnbuckle of the invention, illustrating the display fixture in communication with a surface. 
         FIG. 8A  is a side cross-sectional view, taken through line  8 A, B, C of  FIG. 4 , of the first embodiment of the base and the first embodiment of the turnbuckle, illustrating a method of inserting the turnbuckle into the base comprising positioning of the turnbuckle prior to insertion. 
         FIG. 8B  is a side cross-sectional view of, taken through line  8 A, B, C of  FIG. 4 , the first embodiment of the base and the first embodiment of the turnbuckle, illustrating a method of inserting the turnbuckle into the base comprising inserting the turnbuckle into a through-hole of the base. 
         FIG. 8C  is a side cross-sectional view, taken through line  8 A, B, C of  FIG. 4 , of the first embodiment of the base and the turnbuckle, illustrating a method of inserting the turnbuckle into the base comprising positioning the turnbuckle in communication with a first side of the base such that the turnbuckle is prevented from removal. 
         FIG. 9  is a perspective view of the second embodiment of the display fixture comprising the first embodiment of the base, paired with the first embodiment of the turnbuckle of the invention, in communication with a second embodiment of the display holder. 
         FIG. 10  is a perspective view of a third embodiment of the display fixture comprising a second embodiment of the base, paired with the first embodiment of the turnbuckle of the invention, in communication with a third embodiment of the display holder. 
         FIG. 11  is a perspective view of the third embodiment of the display fixture comprising the second embodiment of the base, paired with the first embodiment of the turnbuckle of the invention, in communication with a fourth embodiment of the display holder, a pouch. 
         FIG. 12A  is a front perspective view of a third embodiment of the base paired with the first embodiment of the turnbuckle of the invention. 
         FIG. 12B  is a front perspective view of a fourth embodiment of the base paired with the first embodiment of the turnbuckle of the invention. 
         FIG. 12C  is a rear exploded perspective view of the third embodiment of the base paired with the first embodiment of the turnbuckle of the invention. 
         FIG. 13  is an exploded view of a fourth embodiment of the display fixture comprising a fifth embodiment of the base, paired with a first embodiment of the turnbuckle of the invention, in communication with a fifth embodiment of the display holder, a flexible web. 
         FIG. 14  is a side cross-sectional view, taken through line  14  of  FIG. 13 , of the display fixture comprising the fifth embodiment of the base, paired with a second embodiment of the turnbuckle of the invention, in communication with the fifth embodiment of the display holder. 
         FIG. 15  is a perspective view of the fixture comprising the first embodiment of the base, paired the turnbuckle of the invention, in communication with a sixth embodiment of the display holder. 
         FIG. 16  is a rear perspective view of the first embodiment of the display fixture in communication with a first embodiment of a bracket. 
         FIG. 17  is a rear perspective view of the first embodiment of the display fixture in communication with a second embodiment of a bracket. 
         FIG. 18  is an exploded of the first embodiment of the display fixture, illustrating incorporation of at least one anti-vibration washer. 
         FIG. 19  is an exploded of the first embodiment of the display fixture, illustrating incorporation of at least one anti-vibration spacer. 
         FIG. 20A  is a perspective view of two fourth embodiments of the base opposite one another on the outer members of the casing of a doorframe, and joined by a cross bar. 
         FIG. 20B  is a perspective view of two fourth embodiments of the base opposite one another on the inner, opposed members of the casing of a doorframe, and joined by a cross bar. 
     
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Although the disclosure hereof is detailed and exact to enable those skilled in the art to practice the invention, the physical embodiments herein disclosed merely exemplify the invention which may be embodied in other specific structures. While the preferred embodiment has been described, the details may be changed without departing from the invention, which is disclosed in the specification. 
     The present invention is directed to a novel solution for displaying information. Specifically, the invention provides for a novel turnbuckle ( 4 ,  4 ′), incorporated as part of a display fixture ( 2 .  2 ′,  2 ″,  2 ′″), allowing for user friendly, tool free, attachment and removal of a display holder ( 8 ,  8 ,  8 ″,  8 ′″,  8 ′″″) or display from the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) of the display fixture ( 2 .  2 ′,  2 ″,  2 ′″) in a display setting. An intended benefit of the invention is to provide for a fastening device having a turnbuckle design. 
     As illustrated in  FIGS. 1, 2A and 2B , a first embodiment of a display fixture  2  is illustrated comprising a first embodiment of a base  6 , paired with a first embodiment of the turnbuckle  4 , in removable communication with a first embodiment of a display holder  8 . The base  6  has a base length  20  and height  22 . The length  20  is preferably greater than the height  22 . Alternatively, the length  20  may be less than or equal to the height  22 . The length  20  is defined by a base first end  21  and an opposite base send end  23 , where the base first end  21  and the base second end  23  establish the dimension of the base  6  along the length  20 . The base  6  is generally a rectangular structure. Alternatively, the base  6  may have any geometric shape. The base has at least one mounting through-hole  24  extending between a base first side  32  and a base second side  34 , opposite the base first side  32 , where the base first side  32  and the base second side  34  extend between the base first end  21  and the base second end  23 . Preferably, the base  6  comprises a through-hole  24  in close proximity to the first end, and a through-hole  24  in close proximity to the second end  23 , and a through-hole  24  at least substantially centrally located between the first end  21  and the second end  23 . The mounting through-hole  24  provides for placement of the base  6  on a fixture or vehicle surface  26  (reference  FIG. 7 ). Positioned centrally between opposite ends ( 21 ,  23 ) of the base  6  is positioned at least one stability structure  28  on the first side of the base. As will later be described, the stability structure  28  provides for stabilization of the display holder  8  when in communication with the base  6 . A mounting through-hole  24  may be positioned with the stability structure  28  surrounding the through-hole  24  (reference  FIG. 7 ). It is understood the base is preferably a molded polymer. Alternatively, the base  6  may be a forged metal. Alternatively, the base  6  may be a manufactured piece of at least one of polymer and metal components. 
     Along the length  20  are at least two turnbuckle through-holes  30 . The holes  30  extend from the first side  32  to the second side  34 . The holes  30  provide an aperture in which the turnbuckle  4  is inserted. The turnbuckle  4  comprises a knob  10 , an axle  16  and a cam  18  fixed to one another. Knob  10  is positioned to form a first turnbuckle end  36 . The cam  18  is positioned to form a second turnbuckle end  38 . The axle  16  is positioned between the knob  10  and the cam  18  in a linear orientation from the first end  36  to the second end  38 . The knob  10 , axle  16 , and cam  18  are in a unitary one-piece construction. The knob  10  has a shape which compliments the turnbuckle through-hole  30  such that the knob  10  fits into and through the turnbuckle through-hole  30 . The turnbuckle  4  further comprises at least one but preferably two bearings  12 . The bearings  12  are in removable communication with the knob  10 , axle  16  and the cam  18 . The bearings  12  shall be described further. 
     The display holder  8  comprises a mounting surface  40  and a display area  42  in molded communication. Alternatively, the display holder  8  is comprised of a woven mesh. The mounting surface  40  comprises at least one display holder through-hole  44 . The display holder through-hole  44  is aligned with the turnbuckle through-hole  30  when the display holder  8  is removably positioned in contact with the base  6 . The knob  10  is positioned through both the turnbuckle through-hole  30  and the display holder through-hole  44  to provide for removable mounting of the display holder  8  onto the base  6 . The display area  42  of the first embodiment of the display holder  8  comprises two parallel panels  46 . The panels are at least one of transparent material or translucent material. The panels  46  are connected opposite the mounting surface  40  along a folding edge  48 . Each panel  46  may include one or two tabs  50  opposite one another along panel sides  47  of the respective parallel panel  46 , where the panel sides  47  are orthogonal or nearly orthogonal to the folding edge  48 . The tab/tabs  50  allow for separating the panels  46  of a display holder  8  to insert a pamphlet, card, flier or other form of information. 
     As illustrated in  FIGS. 2A to 2B , the cam  18  of each turnbuckle  4  has a principally and at least substantially disc shape with a first cam side  68  and an opposite second cam side  71 . The second cam side  71  is the turnbuckle second end  38 . The first cam side  68  and the second cam side  71  are separated by a cam wall  72 . As seen in  FIG. 2B , a side of the cam wall  72  opposite the first cam side  68  may form the second cam side  71 . The cam wall  72  comprises an outer cam wall surface  60  which defines the circumference  62 , or nearly defines the circumference  62 , of the cam  18 . The outer cam wall surface  60  comprises at least one (1) and preferably four (4) concave indentations  58  positioned equidistance or nearly equidistance about the outer cam wall surface  60 , circumference  62  of the cam  18 . Where four (4) concave indentations  58  are employed, the indentations are at least substantially ninety (90) degrees from one another. Alternatively, the outer cam wall surface  60  may have up to ten (10) concave indentations  58 . 
     As illustrated in  FIG. 2B , the knob  10  is positioned into and through the turnbuckle through-hole  30  in a turnbuckle insertion direction  33  from the base second side  34  to, and preferably beyond, the base first side  32  to construct a completed base  6  and turnbuckle  4  combination. The base second side  34  comprises a cam well  52  about at least one turnbuckle through-hole  30 . Preferably, each cam well  52  surrounds only one turnbuckle through-hole  30 . Alternatively, a cam well  52  may surround more than one turnbuckle through-hole  30 . 
     As illustrated in  FIGS. 2A to 2B , a well perimeter  64  of the cam well  52  defines the perimeter of the cam well  52 . The perimeter  64  comprises intermittent cam well wall sections  69  extending from the second side surface  70  at least partially defining the second side  34 . The cam well wall sections  69  are arranged about the turnbuckle through-hole  30  such that inner wall section surfaces  77  define an inner well circumference  74 , as well as define an inner diameter of the cam well  67 . Between the cam well wall sections  69 , and further defining the perimeter  64  of the cam well  52 , is at least one detent snap  65  extending from the second side surface  70 . It is understood the at least one detent snap  65  further defines the inner well circumference  74  and the inner diameter of the cam well  67 . 
     As illustrated in  FIGS. 6A to 6B , the inner diameter of the cam well  67  is substantially equal to, or slightly larger than an outer diameter of the cam  75 . As illustrated in  FIGS. 2A, 2B and 3 , the outer diameter of the cam  75  is defined by the outer cam wall surface  60 , such that the well perimeter  64 , including the cam well wall sections  69  and detent snaps  65 , and the outer cam wall surface  60  are in a concentric relationship when the turnbuckle  4  is inserted in the base  6 . 
     As illustrated in  FIGS. 2A to 2B , the detent snaps  65  are positioned in alignment with the indentations  58  of the cam  18 . As a result the communication of the outer cam wall surface  60  of the cam  18  with the inner wall section surface  77  of the cam well wall sections  69  provides an a frictional relationship to prevent unintended rotation of the turnbuckle  4 . Additionally, the outer diameter of the cam  75  at the indentations  58  is smaller than the inner diameter of the cam well  67  at the respective detent snaps  65 . As a result the relationship between the detent snaps  65  and the indentations  58  provides for a frictional stabilization of the turnbuckle  4 , wherein the relationship is restrictive of unintended movement, which includes lateral and rotational movement, of the turnbuckle  4 . 
     As illustrated in  FIGS. 2B and 3 , in a preferred embodiment four (4) detent snaps  65  are positioned to define the perimeter of the cam wall  52  as described, and thus providing the frictional support to the respective turnbuckle  4 . It is understood as few a one (1) detent snap may be positioned to define the perimeter of the cam wall  52  as described, and thus providing the frictional support of the respective turnbuckle  4 . Alternatively, as many as ten (10) detent snaps  65  may be positioned to define the perimeter of the cam wall  52  as described, and thus providing the frictional support to the respective turnbuckle  4 . The number of detent snaps  65  defining a perimeter  52  depends upon the application of the base  6 , and the positions of the detent snaps  65  and indentations  58 . 
     An intended benefit of the invention is to provide for a fastening device having a form fitting interchangeable turnbuckle components for reduced vibration of display surfaces. Additionally, an intended benefit of the invention is to provide for a fastening device having a form fitting interchangeable turnbuckle components made of a mold design for reduction in costs. Further, an intended benefit of the invention is to provide for a fastening device having a bracket designed to reduce the transfer of vibration thru the card holding assembly. 
     The axle  16  extends from the cam first side  68  and contacts the knob  10  at a knob second end  78 . The knob  10  from the knob second end  78  to a knob first end  79 . The knob first end defines the turnbuckle first end  36 . Between the second end  78  and the first end  79  a knob cylinder  85  provides for surfaces to manually turn the turnbuckle  4 . The cylinder  85  is oversized to provide for ease of turning the knob  10  and turnbuckle  4 . 
     As illustrated in  FIGS. 2A to 2B , it is observed the bearings  12  have a crescent surface  54  and an opposite convex surface  56 . The crescent surface  54  for each bearing  12  is positioned towards the axle  16  such that the bearings in a turnbuckle  4  are opposite one another. Additionally the bearings  12  are positioned between the knob  10  and the cam  18 . The bearings  12  are tapered for ease of insertion. The bearings  12  are positioned in place when the turnbuckle  4  is paired with the base  6 . The bearings  12  provide supporting to the axle  16  when the turnbuckle  4  is rotated. 
     With attention to  FIGS. 2A, 2B, 3, and 4 , the base  6  is illustrated as paired with the turnbuckle  4  of the invention in an unlocked position  86 . When the turnbuckle  4  is advanced in the turnbuckle insertion direction  33  into the turnbuckle through-hole  30  (reference  FIG. 2B ), the knob width  80  is in alignment with the turnbuckle through-hole  30  to allow for the knob  10  to advance through the through-hole  30  to the base first side  32 . As a result, the knob  10  rests in a final position with the knob second end  78  resting on the base first side  32 . The turnbuckle through-hole  30  is defined by a lip  87  extending at least partially around the through-hole  30  on the base first side  32 , reference  FIGS. 2A and 4 . The knob  10  comprises a knob second end edge  88 , which is provided for with the interaction between the axle  16  and the knob second end  78 , reference  FIG. 6B . Upon insertion of the turnbuckle  4  knob  10  through the through-hole  30 , the edge  88  rests upon the lip  87  in the unlocked position  86 . The interaction between the edge  88  and the lip  87  prevents removal of the turnbuckle  4  from the base  6  while still allowing for rotation of the turnbuckle assembly to the locked position  83 , reference  FIG. 6B  for the locked position  83 . As illustrated in  FIGS. 3 and 7 , the insertion of the turnbuckle  4  from the base second side  34  to the base first side  32  provides additional stability that the turnbuckle  4  will not dislodge from the base  6 , because the surface  26  is positioned against the cam  18  when the base  6  is mounted to the surface  26 . 
     With attention to  FIG. 5 , rotation of the turnbuckle  4  to a locked position  83  is illustrated. A user rotates  89  the knob  10  of the turnbuckle  4  to a position such that the knob  10  and turnbuckle through-hole  30  are not in alignment. Preferably, the user rotates the knob  10  ninety (90) or substantially ninety (90) degrees. The rotation of the knob  10  transfers through the axle  16  and to the cam  18 , reference  FIG. 2B . In doing so, the cam  18  progresses in the same rotation as the knob  10 . Wherein a first concave indentation  109  of the cam  18  rotates  89  in the in the same direction the knob  10  is rotated  89 , reference  FIGS. 2B and 5 . With the rotation  89 , the indentation  109  removably disengages from a first detent snap  108 A and travels to, and removably engages, a second detent snap  108 B along the well perimeter  64 , reference  FIGS. 2B and 5 . Progression of the indentation ( 58 ,  109 ) to successive detent snaps ( 65 ,  108 A,  108 B) occurs for any number of detent snaps ( 65 ,  108 A,  108 B) and indentations ( 58 ,  109 ). 
     With attention to  FIGS. 6A and 6B , the base  6 , paired with the turnbuckle  4  of the invention, is illustrated in the locked position  83 . The cam  18  is seated within the well  52 . The axle  16  extends into the turnbuckle through-hole  30 . The knob first end  79  contacts the axle  16  at or in close proximity to the base first side  32 , reference  FIG. 4A . The knob  10  has a knob width  80  at least at the knob second end  78 . Preferably the knob width  80  extends from the knob second end  78  to the knob first end  79 . When the turnbuckle  4  is in the locked position  83 , the knob  10  is positioned ninety (90) degrees or between zero and ninety degrees with respect to the turnbuckle through-hole  30 . In doing so, the knob second end  78  is no longer in alignment with the turnbuckle through-hole  30 . The knob is tapered from the second end  78  to the first end  79 . The tapering allows for ease of entry of the first end into the through-hole  30 . Further, the second end has a size greater than the through-hole  30 , this size difference of the knob second end  78  and the turnbuckle through-hole  30  prevents the turnbuckle  4  from being removed and provides for locking the display holder  8  against the base  6 . Further it can be observed, reference  FIGS. 5 and 6B , the bearings  12  are seated in the turnbuckle through-hole  30  such that that when the turnbuckle  4  is in the locked position, the bearings  12  cover the turnbuckle through-hole  30 . Further as can be seen in  FIG. 5 , the knob second end  78  rests upon the lip  87 . Alternatively, the knob second end  78  rests partially on the lip  88 . 
     With attention to  FIG. 7 , the base  6 , paired with the turnbuckle  4  of the invention and the display holder  8 , it is illustrated the display fixture  2  is in communication with a fixture or vehicle surface  26 . The base  6  is mounted to the fixture or vehicle surface  26  using mounting hardware  81 . The display holder  8  is mounted to and locked to the base  6  using the turnbuckles, as turned in the locked positioned  83 . As a result, the display holder  8  is compressed against the base first side  32 . 
     The stability structure  28 , as previously introduced, is on the base first side  32 . The stability structure  28  preferably comprises a set of two concentric rings  84  molded to the base  6 , reference  FIG. 2A . Alternatively, the stability structure  28  preferably may comprise less than or more than two concentric rings  84  molded to the base  6 , reference  FIG. 2A . Alternatively, the stability structure  28  may be any form of raised structure. The compression of the display holder  8  against the stability structure  28  provides for deformation  82  of the display holder  8  away from the base  6  at the stability structure location with respect to the display holder  8  and in close proximity to the display holder  8  location with respect to the stability structure  28 . The deformation  82  provides for stabilization of the display holder  8  from vibration greater than a fixture lacking the stability structure  28 . 
     With attention to  FIGS. 8A, 8B  an  8 C, a method of inserting the turnbuckle  4  into the base  6  is described. As illustrated in Figure BA, the turnbuckle  4  is positioned with the knob  10 , and specifically the knob first end  79 , in the direction of the base second side  34 ,  90 . In doing so, the knob  10  is aligned with the cam well  52 . Specifically, the knob  10 , and the knob width  80 , reference  FIG. 6A , is aligned with the turnbuckle through-hole  30  surrounded by the well perimeter  64  of the respective well  52 . It is observed the turnbuckle through-hole  30  has a first diameter  101  at or in close proximity to the lip  87 . As illustrated in  FIG. 8B , the turnbuckle  4  is further positioned in the well  52  such that the knob  10  advances into the turnbuckle through-hole  30 ,  91 . The turnbuckle  4  advancement provides for the knob first end  79  moving beyond the base first side  32 . As stated earlier, the tapering of the knob  10  from the second end  78  to the first end  79  allows for the first end to easily pass into and beyond the through-hole  30 . As noted earlier the size of the second end  78  is greater than the through-hole  30 , this differentiation results in the knob  10 , at or in close proximity to the second end  78 , placing pressure on the lip  87  while the knob  10  advances through the turnbuckle through-hole  30 ,  92 . The contact, and pressure, advances the lip  87  away from the knob  10  such that the turnbuckle through-hole  30  expands to a second diameter  102  at or in close proximity to the lip  87 ,  92 . As illustrated in  FIG. 8C , the turnbuckle  4  is further advanced, such that the knob  10  advances beyond the base first end  32 ,  93 . After the knob  10  passes through the turnbuckle through-hole  30 , pressure on the lip  87  from the knob  10  is removed and the turnbuckle through-hole  30  returns to a first diameter  101  at or in close proximity to the lip  87 ,  94 . The knob second end  78 , specifically the knob second end edge  88 , rests on the base first end  78  and specifically the lip  87  surrounding the turnbuckle through-hole  30 ,  95 . An intended benefit of the invention is to provide for a method to secure components of a fixture in order to ensure stable operation. 
     With attention to  FIG. 9 , a second embodiment display fixture  2 ′ comprising the base  6 , paired with the turnbuckle  4 , in communication with a second embodiment of the display holder  8 ′ is illustrated. The display fixture  2  may have at least one feature in common with the display fixture  2 ′. The display holder  8 ′ may have at least one feature in common with the display holder  8 . The display holder  8 ′ comprises a mounting surface  40  and a display area  42 . The display area  42  incorporates parallel panels  46 ′ having at least one feature in common with the parallel panels  46 . The parallel panels  46 ′ comprise a first panel  96  and a second panel  97  connected at the folding edge  48 , wherein the second panel extends into the mounting surface  40 . The first panel  96  is positioned so that the panel  96  may be rotated away from the second panel  97  at the folding edge  48 . Opposite the folding edge  48 , the first panel  96  provides for a pull tab  98 . The pull tab  98  provides the user a surface for separating the first panel  96  away from the second panel  97  to insert an informational page or card. 
     With attention to  FIG. 10 , a third embodiment of the display fixture  2 ″ comprising a second embodiment of the base  6 ′, paired with the turnbuckle  4  of the invention, in communication with a third embodiment of the display holder  8 ″ is illustrated. The third embodiment of the display fixture  2 ″ may share at least one feature with at least one of the first embodiment of the display fixture  2  and the second embodiment of the display fixture  2 ′. The second embodiment of the base  6 ′ may share at least one feature with the base  6 . The relationship between the base  6 ′ and the turnbuckle  4  may share at least one feature of the relationship between the base  6  and the turnbuckle  4 . The base  6 ′ provides for one turnbuckle through-hole  30  over the length  20 . Further at least one, preferably two mounting through-holes  24  surround the turnbuckle through-hole  30 . One mounting through-hole  24  is in close proximity to the base first end  21 , and the second mounting through-hole is in close proximity to base second end  23 . The display holder  8 ″ comprises second embodiment of the mounting surface  40 ′ in molded communication with the display area  42 . The mounting surface  40 ′ provides for an opening to align with the turnbuckle through-hole  30  of the base  6 ′. The mounting surface  40 ′ may share at least one feature with the mounting surface  40 . The display area  42  contains two third embodiments of the parallel panels  46 ″. The panels  46 ″ are arranged with respect to the mounting surface  40 ′ in the same manner as the parallel panels ( 46 ,  46 ′) are arranged to the mounting surface  40 . The parallel panels  46 ″ are arranged with respect to one another in the same manner is the parallel panels ( 46 ,  46 ′) are arranged to one another. This allows for the parallel panels  46 ″ to be rotated away from one another to insert an informational page or card. 
     With attention to  FIG. 11 , a third embodiment of the display fixture  2 ″ comprising a second embodiment of the base  6 ′, paired with the turnbuckle  4  of the invention, in communication with a fourth embodiment of the display holder  8 ′″ is illustrated. The display holder  8 ′″ may share at least one feature with at least one of the display holder  8 , the second embodiment display holder  8 ′ and the third embodiment of the display holder  8 ″. The display area  42  of the display holder  8 ′″ comprises a pouch  99 . The pouch  99  has an open end  100  in close proximity to the base  6 ′ when the display holder  8 ′″ is mounted to the base  6 ′. Wherein an informational page, card or item make be placed in the open end  100  and into the pouch  99 . 
     With attention to  FIG. 12A , a third embodiment of the base  6 ″ paired with the turnbuckle  4  of the invention is illustrated. The third embodiment of the base  6 ″ may share at least one feature with at least one of the base  6  and the second embodiment of the base  6 ′. The relationship between the base  6 ″ and the turnbuckle  4  may share at least one feature of the relationship between at least one of the base  6  and the turnbuckle  4 , and the base  6 ′ and the turnbuckle  4 . Each base  6 ″ is at least substantially oval in dimension with a base first side  32  and a base second side  34 . One base  6 ″ may be used individually, or multiple bases  6 ″ may be used, in conjunction with a display holder similar to at least one of the first embodiment of the display holder  8 , the second embodiment of the display holder  8 ′, the third embodiment of the display holder  8 ″ and the fourth embodiment of the display holder  8 ′″. The multiple bases  6 ″ may be used to hang or display a banner. 
     With attention to  FIG. 12B , a fourth embodiment of the base  6 ′″ paired with the turnbuckle  4  of the invention is illustrated. The base  6 ′″ may share at least one feature with at least one of the base  6 , the second embodiment of the base  6 ′, and the third embodiment of the base  6 ″. The relationship between the base  6 ′″ and the turnbuckle  4  may share at least one feature of the relationship between at least one of the base  6  and the turnbuckle  4 , the base  6 ′ and the turnbuckle  4 , and the base  6 ″ and the turnbuckle  4 . Each base  6 ′″ is at least substantially circular in dimension and having a disc shape with a base first side  32  and a base second side  34 . The base  6 ′″ comprises at least one, preferably four, through-holes  24  positioned about the turnbuckle through-hole  30 , the turnbuckle  4 , for attaching the base to a fixture or vehicle surface  26  (reference  FIG. 7 ). One base  6 ′″ may be used individually, or multiple bases  6 ′″ may be used, in conjunction with a display holder similar to at least one of the first embodiment of the display holder  8 , the second embodiment of the display holder  8 ′, the third embodiment of the display holder  8 ″ and the fourth embodiment of the display holder  8 ′″. The multiple bases  6 ′″ may be used to hang or display a banner in the manner described with the base ( 6 ,  6 ′,  6 ″). 
     With attention  FIG. 12 c   , the relationship between the turnbuckle  4  and base ( 6 ″,  6 ′″) is illustrated. As previously explained the relationship between the turnbuckle  4  and the base ( 6 ″,  6 ′″) is identical to, or at least incorporates many of the features of, the relationship between the turnbuckle  4  and the base ( 6 ,  6 ′).  FIG. 12C  illustrates the relationship between the turnbuckle  4  and the base  6 ″, but as stated this illustration of the relationship also applies to the relationship between the turnbuckle  4  and the base  6 ′″. 
     With attention to  FIG. 13 , a fourth embodiment of the display fixture  2 ′″ comprising a fifth embodiment of the base  6 ″″, paired with a second embodiment of the turnbuckle  4 ′ of the invention, in communication with a fifth embodiment of the display holder  8 ″″ is illustrated. The fourth embodiment of the display fixture  2 ′″ may share at least one feature with at least one of the first embodiment of the display fixture  2 , the second embodiment of the display fixture  2 ′, and the third embodiment of the display fixture  2 ″. The fifth embodiment of the base  6 ″″ may share at least one feature with at least one of the base  6 , the second embodiment of the base  6 ′, the third embodiment of the base  6 ″, and the fourth embodiment of the base  6 ′″. The second embodiment of the turnbuckle  4 ′ may share at least one feature with the turnbuckle  4 . The fifth embodiment of the display holder  8 ″″ may share at least one feature with the first embodiment of the display holder  8 , the second embodiment of the display holder  8 ′, the third embodiment of the display holder  8 ″, and the fourth embodiment of the display holder  8 ′″. 
     The base  6 ″″ has a length  20 . At least one, preferably three, turnbuckles  4 ′ are positioned along the length from the first base end  21  to the second base end  23 . At least one, preferably four, mounting through-holes  24  are positioned along the length  20  from the first base end  21  to the second base end  23 . Preferably, the through-holes  24  are positioned to provide for a secure fitting of the base  6 ″″ to a fixture or vehicle surface  26  (reference  FIG. 7 ). The display holder  6 ″″ comprises a third embodiment of the mounting surface  40 ″ and a display surface  103 . The display surface  103  may be a polymer or fabric sheet, or a mesh. The display surface  103  provides an area on which the displayed information may be posted or printed or drawn. The mounting surface  40 ″ may be a portion of the display surface  103  folded to a thickness and rigidity to support mounting of the remainder of the display surface  103 . Alternatively, the mounting surface  40 ″ may be a sheet of polymer or metal attached to the display surface  103 . The mounting surface  103  provides for through-holes  44  as previously described. Further, where necessary a portion of the unfolded display surface  103  may provide for through-holes  104  which align with the mounting surface through-holes  44  for hanging the display surface  103  when the mounting surface  40 ″ is a separate attached piece of polymer or metal. The display surface through-holes  104  share at least feature with the through-holes  44 , and allow for insertion of the knob  10 , similar to the through-hole  44 . The display holder  8 ″″ interacts with the base  6 ″″ using the display holder through-holes  44 , and display surface through-holes  104  where necessary, as previously disclosed with prior embodiments. 
     A front bracket  105  having a length of or close to length  20  is positioned against the mounting surface  40 ″ opposite the base  6 ″″ such that the mounting surface  40 ″ is layered between the base  6 ″″ and the front bracket  105 . The front bracket  105  has front bracket through-holes  106 . The front bracket through-holes  106  share at least one feature with the though hole  44 , and allow for insertion of the knob  10 , similar to the through-hole  44 . The through-holes  106  align with the through-holes  44 , through-holes  104  where necessary, and the turnbuckles  4 ′ for mounting of the display holder  8 ″″. The front bracket  105  may be used in conjunction with a first embodiment of the base  6  and a second embodiment of the base  6 ″. The front bracket  105  may be used in conjunction with the turnbuckle  4 . 
     With attention to  FIG. 14 , the fifth embodiment of the base  6 ″″, paired with a second embodiment of the turnbuckle  4 ′ of the invention, in communication with the fifth embodiment of the display holder  8 ″″ is illustrated. Note the turnbuckle  4 ′ may be paired with any combination of the fixture ( 2 ,  2 ′,  2 ″,  2 ′″), the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), and the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″). The base  6 ″″ comprises a second embodiment of the lip  87 ′. Wherein the second embodiment of the lip  87 ′ shares at least one feature with the lip  87 . The lip  87 ′ defines a second embodiment of the turnbuckle through-hole  30 ′. Wherein the second embodiment of the turnbuckle through-hole  30 ′ shares at least one feature with the through-hole  30 . The turnbuckle  4 ′ comprises the cam  18 , knob  10  and an axle  16 ′. The axle  16 ′ shares at least one feature with the axle  16 . The knob,  10 , axle  16 ′ and cam  18  are arranged in the same manner and function in the same manner as the knob  10 , axle  16  and cam  18  of the turnbuckle  4 . The axle  16 ′ has an extended axle length  107 ′ from the cam  18  to the knob  10 . The extended length  107 ′ is greater than the axle length  107  (reference  FIG. 2B ) of the axle  16  of the turnbuckle  4 , where the axle length  107  extends from the knob  10  to the cam  18 . The second embodiment of the turnbuckle  4 ′ is inserted into the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) in the same manner and method, previously described, as the turnbuckle  4  is inserted into the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″). When inserted into the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), the extended length  107 ′ provides for a separation distance  115  between the knob second end edge  88  and the base first side  32  which accommodates at least one of the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″) and the front bracket  105 . It is observed the axle length  107  (reference  FIG. 2B ) provides a gap between the knob  10  and cam  18  to provide the same benefit of securing the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″). 
     With attention to  FIG. 15 , the fixture  2  comprising the base  6 , paired with the turnbuckle  4 ′ of the invention, in communication with a sixth embodiment of the display holder  8 ′″″ is illustrated. Note the display holder  8 ′″″ may be paired with anyone of, and any combination of, the fixture ( 2 ,  2 ′,  2 ″,  2 ′″), the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), and the turnbuckle ( 4 ,  4 ′). The sixth embodiment of the display holder  8 ′″″ shares at least one feature with at least one of the first embodiment of the display holder  8 , the second embodiment of the display holder  8 ′, the third embodiment of the display holder  8 ″, the fourth embodiment of the display holder  8 ′″, and the fifth embodiment of the display holder  8 ″″. The display holder  8 ″″ is a plate or at least semi-rigid board, preferably made of a polymer, in which the information to be display is printed or written upon. 
     With attention to  FIG. 16 , the display fixture ( 2 ,  2 ′,  2 ″,  2 ′″) is illustrated in communication with a first embodiment of a bracket  116 . The bracket  116  is an L-bracket having a first plane  110  intersecting a second plane  111 . The first plane  110  is removable attached to the second side  34  of the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), using though holes (not illustrated in the figures) in the plane  110  aligned with at least one through-hole  24  of the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), with the mounting hardware  81 . A nut  112  may be threaded on the mounting hardware  81  to secure the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) to the bracket  116 . The second plane  111  is at least one of affixed or removable attached to the fixture or vehicle surface  26  (reference  FIG. 7 ). The surface may be a roof of a golf cart. Bracket mounting holes  114  provide for mounting the bracket  116 , and the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) to the fixture or vehicle surface  26 . Alternatively, the bracket  116  may be affixed to the fixture or vehicle surface  26  (reference  FIG. 7 ) through other means. 
     With attention to  FIG. 17 , the display fixture ( 2 ,  2 ′,  2 ″,  2 ′″) is illustrated in communication with a second embodiment of a bracket  117 . The bracket  117  comprises a first plate  118  and a second plate  119  removably positioned against the first plate  118  as described. The first plate is removably attached to the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) with the mounting hardware  81 , which extends through flange through-holes  127  (not illustrated in the figures) in the plate  118  that are aligned with at least one through-hole  24  of the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″. A nut  112  may be threaded on the mounting hardware  81  to secure the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) to the plate  118 . At least one, preferably two flanges  120  contact the plate  118  on a side opposite the side of the plate the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) and the flange  120 . The flange  120  extends from a cart or object on which the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) is removably attached. Preferably two flanges extend, one towards the first end  21  and the second towards the second end  23  of the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″). A space  121  may be present between the flanges  120  when the flanges  120  are attached to the plate  118 . The second plate  119  in positioned between the flanges  120  and against the first plate  118  wherein the second plate  119  occupies the space  121 . The second plate has at least one through-hole (not illustrated in the figures) which aligns with at least one combination of a through-hole of the first plate (not illustrated in the figures) and a through-hole  24 . The respective mounting hardware  81  and nut are used to removably attach the second plate  119  so that the first plate  118  is layered between the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) and the second plate  119 . The arrangement provides for another aspect of mounting the fixture ( 2 ,  2 ′,  2 ″,  2 ′″), base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) and provides for a non-contoured, and planar, look of the mounting surfaces. 
     With attention to  FIG. 18 , the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) incorporating at least one anti-vibration washer  122  is illustrated. The anti-vibration washer  122  is a sheet, preferably made of a polymer, designed to absorb the resonance vibrations of the structure or vehicle on which the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) and base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) are attached to ensure a viewer may easily read the information displayed by the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″). As seen from a viewing end  123  of the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) to a support end of the fixture  124 , opposite the viewing end  123 , the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″) is attached to the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) as previously described. A first washer  125  is attached to the second side  34  of the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″). The anti-vibration washer  125  contains at least one anti-vibration washer through-hole  126  which aligns with at least one through-hole  24 . Opposite the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) the anti-vibration washer  125  removably contacts with at least one flange  120 . At least one through-hole  126  aligns with a flange through-hole  127 . Opposite the first anti-vibration washer  125 , a second anti-vibration washer  128  removably contacts the flange  120 . At least one flange through-hole  127  aligns with at least one through-hole  126  of the second anti-vibration washer  128 . Opposite the second anti-vibration washer  128 , a back plate  129  is removably attached to the second anti-vibration washer  128 . At least one back plate through-hole  130  of the back plate  129  aligns with at least one through-hole  126  of the second anti-vibration washer  128 . The back plate  129  maybe be comprised of at least one of a metal and a polymer. Thus, the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″), the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), the first anti-vibration washer  125 , the flange  120 , the second anti-vibration washer  128 , and the back plate  129  are in a layered arrangement. At least one respective through-hole ( 24 ,  126 ,  127 ,  130 ) for each respective layer is in alignment and provides for mounting hardware  81  to be employed with a nut  112  to mount the all the respective layers to a fixture or vehicle surface  26  (reference  FIG. 7 ) of a vehicle or structure. 
     With attention to  FIG. 19 , the display fixture ( 2 ,  2 ′,  2 ″,  2 ′″) incorporating at least one anti-vibration spacer  140  is illustrated. The anti-vibration spacer  140  is preferably an elastomeric mount, designed to absorb the resonance vibrations of the structure or vehicle  26  (reference  FIG. 7 ) on which the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) is attached to ensure a viewer may easily read the information displayed by the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″). Specifically, the spacer  129 , and washer  122  (reference  FIG. 18 ) as well, is designed to reduce the shock induced on the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) when vehicle  26  (reference  FIG. 7 ) on which the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) is mounted starts or stops motion. Additionally, the spacer  129 , and washer  122  (reference  FIG. 18 ) as well, is designed to reduce the shock induced on the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) due to the vibrations produced by operation of the motor placed in the vehicle  26  (reference  FIG. 7 ) on which the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) is mounted. As seen from a viewing end  123  of the fixture ( 2 ,  2 ′,  2 ″,  2 ′″) to a support end of the fixture  124 , opposite the viewing end  123 , the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″) is attached to the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) as previously described. A spacer  140  is removably attached to the second side  34  of the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″). The spacer  140  preferably comprises a polymer based material  142  defined at opposite ends of the material  142  with a first material end  144  and opposite second material end  146 . A threaded bore hole  152  extends into the material from the first material end  144 . A threaded fitting  149  extends from the second material end  146 . The threaded bore hole  152  aligns with at least one through-hole  24  such that the mounting hardware  81  is inserted through the through-hole  24  and into the bore  152  to removably fix the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″) and spacer together. The threaded fitting  149  extends to at least one flange  120 . The threaded fitting  149  aligns with a flange through-hole  127  and extend through the flange through-hole  127 . At least one spacer  129  is employed per fixture ( 2 ,  2 ′,  2 ″,  2 ′″) in the described manner. Thus, the display holder ( 8 ,  8 ′,  8 ″,  8 ′″,  8 ″″,  8 ′″″), the base ( 6 ,  6 ′,  6 ″,  6 ′″,  6 ″″), the at least one spacer  140 , and the flange  120  are in a layered arrangement. A washer  150  and a nut  112  are placed on the threaded fitting  149 , wherein the flange  120  is between the material  142  and the washer  150 /nut  112  combination, in order to mount the all the respective layers to a fixture or vehicle surface  26  (reference  FIG. 7 ) of a vehicle or structure. 
     With attention to  FIGS. 20A and 20B , two bases ( 6 ″,  6 ′″) are positioned opposite one another on the casing  135  of a door frame  131  opposite and joined by a cross bar  132  is illustrated. As illustrated in  FIG. 20A , the bases ( 6 ″,  6 ′″) may be on opposite sides of the casing  135  on outer members  136  which are not facing one another. The bar  132  contains a first embodiment of a connection tab at either end of the bar  132 . Each tab  133  contains a through-hole  44 . The bases ( 6 ″,  6 ′″) and through-holes  44  interact as previously described to removably attach the bar  132  to the casing  135 . As illustrated in  FIG. 20B , the base ( 6 ″,  6 ′″) may be facing one another on opposite inner members  137  within the opening of the doorway  138 . In  FIG. 203 , the bar  132  contains a second embodiment of the tab  133 ′ at each end of the bar  132 . Each tab comprises a through-hole  44 , which interacts with the base ( 6 ″,  6 ′″) as previously described to hang the bar  132  to the casing  135 . 
     The foregoing is considered as illustrative only of the principles of the invention. Furthermore, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described. While the preferred embodiment has been described, the details may be changed without departing from the invention.