• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    element retaining frame and element retaining clip. An element retaining structure has an installation element (eg, insulating ring) and a leg element (eg, pin). a projecting part, having at least one sloping surface, and a projecting wall, for contacting the sloping surface of the projecting part and guiding in a direction of removing the leg element (e.g., pin) from the installation element (e.g. insulating ring) in a case when the leg element (eg pin) is rotated in a state where elastic leg pieces are opened, are provided between the installation element (eg insulating ring) and the leg element (e.g. pin).
    公开号:BR112012027652B1
    申请号:R112012027652-2
    申请日:2011-04-20
    公开日:2019-08-06
    发明作者:Yuji Sasaki
    申请人:Nifco Inc.;
    IPC主号:
    专利说明:

    “ELEMENT FIXING STRUCTURE AND ELEMENT FIXING CLAMP”
    Technological field
    The present invention relates to an element fixing structure and a clamp for fixing an element, wherein a projection part having at least one inclined surface and a projection wall for contacting the inclined surface of the projection part are provided between an installation element and a leg element, whereby the structure of at least the projection wall can be made simple and convenient.
    Background technology
    A fastener is previously known, in which parts of meat to contact each other are provided respectively in a female fastener and a male fastener (see: patent document 1, page 4, left column, lines 4 to 8; same page, left column , last row to the same page, right column row 3, and figure 1).
    The meat part of the female fastener above the past is provided by lifting in an inclined shape (see: patent document 1, page 4, left column, lines 7 to 8; and figure 1).
    Prior art documents (patent document)
    Patent document 1: publication of the utility model registration no. 2512362.
    Problems to be solved by the invention
    However, as the meat part of the female fastener above the past is provided in elevation in an inclined shape in a circumferential direction of an annular lowered step part, the structure becomes asymmetrical with respect to the front to the rear in the circumferential direction, and there is a problem that the production of the female fastener is difficult.
    This is, for example, in the case when the female fastener of the past is injection molded using a mold, the mold structure is made complex, and therefore the mold design work factor and the design work factor are increased as a result. . In addition, thatched female fastener from the past, as the mold structure is complex, there is a disadvantage that it is difficult for the designer to perceive poor conditions in the mold and molding, and there is a high probability that the same types of bad conditions will originate.
    Particularly in the case of a product that is symmetrical to the left and right of a vehicle, such as a bumper retainer, the meat portion of the female fastener above the past must be drawn asymmetrically from left to right, the work factor of drawing is increased, and design errors and mold production errors are caused.
    Therefore, the present invention was created in consideration of the problems of the prior art mentioned and an objective of the same is to be able to simplify the structure of at least one projection wall.
    2/21
    Way to solve problems
    The present invention was created to achieve the aforementioned objective, and the element fixing structure according to the present invention is first configured with the following.
    (1) Installation element (for example, insulating ring) (2) Leg element (for example, pin)
    The installation element (for example, insulating ring) has the following configuration.
    (3) Necklace shape part
    The necklace-shaped part has a hole directly in the direction of thickness.
    (4) Elastic leg piece
    The elastic leg pieces are placed in a series in a cylindrical shape on the other side than that of the collar part to form a cylindrical part connecting through to the straight hole of the collar part, and have raised parts vol15 the internal faces.
    The leg element above (for example, pin) is provided with the following configuration.
    (5) Flange (6) Part with wide diameter and part with narrow diameter
    The wide diameter part and the narrow diameter part are integrally placed20 projecting from the flange and are supplied continuing at least towards an advanced end side.
    Second, a portion of meat is raised in a circumferential direction of the wide diameter portion from the narrow diameter portion of the leg element (e.g., pin).
    Third, the fixing structure of the element is such that the raised parts of the elastic leg pieces move in the meat part by inserting the leg element (eg pin) into the installation element (eg insulating ring ) so that the elastic leg pieces are opened.
    Fourthly, the following configuration is provided between the installation element (for example, insulating ring) and the leg element (for example, pin).
    (7) Projected part
    The projected wall has at least one inclined surface.
    (8) Projected wall
    The projected wall is to contact the inclined surface of the projected part and guide in a direction to remove the leg element (eg pin) from the installation element (eg insulating ring) in a case when the leg element (for example, pin) is rotated in a state in which the elastic leg pieces are opened.
    3/21
    The fixing structure of the element according to the present invention can be characterized by the following points.
    First, the projected wall is provided in the installation element (for example, insulating ring).
    Second, the projected wall is formed in a symmetrical form with respect to the front to the rear in a circumferential direction centered on the direct hole.
    In this case, by providing the projected wall on the installation element, the structure of the installation element, as well as the production, can be made simple and convenient. In addition, by forming the projected wall provided in the installation element in a shape symmetrical with respect to the front to the rear wall centered on the direct hole, the structure of the Installation element, as well as the production, can be made a simpler level and convenient.
    The element holding structure according to the present invention can be characterized by the following points.
    First, the projected part is formed on the underside of the leg element flange (for example, pin).
    Second, the projected wall is formed in the collar-shaped part of the installation element (for example, insulating ring).
    In this case, by forming the projected part on the underside of the flange of the 20-leg element, the projected wall can be formed on the collar-shaped part of the installation element.
    The fixing structure of the element according to the present invention can be characterized by the following points.
    First, the projected part (for example, lock release part) is formed between the wide diameter part and the narrow diameter part of the leg element (for example, pin).
    Secondly, the projected wall (for example, the second part in relief) is formed on the elastic leg piece (for example, second elastic leg piece) of the installation element (for example, insulating ring).
    In that case, by forming the projected part between the wide diameter part and the narrow diameter part of the leg element, the projected wall can be formed in the elastic leg piece of the installation element.
    In addition, the first clamp according to the present invention has the following configuration first.
    (1) insulating ring (2) Pin
    The insulating ring above has the following configuration.
    4/21 (3) Necklace-shaped part (4) Leg part
    The leg part is supplied hanging down from the collar part.
    (5) Direct hole
    The straight hole extends through the leg part from the collar part.
    The pin above has the following configuration.
    (6) shaft part
    The shaft part is able to increase the leg part in diameter by being inserted into the straight hole.
    (7) Flange
    The flange extends from the shaft part and has a larger diameter than the straight hole.
    Second, a recessed part and an embossed part (for example, a second embossed part), to prevent movement in an axial direction of the shaft part in the straight hole by snapping together elasticly in a state in which the leg part is made capable of being increased in diameter, any part is provided between the leg part and the axle part.
    Thirdly, a lock release part, as it is elastically contacted by the embossed part (for example, the second embossed part) having left the recessed part and to allow movement in the axial direction of the shaft part in the straight hole in one case when the flange is rotated in a state in which the recessed part and the raised part (for example, the second raised part) are fitted together, it is supplied in a circumferential direction of the lowered part.
    Fourth, an inclined surface, to induce in a direction that the shaft part exits the direct bore using an elastic return force of the raised part (for example, second raised part) elastically contacting the lock release part, is provided in the lock release part.
    In addition, the second clamp according to the present invention has the following configuration first.
    (1) insulating ring (2) Pin
    The insulating ring above has the following configuration.
    (3) Necklace-shaped part (4) Leg part
    The leg part is supplied suspended downwards from the collar part.
    5/21 (5) Straight hole
    The straight hole extends through the leg part from the collar part.
    The pin above has the following configuration.
    (6) Shaft part
    The shaft part is able to increase the leg part in diameter by being inserted into the straight hole.
    (7) Flange
    The flange extends from the shaft part and has a larger diameter than the straight hole.
    Second, a recessed part and an embossed part (for example, a second embossed part), to prevent movement in an axial direction of the shaft part in the straight hole by snapping joints elastically in a state in which the leg part is made capable of being increased in diameter, any part is provided between the leg part and the axle part.
    Thirdly, a lock release part, as it is elastically contacted by the raised part (for example, the second raised part) having left the recessed part and to allow movement in the axial direction of the shaft part in the direct hole in one case when the flange is rotated in a state in which the undercut and raised part (for example, the second embossed part) are fitted together, it is provided in a circumferential direction of the undercut.
    Fourth, a resiliently elastic body is provided at a perimeter edge of the flange.
    Fifth, a wall part, for contacting elasticly with the elastic body in a state in which the leg part is made capable of being increased in diameter, is provided in the collar-shaped part.
    Sixth, the induction is carried out in a direction that the shaft part exits the direct bore by an elastic return force having been accumulated in the elastic body in a case when the flange is rotated in the state in which the leg part is made able to be enlarged in diameter.
    Effects of the invention
    According to the element fixing structure according to the present invention, effects such as the following are presented.
    By providing a designed part having at least one inclined surface and a projected wall for contact with the inclined surface of the projected part between the installation element and the leg element, the structure of at least the projected wall can be made simple and convenient.
    The first clamp for fixing an element according to the present invention can provide an optimal clamp for the element fixing structure according to the present invention. In addition, in the case when the flange is rotated in a state in which the pin is locked in the insulating ring, induction can be performed in the direction of removing the shaft portion of the pin from the direct hole of the insulating ring using the force of elastic return of the 5 part elastically projected contacting the inclined surface of the lock release part.
    The second clamp for securing an element according to the present invention can also provide an optimum clamp for the element clamping structure according to the present invention. In addition, in the case when the flange is rotated in a state at 10 where the pin is locked to the insulating ring, induction can be carried out in the direction of removing the shaft portion of the pin from the direct hole of the insulating ring by the force of accumulated elastic return on the elastic body of the flange.
    Brief description of the drawings
    Figure 1 is a detailed perspective view of the element fixing structure according to a first embodiment of the present invention.
    Figure 2 is a detailed perspective view of the clamp.
    Figure 3 is a cross-sectional view of the installed state of the clamp. Figure 4 is another cross-sectional view of the installed state of the clamp.
    Figure 5 is a cross-sectional view of the provisionally fixed state 20 of the pin.
    Figure 6 is a cross-sectional view of the provisionally fixed state of the pin.
    Figure 7 is a perspective view of the insulating ring.
    Figure 8 is another perspective view of the insulating ring.
    Figure 9 is a front view of the insulating ring.
    Figure 10 is a side view of the insulating ring.
    Figure 11 is a plan view of the insulating ring.
    Figure 12 is a bottom view of the insulating ring.
    Figure 13 is a front view in which half of the insulating ring is a cross-sectional view.
    Figure 14 is a side view in which half of the insulating ring is a cross-sectional view.
    Figure 15 is a perspective view of the pin.
    Figure 16 is another perspective view of the pin.
    Figure 17 is a front view of the pin.
    Figure 18 is a side view in which half of the pin is a cross-sectional view.
    7/21
    Figure 19 is a plan view of the pin.
    Figure 20 is a partially enlarged view of the pin.
    Figure 21 is a cross-sectional view along line A-A in figure 18.
    Figure 22 is a diagram to describe the coupled state between the projected wall of the insulating ring and the projected part of the pin.
    Figure 23 is a partial plan view of the insulating ring to describe a second embodiment of the present invention.
    Figure 24 is a partial plan view of the insulating ring to describe a third embodiment of the present invention.
    Figure 25 is a cross-sectional view of the installed state of the clamp, illustrating a fourth embodiment of the present invention.
    Figure 26 is another cross-sectional view of the installed state of the clamp, illustrating a fourth embodiment of the present invention.
    Figure 27 is a perspective view of the pin, illustrating a fifth embodiment of the present invention.
    Figure 28 is a cross-sectional view of the installed state of the clamp, illustrating a fifth embodiment of the present invention.
    Figure 29 is a cross-sectional view illustrating a state in which the pin in Figure 28 is rotated.
    Fig. 30 is an enlarged view of the portion A surrounded by the circle in Fig. 29.
    Figure 31 is a cross-sectional view along line X-X in figure 28.
    Figure 32 is a cross-sectional view along the Y-Y line in Figure 29.
    Modalities of the invention
    First modality
    Element clamping structure 10
    In figure 1, the numeral 10 indicates an element attachment structure, and the element attachment structure 10 is for attaching a bumper (not shown), being an example of a part, to a base 20, for example, being an automobile body, although not shown, by means of a clamp 30 that configures a portion of a bumper retainer (not shown).
    An installation hole 21 for installing the clamp 30 is provided in the base 20 as shown in figure 1. Installation hole 21 extends through the top base 20 to the bottom, and is formed in a non-circular, for example, square shape .
    The installation hole 21 is formed in a square shape, but the present invention is not limited to this, and the installation hole 21 can be in a non-circular shape in which the clamp 30 does not rotate.
    Meanwhile, an automobile body is illustrated as an example of the base
    8/21
    20, but the present invention is not limited to this, and is not limited to use for automobiles, and can be used for other vehicles, or buildings, furniture, office equipment, or the like.
    In addition, a bumper is illustrated as an example of the part, but the present invention is not limited to that. Also, the bumper retainer (not shown) and clamp 30 are considered to be a portion of the part, however this point should be discussed as “part modes.”
    In addition, clamp 30 is configured as a portion of the bumper retainer, however the present invention is not limited to this, and clamp 30 can be configured separately from the bumper retainer.
    Staple 30
    The clamp 30, widely divided, has the following configuration, as illustrated in figures 1 and 2.
    The following (1) to (3) should be described.
    (1) Insulating ring 40 (installation element) (2) Pin 50 (leg element) (3) Gasket 60
    The configuration of clamp 30 is not limited to (1) to (3) above.
    Insulating ring 40
    The insulating ring 40 configures a portion of the bumper retainer (not shown), it is connected to the base 20 because it is installed in the installation hole 21 of the base 20 and inserting a pin 50 to be described, as illustrated in figures 1 to 4 , and constitutes the installation element. The bumper retainer is attached to the base 20 by means of the insulating ring 40. The insulating ring 40 is integrally molded with a synthetic resin having an appropriate degree of elasticity and rigidity.
    The insulating ring 40 is configured as a portion of the bumper retainer, however the present invention is not limited to this, and the insulating ring can be configured separately from the bumper retainer. In addition, the insulating ring 40 is illustrated as an example of the installation element, but the present invention is not limited to that.
    Specifically, the insulating ring 40 has the following parts, as illustrated in figures 7 to 14.
    The following (1) and (2) should be described.
    (1) Necklace-shaped part 70 (2) Leg part 80
    Insulating ring parts 40 are not limited to (1) and (2) above.
    Pin 50
    The pin 50 is for fixing the insulating ring 40 to the base 20 as it is inserted in the insulating ring
    9/21
    40, as illustrated in figures 1 to 4, and constitutes the leg element. Pin 50 is integrally molded with a synthetic resin having an appropriate degree of elasticity and rigidity.
    A pin is illustrated as the leg element, but the leg element is not limited to that.
    Specifically, pin 50 has the following parts, as shown in figures 15 to 21.
    The following (1) and (2) should be described.
    (1) Shaft part 90 (2) Flange 100
    Insulating ring parts 40 are not limited to (1) and (2) above.
    Gasket 60
    The gasket 60 is positioned between the base 20 and the insulating ring 40 as shown in figure 1, and is to prevent water intrusion from the installation hole 21 of the base 20. The gasket 60 is formed with a material with elasticity and , for example, is formed into a square plate shape. A central square hole 61, conforming to the external shape of the leg part 80 of the insulating ring 40 to be described, is formed in the center of the gasket 60, extending through from the top to the bottom.
    Necklace-shaped part 70
    The collar-shaped part 70 forms a portion of the bumper retainer (not shown), and contacts the base 20, as illustrated in figures 1 to 4.
    Specifically, the collar-shaped part 70 is formed into an oblong disc shape in a flat section, and the outside diameter is adjusted larger than the inside diameter of the installation hole 21 of the base 20.
    The collar-shaped part 70 is configured as a portion of the bumper retainer, but the present invention is not limited to this, and the collar-shaped portion 70 can be formed separately from the bumper retainer. In addition, the collar-shaped part 70 is placed directly in contact with the base, but the present invention is not limited to this, and the collar-shaped part 70 can be placed indirectly in contact with the base 20 via the bumper retainer in the case when configured separately from the bumper retainer.
    The collar-shaped part 70 has the following parts, as illustrated in figures 7 to 14.
    The following (1) to (3) should be described.
    (1) Direct hole 71 (2) Wall part 72 (3) Projected wall 73
    10/21
    The parts of the collar-shaped part 70 are not limited to (1) to (3) above.
    Straight hole 71
    The straight hole 71 is for the shaft part 90 of the pin 50 to be inserted through, as illustrated in figures 1 to 4.
    Specifically, the straight hole 71 is formed in a circular shape in the center of the collar-shaped part 70, and extends through from the top to the bottom, that is, in the vertical direction in figure 1.
    Wall part 72
    The wall portion 72 extends in the direction of the insertion direction of the pin 50, as illustrated in figures 1 to 4.
    Specifically, the wall part 72 is centered in the direct hole 71, it is molded in an annular rib shape being of a larger size, and it projects from an upper phase of the collar-shaped part 70. The wall part 72 is formed in a trapezoidal shape in section with an inclined surface 74 being oriented towards the center of the direct hole 71. The inclined surface 74 is positioned on an internal wall, more specifically an internal side face, of the wall part 72, and is inclined downward in the direction of straight hole 71. Furthermore, an upper face 75, being an upper face of the wall part 72, is formed in parallel with an upper face of the wall part 72, and a connecting part 76 is formed in a corner part between the upper face 75 and the inclined surface 74.
    Projected wall 73
    The projected wall 73 is positioned between the straight hole 71 and the wall part 72 as shown in figures 2 and 22, and contacts a projected part 103 formed on a lower side of the pin flange 100 when the pin 50 to be described is rotated to guide in the direction that the shaft part 90 of the pin 50 exits the straight hole 71.
    Specifically, four projected walls 73 are formed radially centered in the direct hole 71, projecting from the upper face of the collar-shaped part 70 and being formed in symmetrical shapes with respect to the front to back in the circumferential direction of the collar-shaped part 70 Each projected wall 73 is formed in the shape of an “arrowhead” or “arrowhead” in a flat section, and a pointed triangular-shaped tip of the tip part of the “arrowhead” or “arrowhead” is oriented to the direct hole 71. Sloping surfaces 77 and 77, being positioned in the front and back in the circumferential direction and being inclined in a tapered shape, are formed on both sides of the triangular tip part of the projected wall 73.
    The projected wall 73 contacts the projected part 103 projecting from a lower face of the flange 100 of the pin 50 to be described. That is, when the shaft part 90 of the pin 50 is inserted deeply into the straight hole 71 of the insulating ring 40, the projected part 103 that
    11/21 projects from the bottom face of the flange 100 is positioned on the top face of the collar-shaped part 70. When the pin 50 is rotated in this state, the projected part 103 and the projected wall 74 protrude from the face upper part of the collar-shaped part 70 contact each other. When the pin 50 is further rotated, the flange 100 of the pin 50 is guided in the floating direction upwards from the upper face of the collar-shaped part 70 of the insulating ring 40 by the contact between an inclined surface 104, to be described, from the part projected 103 and any inclined surface 77 of the inclined surfaces 77 and 77 on both sides of the projected wall 73.
    Leg part 80
    The leg part 80 is suspended downwards from the periphery of the direct hole 71, and has a plurality, for example, a total of four, first and second elastic leg pieces 110 and 120 to couple with the hole edge of the hole installation 21 supplied on base 20 by inserting pin 50, as shown in figures 3, 4 and 8. Leg part 80 is formed with a total of four first and second elastic leg pieces 110 and 120 being arranged in a shape square tubular, and the inner part of the tube connects through the direct hole 71, as illustrated in figures 8 and 12.
    A total of four elastic leg pieces 110 and 120 are provided, however the present invention is not limited to this, and at least one pair is possible.
    In addition, the external shape of the leg part 80, being configured with a total of four first and second elastic leg pieces 110 and 120, almost matches the internal shape of the installation hole 21 of the base 20.
    Two first elastic leg pieces 110 out of a total of four first and second elastic leg pieces 110 and 120 are mutually opposite at a distance, and a first vertically extended rib-shaped relief part 111 is provided on each of the mutually opposite inner faces , as illustrated in figures 8.12 and 13.
    The first elastic leg pieces 110 are inserted into the installation hole 21 of the base 20, and in that state, the axis part 90 of the pin 50 to be described is inserted through the direct hole 71, whereby the first part in relief in relief rib form 111 is pushed by the outer perimeter of the shaft part 90, whereby the first elastic leg pieces 110 are opened in the direction of being moved apart from each other, as shown in figure 4. Therefore, the insulating ring 40 is fixed to the installation hole 21 of the base 20 for retaining the base 20 from the top to the bottom between the bottom face of the collar-shaped part 70 and the open pair of the first elastic leg pieces 110. That is, the bumper retainer it is fixed to the base 20 because the insulating ring 40 is configured as a portion of the bumper retainer (not shown).
    Meanwhile, two second elastic leg pieces 120 out of a total of four first and second elastic leg pieces 110 and 120 are mutually oriented
    12/21 to each other at a distance, and a second relief part in the form of a claw 121, being curved in an L shape in cross section, is provided on each of the mutually opposite inner faces of the forward end parts, as illustrated in figures 8, 12 and 14.
    The second pieces of elastic legs 120 are inserted into the installation hole 21 of the base 20, and in that state, the axis part 90 of the pin 50 to be described is inserted through the direct hole 71, whereby the second part in relief in relief claw shape 121 is adapted to a recessed part 94, to be described, of the shaft part 90, whereby movement in the direction of insertion of the shaft part 90 of the pin 50 is avoided, as illustrated in figure 3.
    Shaft part 90
    The shaft part 90 is suspended downwardly from the flange 100 to be described, as illustrated in figures 15 to 18.
    Specifically, the shaft part 90 is suspended downwardly from the bottom face of the flange 100, the entire body is formed in an approximately square column shape, and an advanced end portion is pointed in a tapered shape.
    The axis part 90 has the following parts, as illustrated in figures 15 to 18.
    The parts of the shaft part 90 are not limited to the following (1) to (6).
    (1) Part of wide diameter 91
    The wide diameter part 91 is positioned in the middle of the stroke of the length of the shaft part 90, and is adjusted to a comparatively wide diameter, as illustrated in figures 15 to 18.
    The wide diameter part 91 opens the first elastic leg pieces 110 by entering the interval of the first elastic leg pieces 110 when the axis part 90 of the pin 50 is inserted into the hollow inner part of the leg part 80 through the direct hole 71, as illustrated in figure 4.
    (2) 92 narrow diameter part
    The narrow diameter part 92 is positioned at the forward end part of the shaft part 90, and is adjusted in a narrower diameter compared to the wide diameter part 91, as illustrated in figures 15 to 18.
    The first elastic leg pieces 110 are not opened in a position where the narrow diameter portion 92 enters the range of the first leg pieces 110, as illustrated in figure 6.
    (3) Part of meat 93
    The meat part 93 is positioned between the wide diameter part 91 and the narrow diameter part 92, and gradually becomes thicker towards the wide diameter part 91 from the narrow diameter part 92, as illustrated in the figures 15 to 18.
    As shown in figure 6, when the shaft part 90 is pushed into the
    13/21 straight hole 71 from a position where the narrow diameter part 92 entered the range of the first elastic leg pieces 110, the first rib-shaped relief parts 111 of the first elastic leg pieces 110 contact the meat 93. When the shaft part 90 is pushed inwardly further, the first rib-shaped relief parts 111 of the first elastic leg pieces 110 are pushed by the outer perimeter of the meat part 93 because the meat part 93 becomes gradually thicker towards the wide diameter part 91, and the first elastic leg pieces 110 therefore increase in diameter and reach the wide diameter part 91 as shown in figure 4.
    (4) Lowered part 94
    The recessed part 94 is formed in the wide diameter part 91 and sinks in a recessed form as illustrated in figures 15 to 18.
    The second claw-raised second part 121 of the second elastic leg piece 120 is adapted in the lowered part 94, whereby movement in the axial direction of the axis part 90 of the pin 50 against the insulating ring 40 is avoided, as illustrated in figure 3.
    (5) Slip prevention part 95
    The out-sliding prevention part 95 is positioned on the forward end part of the shaft part 90 adjacent to the narrow diameter part 92, is thicker than the narrow diameter part 92, and extends in an umbrella shape tapered or conical shape, as illustrated in figures 15 to 18.
    The slip-out prevention part 95 contacts the first rib-shaped relief parts 111 of the first elastic leg pieces 110 when the shaft part 90 of the pin 50 is inserted into the hollow inner part of the leg part 80 by means of through the bore 71, and passes through the gap of the first embossed parts 111 in a way to push to open the first elastic leg pieces 110. When the sliding prevention part 95 passes through the gap of the first embossed parts 111, the first elastic leg pieces 110 return by the resin's return force, whereby the shaft part 90 is prevented from sliding out.
    At the same time, the slip-out prevention part 95 contacts the second claw-raised embossed parts 121 of the second elastic leg pieces 120, and passes through the gap of the second embossed parts 121 in a way to push to I opened the second elastic leg pieces 120. When the slippage prevention part 95 passes through the gap of the second embossed parts 121, the second elastic leg pieces 120 return by the resin's return force, so the axis 90 is prevented from sliding out.
    (6) Guide rib 96
    A total of four guide ribs 96 are formed following the axial direction of the
    14/21 axis 90, extending radially from the center of the axis part 90, as illustrated in figures 15 to 18.
    The guide ribs 96 are adapted within the clearances between first adjacent elastic leg pieces 110 and second elastic leg pieces 120 when the shaft part 90 of the pin 50 is inserted into the hollow inner part of the leg part 80 through the straight hole 71 , so that the shaft portion 90 of the pin 50 within the hollow inner portion of the leg portion 80 does not inadvertently rotate.
    Flange 100
    The flange 100 extends in a disc shape from the upper end portion of the shaft portion 90, and its outside diameter is adjusted greater than the inside diameter of the straight hole 71.
    Specifically, flange 100 has the following parts, as shown in figures 15 to 19.
    The flange parts 100 are not limited to the following (1) to (3).
    (1) Elastic body 101
    The elastic body 101 is thinly formed, extending in a straight shape from the outer perimeter of the flange 100, as illustrated in figures 17 and 18.
    Specifically, the elastic body 101 extends in an annular form from the underside of the flange 100. In the case when the thickness of the flange 100 is adjusted by 2 mm, for example, the thickness of the elastic body 101 is adjusted by an eighth, being 0.25 mm.
    The elastic body 101 contacts the projected wall 73 projecting from the upper face of the collar-shaped part 70 of the insulating ring 40. That is, when the shaft part 90 of the pin 50 is inserted into the direct hole 71 of the ring insulator 40, the lower face of the elastic body 101 contacts the upper face 75 with the upper wall of the wall part 72 projecting from the upper face of the collar-shaped part 70. When the axis 90 is inserted more deeply, the lower face of the elastic body 101 is pushed by the angular connection part 76 between the upper face 75 and the inclined surface 74 being positioned on the inner side face of the wall part 72, and becomes a backwards curved state as illustrated in figures 3 and 4. In that position where the flange 101 is in the curved back state, as shown in figure 3, the second claw-raised parts 121 of the second elastic leg pieces 120 of the insulating ring 40 are adapted in the parts recesses 94 of the shaft part 90 of the pin 50, whereby movement in the axial direction of the shaft part 90 of the pin 50 against the insulating ring 40 is avoided. Therefore, the state in which the elastic body 101 is pressed against the annular connecting part 76 in the backward curved state is maintained.
    (2) Jig coupling part 102
    The jig coupling part 102, although not shown, is for coupling with,
    15/21 for example, a “+” (more) screwdriver or other template, and it has, for example, a + (more) screwdriver.
    A screwdriver is illustrated as an example of a template, but [the present invention] is not limited to that. In addition, the template coupling portion 102 is not limited to a + slot.
    (3) Projected part 103
    The projected part 103 is positioned on the underside of the flange 100, protrudes outwardly in the radial direction from the outer perimeter of the shaft part 90, and has at least one inclined surface 104, as illustrated in figures 15, 17 and 20.
    Specifically, the projected part 103 is formed in a triangular column shape, and the inclined surface 104 is oriented in the direction of the outer perimeter of the axis part 90. A pair of projected parts 103 is formed in the direction of the diameter of the axis part 90 .
    A pair of projected parts 103 is formed, but the present invention is not limited to this, and one or three or more can be formed. In addition, an inclined surface 104 is formed on one side in the circumferential direction of the flange 100, but the present invention is not limited to this, and although not illustrated, two Inclined surfaces can be formed on both sides in the circumferential direction of the flange 100, and the projected parts 103 can be formed in symmetrical shapes with respect to the front to the rear in the circumferential direction of the flange 100. Thus, by forming the projected parts in symmetrical shapes with respect to the front to the rear in the circumferential direction, the production of pin 50 is made simple and convenient, and directionality in the method of rotation of pin 50 is eliminated, so operability can be improved.
    The projected part 103 contacts the projected wall 73 which protrudes from the upper face of the collar-shaped part 70 of the insulating ring 40, as shown in figure 22. That is, when the axis part 90 of the pin 50 is inserted deep in the straight hole 71 of the insulating ring 40, the projected part 103 projecting from the lower face of the flange 100 is positioned on the upper face of the collar-shaped part 70. When the pin 50 is rotated in this state, the projected part 103 and the projected wall 73 projecting from the upper face of the collar-shaped part 70 come into contact with each other. When the pin 50 is further rotated, the flange 100 of the pin 50 is guided in the floating direction upwards from the upper face of the collar-shaped part 70 of the insulating ring 40 by the contact between the inclined surface 104 of the projected part 103 and any inclined surface 77 of the inclined surfaces 77 and 77 on both sides of the projected wall 73.
    Installation method of clamp 30
    The method of installing the clamp 30 including the insulating ring 40 and the pin 50 having the above configuration is described below.
    16/21
    First, pin 50 and gasket 60 are mounted in advance on the insulating ring 40.
    Insulating ring 40 can be installed with pin 50 and gasket 60 when installing on base 20.
    First, the leg part 80 of the insulating ring 40 is correctly inserted into the central hole 61 of the gasket 60, and the gasket 60 is positioned under the underside of the collar-shaped part 70.
    Next, the shaft part 90 of the pin 50 is correctly inserted into the straight hole 71 of the insulating ring 40 as illustrated in figures 5 and 6.
    When the shaft part 90 of the pin 50 is inserted, the shaft part 90 of the pin 50 is inserted into the hollow inner part of the leg part 80 through the straight hole 71. Thereafter, the slip prevention part 95 in the forward end part of the shaft part 90 it contacts the first raised parts 111 of the first elastic leg pieces 110 and the second raised parts 121 of the second elastic leg pieces 120, and passes through the gap of the first raised parts 111 and the interval of the second embossed pates 121 in a pushing way to open the first elastic leg pieces 110 and second embossed parts 121, and first embossed parts 111 and second embossed parts 121 are positioned in the narrow diameter part 92 the shaft part 90. Therefore, the shaft part 90 does not slide out from the hollow inner part of the leg part 80, and the pin 50 is provisionally fixed to the insulating ring 40.
    Next, the leg part 80 of the insulating ring 40 is correctly inserted into the installation hole 21 of the base 20 as illustrated in figures 3 and 4.
    When the leg part 80 of the insulating ring 40 is inserted, the lower face of the collar-shaped part 70 contacts the upper surface of the base 20 by means of the gasket 60.
    After that, the flange 100 of the pin 50 is pushed into the insulating ring 40 as illustrated in figures 3 and 4.
    When the pin 50 is pushed in, the shaft part 90 advances through the hollow inner part of the leg part 80, and the first elastic leg pieces 110 of the insulating ring 40 are pushed to open by the wide diameter part 91, by that the outer diameter of the leg part 80 of the insulating ring 40 is opened as shown in figure 4. Therefore, the insulating ring 40 is fixed to the installation hole 21 of the base 20 by retaining the base 20 from the top to the bottom between the bottom face of the collar-shaped part 70 and the open pair of the first elastic leg pieces 110. That is, the bumper retainer is fixed to the base 20 because the insulating ring 40 is configured as a portion of the retainer. bumper (not shown).
    At the same time, the second claw-raised relief parts 121 of the second elastic leg pieces 120 of the insulating ring 40 are fitted within the pairs.
    17/21 countersinks 94 of the pin 50 as illustrated in figure 3, whereby movement in the direction of insertion of the axis part 90 of the pin 50 is avoided.
    Meanwhile, the elastic body 101 of the pin 50 contacts the projected wall 73 that protrudes from the upper face of the collar-shaped part 70 of the insulating ring 40 as illustrated in figures 3 and 4. That is, when the axis part 90 of the pin 50 is inserted into the straight hole 71 of the insulating ring 40, the lower face of the elastic body 101 contacts the upper face 75 and the upper face of the wall part 72 protrudes from the upper face of the collar-shaped part 70. When the shaft part 90 is inserted more deeply, the lower face of the elastic body 101 is pushed by the angular connection part 76 between the upper face 75 and the inclined surface 74 being positioned on the inner side face of the wall part 72, and lies in a backward curved state. In that position where the elastic body 101 is in the curved back state, as shown in figure 3, the second claw-raised parts 121 of the second elastic leg pieces 120 of the insulating ring 40 are fitted into the recessed parts 94 of the axis 90 of the pin 50, whereby movement in the axial direction of the axis part 90 of the pin 50 against the insulating ring 40 is avoided. Therefore, the state in which the elastic body 101 is pressed against the angled connecting part 76 in the backward curved state is maintained.
    Staple removal method 30
    The method of removing the installed clamp 30, on the other hand, is described.
    Although not illustrated, a “+” screwdriver (plus) or other template is coupled to the template coupling part 102, with a + (more) slot on pin 50, and flange 100 on pin 50 is rotated in one direction, for example, counterclockwise.
    When the flange 100 of the pin 50 is rotated, the projected part 103 projecting from the bottom face of the flange 100 contacts the projected wall 73 which protrudes from the top face of the collar-shaped part 70.
    When the flange 100 of the pin 50 is further rotated, as shown in figure 22, the flange 100 of the pin 50 is guided in the upward floating direction from the upper face of the collar-shaped part 70 of the insulating ring 40 by the contact between the inclined surface 104 of the projected part 103 and any inclined surface 77 of the inclined surfaces 77 and 77 on both sides of the projected wall 73.
    When the flange 100 of the pin 50 rises, the shaft part 90 moves in the direction of exit from the hollow inner part of the leg part 80, that is, upwards, whereby the second claw-raised parts 121 of the second pieces elastic leg straps 120 of the insulating ring 40, having been fitted into the recessed parts 94 of the shaft 90, are uncoupled. Therefore, the first elastic leg pieces 110 of the grommet 40 move from the wide diameter part 91 to the narrow diameter part 92 of the shaft part 90, whereby the outer diameter of the leg part 80 of the grommet 40 contracts.
    18/21
    Therefore, the leg portion 80 of the insulating ring 40 can be pulled out of the installation hole 21 of the base 20.
    At that moment, the pin 50 maintains the state of being provisionally fixed to the insulating ring 40.
    Second modality
    A second embodiment of the present invention is described below using figure 23.
    A feature of the present embodiment is that a projected wall 200 protruding from the upper face of the collar-shaped part 70 of the Insulating ring 40 is formed as a flat oblong section, as illustrated in figure 23.
    The oblong projected wall 200 has a symmetrical shape with respect to the front to the rear in the circumferential direction of the collar-shaped part 70.
    Also, in the description of the present embodiment, the same symbols are used for the same portions of the configuration as in the first embodiment previously described using figures 1 to 22, and the descriptions are omitted.
    Third modality
    A third embodiment of the present invention is described below using figure 24.
    A feature of the present embodiment is that a projected wall 210 that protrudes from the upper face of the collar-shaped part 70 of the insulating ring 40 is formed as a rectangle in a flat section, as illustrated in figure 24.
    The rectangular projected wall 210 has a symmetrical shape with respect to the front to the rear in the circumferential direction of the collar-shaped part 70.
    The projected wall 73 is formed in the shape of an "arrowhead" or "arrow mark" in a flat section in the first embodiment previously described using figures 1 to 22, the projected wall 200 is formed as an oblong in a flat section in the second modality described using figure 23, and the projected wall 210 is formed as a rectangle in flat section in the present modality, however [the present invention] is not limited to these formats, since it is sufficient that the projected walls 73, 200, and 210 have symmetrical shapes with respect to the front to the rear in the circumferential direction of the collar-shaped part 70.
    In addition, in the description of the present embodiment, the same symbols are used for the same portions of the configuration as in the first embodiment, and descriptions are omitted.
    Fourth modality
    A fourth embodiment of the present invention is described using figures 25 and
    26.
    19/21
    A feature of the present embodiment is that a wall part 400 projected from the top face of the collar-shaped part 70 of the insulating ring 40 is formed in a step shape as illustrated in figures 25 and 26, instead of being in a rib shape as in the wall part 72 in the first embodiment previously described using figures 1 to 22.
    That is, the wall part 400 is configured with an inclined surface 401 being tilted diagonally upward in the direction of the outer perimeter from the upper face of the collar-shaped part 70, an upper face 402 being an upper face of the wall part 400, and a connecting part 403 being positioned in a corner part between the inclined surface 401 and the upper face 402.
    In addition, in the description of the present embodiment, the same symbols are used for the same portions of the configuration as in the first embodiment, and descriptions are omitted.
    Fifth modality
    A fifth embodiment of the present invention is described below using figures 27 to 32.
    A characteristic of the present modality is that the “projected part 103” and the “inclined surface 104” of the pin 50 (leg element) of the first modality previously described using figures 1 to 22 are omitted, and in place of these, a “ lock release part 500 "is formed in the circumferential direction of the lowered part 94 of pin 50 (leg element), and the lock release part 500 is made as a" projected part ", as illustrated in figures 27 and 29 a 32.
    Second, a characteristic of the present modality is that the “projected wall 73” and the “inclined surface 77” of the insulating ring 40 (installation element) of the first modality described above are omitted, and in place of these, the “second part in relief 121 ”of the second piece of elastic leg 120 of the insulating ring 40 (installation element) is also used as a“ projected wall ”, as illustrated in figures 27 to 32.
    A plurality of lock release parts 500 are provided radially, for example, a total of four at 90 degree intervals, in the circumferential direction of the axis portion 90 of pin 50, as illustrated in figures 31 and 32. In addition, the lock release parts 500 are positioned between the wide diameter part 91 and the narrow diameter part 92 of the shaft part 90, and extend in the axial direction of the shaft part 90, as illustrated in figures 27, 29 and 30.
    An inclined surface 501, contracting in diameter towards the narrow diameter part 92, i.e., being inclined downwards, is formed on the external side face of the lock release part 500, as illustrated in figure 30.
    20/21
    Four lock release parts 500 are provided, however [the present invention] is not limited to this, and one, two, three, or five or more can be provided.
    In addition, in the description of the present embodiment, the same symbols are used for the same portions of the configuration as in the first embodiment, and descriptions are omitted.
    Installation method of clamp 30
    The method of installing the clamp 30 including the insulating ring 40 and the pin 50 having the above configuration is first described.
    When the shaft part 90 of the pin 50 is inserted into the straight hole 71 of the insulating ring 40, the second claw-raised parts 121 of the second elastic leg pieces 120 are fitted into the recessed parts 84 of the shaft part 90 and are thereby locked, as illustrated in figures 29 and 31, and movement in the direction of insertion of the shaft part 90 of the pin 50 is avoided.
    At that time, the lower face of the elastic body 101 of the pin 50 is pushed by the wall part 72 that protrudes from the upper face of the collar-shaped part 70 of the insulating ring 40 and is in a curved back state, as illustrated in figure 29.
    In addition, in the present embodiment, although not shown, the first elastic leg pieces 110 of the insulating ring 40 are opened whereby the insulating ring 40 is attached to the base 20, as illustrated in figure 4 previously described in the first embodiment.
    Staple removal method 30
    The method of removing the installed clamp 30 is described below.
    When the flange 100 of the pin 50 is rotated 45 degrees, the second raised, claw-shaped parts 121 having been adapted in the recessed parts 94 of the shaft part 90 move from the recessed parts 94 to the lock release parts 500, and move upwards in the lock release parts 500, as shown in figures 29, 30 and 32.
    At that moment, as illustrated in figure 29, a first force F1 lifting the pin 50 appears due to a repulsion Fx of the elastic body 101 in the backward curved state, and the locked state is released.
    Therefore, movement in the axial direction of the shaft portion 90 of the pin 50 is made possible, and the shaft portion 90 moves in the direction of exiting the hollow inner portion of the leg portion 80, i.e., upward. At that time, the second raised, claw-like parts 121 move towards the narrow diameter part 92 of the shaft part 90, and can no longer return to the lowered pates 94.
    At the same time, the second raised, claw-like parts 121 contact the inclined surfaces 501 of the latch release parts 500 when moving upward on the latch release parts 500, as shown in Figure 30.
    At that moment, as illustrated in figure 30, a second force F2 that raises the
    21/21 pin 50 originates on the inclined surfaces 501 due to a Fy repulsion of the claws, and the locked state is released.
    In the present mode, as the angle of inclination of the inclined surfaces 501 is smoothly adjusted, the locked state cannot be released by the second force F2 alone, however the locked state is released by a force combined with the first force F1 (F1 + F2) . It is also possible to make the angle of inclination of the inclined surfaces 501 as a steep gradient, so that the locked state can be released by the second force F2 alone.
    All contents of the specification, claims, drawings, and summary of Japanese patent application no. 2010-10-2506 filed on April 27, 2010 are incorporated by reference here as a disclosure of the specification of the present invention.
    权利要求:
    Claims (2)
    [1]
    1. Clamp (30) adapted to fix an element, comprising:
    an insulating ring (40) having a necklace-like part (70), a leg part (80) suspended below the necklace-like part (70), and a direct hole (71) extending through the shaped part collar (70) to the leg part (80); and a pin (50) having an axle part (90) capable of expanding out of the leg part (80) by being inserted into the straight hole (71), and a flange part extending from the axle part (90 ) and having a larger diameter than the direct hole (71);
    CHARACTERIZED by the fact that between the leg part (80) and the axle part (90), a recessed part (94) and a raised part are provided either anywhere, the recessed part (94) and the embossed part snugly joining together in a state where the leg part (80) is able to expand outwardly, to prevent movement in an axial direction of the axle part (90) in the direct bore (71), in a circumferential direction of the recessed part (94), a latch release part (500) is provided to elastically contact the raised part released from the recessed part (94) and allow movement in the axial direction of the shaft part (90) in the direct hole (71 ) when the flange (100) is rotated in a state where the recessed part (94) and the raised part are fitted together; and the lock release part (500) is provided with an inclined surface (501) which induces in a direction to release the shaft part (90) from the direct hole (71) using an elastic return force of the elasticly embossed part contacting the latch release part (500).
    [2]
    2. Clamp (30) adapted to fix an element, comprising:
    an insulating ring (40) having a collar part (70), a leg part (80) suspended downward from the collar part (70), and a straight hole (71) extending through the part in the form of a collar (70) up to the leg part (80); and a pin (50) having an axle part (90) capable of expanding out of the leg part (80) by being inserted into the straight hole (71), and a flange part extending from the axle part (90 ) and having a larger diameter than the direct hole (71);
    CHARACTERIZED by the fact that between the leg part (80) and the axle part (90), a recessed part (94) and a raised part are provided either anywhere, the recessed part (94) and the embossed part snugly fitting together in a state where the leg part (80) is able to expand outwardly, to prevent movement in an axial direction of the axle part (90) in the straight hole (71), a release part lock (500) is provided in a circumferential direction
    Petition 870190041487, of 5/2/2019, p. 7/8
    2/2 of the recessed part (94) to allow movement in the axial direction of the axis part (94) in the direct bore (71) when the flange (100) is rotated in a state where the recessed part (94) and part in relief are joined together, an elastic body (101) having elasticity is provided on a perimeter edge 5 of the flange (100), the collar-shaped part (70) is provided with a wall part (72) to elastically contact the body elastic (101) in a state where the leg part (80) expands outward, and when the flange (100) is rotated in the state where the leg part (80) is capable of expanding outward, by a force of accumulated elastic return in the elastic body (101), the shaft part (90) is induced in one direction to be released from the direct hole (71).
    类似技术:
    公开号 | 公开日 | 专利标题
    BR112012027652B1|2019-08-06|ELEMENT FIXING STRUCTURE AND ELEMENT FIXING CLAMP
    BR112016007324B1|2022-01-04|VEHICLE SEAT SLIDING DEVICE
    BR102015008937B1|2021-01-12|clamping fixture
    CN101772652B|2012-09-05|Clip and support member
    BR112012015639B1|2021-04-20|fastener
    BR112015024208B1|2021-01-19|bag and tip tube joint, method of installation and disassembly
    US20050152765A1|2005-07-14|Fastener for panels or the like
    BR112014020563B1|2020-11-24|BINDER FOR FIXING BUMPER
    JP2004156722A|2004-06-03|Connector having male part for regular fixing
    JP2014211224A|2014-11-13|Hole plug
    US20160265571A1|2016-09-15|Clip and fastening structure
    BRPI0921402B1|2019-04-24|FIXING CLAMP WITH WASHER WASHER
    ES2403358T3|2013-05-17|Lockable connection device for fluid transfer, and its blocking procedure
    JP4614287B2|2011-01-19|Mounting structure using clips
    CN105531487B|2018-01-23|Anchoring device
    BR102015017047A2|2016-03-01|component set
    ES2795324T3|2020-11-23|Clamping system with easy disassembly for electrical and / or electronic devices
    JP2599734Y2|1999-09-20|clip
    KR100824170B1|2008-04-21|A snap button
    BR102020004600A2|2020-10-13|RIVET TYPE HOLDER
    BR102021007621A2|2021-10-26|FASTENER ASSEMBLY FOR BLIND ASSEMBLY
    JP5485318B2|2014-05-07|Seal structure of vehicle lamp
    RU2017112711A|2018-10-15|SPIKE PIN, PNEUMATIC TIRE, METHOD FOR MANUFACTURING A PNEUMATIC TIRE AND METHOD FOR INSTALLING A SPIKED PIN
    JP2578058Y2|1998-08-06|clip
    JPH0719054Y2|1995-05-01|Fixtures for recessed lighting fixtures
    同族专利:
    公开号 | 公开日
    KR20130004333A|2013-01-09|
    JP5379068B2|2013-12-25|
    EP2565471B1|2018-07-11|
    US20130091669A1|2013-04-18|
    KR101439720B1|2014-09-12|
    WO2011136105A1|2011-11-03|
    CN102869891A|2013-01-09|
    PL2565471T3|2018-12-31|
    JP2011231850A|2011-11-17|
    EP2565471A1|2013-03-06|
    EP2565471A4|2016-03-30|
    BR112012027652A2|2016-08-16|
    US8926244B2|2015-01-06|
    CN102869891B|2014-12-03|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4674930A|1981-12-14|1987-06-23|Hartwell Corporation|Stand-off fastener|
    JPS645048Y2|1982-12-13|1989-02-08|
    JPH0645048Y2|1988-05-13|1994-11-16|日産自動車株式会社|Plastic rivets|
    JP2512362Y2|1990-09-06|1996-10-02|株式会社ニフコ|Fastener|
    JP2578069Y2|1991-03-11|1998-08-06|株式会社ニフコ|Grommet|
    JP3251775B2|1994-06-15|2002-01-28|株式会社ニフコ|clip|
    JP3297972B2|1995-04-17|2002-07-02|株式会社パイオラックス|Securing clip|
    CN2285846Y|1995-12-10|1998-07-08|许越男|Expansion nail|
    US6182482B1|1997-11-18|2001-02-06|Aegis Research|Tamper proof lock assembly and key|
    JP4460192B2|2001-05-17|2010-05-12|株式会社ニフコ|clip|
    FR2882797B1|2005-03-02|2007-05-25|Itw De France Soc Par Actions|ATTACHMENT ADAPTED TO BE FIXED IN A PREDETERMINE CONTOUR CAVITY|
    JP5243749B2|2007-08-09|2013-07-24|株式会社ニフコ|Clip and support member|
    JP5145129B2|2008-06-24|2013-02-13|株式会社ニフコ|clip|
    JP5319586B2|2010-03-24|2013-10-16|株式会社ニフコ|Fastening structure for parts and clip used therefor|US9812684B2|2010-11-09|2017-11-07|GM Global Technology Operations LLC|Using elastic averaging for alignment of battery stack, fuel cell stack, or other vehicle assembly|
    US9618026B2|2012-08-06|2017-04-11|GM Global Technology Operations LLC|Semi-circular alignment features of an elastic averaging alignment system|
    US9463538B2|2012-08-13|2016-10-11|GM Global Technology Operations LLC|Alignment system and method thereof|
    DE102012016362B4|2012-08-17|2018-09-20|Bayerische Motoren Werke Aktiengesellschaft|mounting clip|
    US9556890B2|2013-01-31|2017-01-31|GM Global Technology Operations LLC|Elastic alignment assembly for aligning mated components and method of reducing positional variation|
    US9388838B2|2013-04-04|2016-07-12|GM Global Technology Operations LLC|Elastic retaining assembly for matable components and method of assembling|
    US9278642B2|2013-04-04|2016-03-08|GM Global Technology Operations LLC|Elastically deformable flange locator arrangement and method of reducingpositional variation|
    US9447840B2|2013-06-11|2016-09-20|GM Global Technology Operations LLC|Elastically deformable energy management assembly and method of managing energy absorption|
    US9488205B2|2013-07-12|2016-11-08|GM Global Technology Operations LLC|Alignment arrangement for mated components and method|
    US9303667B2|2013-07-18|2016-04-05|Gm Global Technology Operations, Llc|Lobular elastic tube alignment system for providing precise four-way alignment of components|
    US9458876B2|2013-08-28|2016-10-04|GM Global Technology Operations LLC|Elastically deformable alignment fastener and system|
    US9463831B2|2013-09-09|2016-10-11|GM Global Technology Operations LLC|Elastic tube alignment and fastening system for providing precise alignment and fastening of components|
    US9457845B2|2013-10-02|2016-10-04|GM Global Technology Operations LLC|Lobular elastic tube alignment and retention system for providing precise alignment of components|
    US9511802B2|2013-10-03|2016-12-06|GM Global Technology Operations LLC|Elastically averaged alignment systems and methods|
    US9669774B2|2013-10-11|2017-06-06|GM Global Technology Operations LLC|Reconfigurable vehicle interior assembly|
    US9481317B2|2013-11-15|2016-11-01|GM Global Technology Operations LLC|Elastically deformable clip and method|
    ES2596409T3|2013-12-02|2017-01-09|Aesculap Ag|Safety seal for sterile medical container|
    US9447806B2|2013-12-12|2016-09-20|GM Global Technology Operations LLC|Self-retaining alignment system for providing precise alignment and retention of components|
    US9428123B2|2013-12-12|2016-08-30|GM Global Technology Operations LLC|Alignment and retention system for a flexible assembly|
    US9599279B2|2013-12-19|2017-03-21|GM Global Technology Operations LLC|Elastically deformable module installation assembly|
    US9446722B2|2013-12-19|2016-09-20|GM Global Technology Operations LLC|Elastic averaging alignment member|
    US9541113B2|2014-01-09|2017-01-10|GM Global Technology Operations LLC|Elastically averaged alignment systems and methods|
    US9428046B2|2014-04-02|2016-08-30|GM Global Technology Operations LLC|Alignment and retention system for laterally slideably engageable mating components|
    FR3020099B1|2014-04-16|2017-08-18|Illinois Tool Works|CLAMP FOR ATTACHING A PANEL TO A SUPPORT, METHOD FOR CARRYING OUT THE SAME, AND AUTOMOTIVE EQUIPMENT|
    US9657807B2|2014-04-23|2017-05-23|GM Global Technology Operations LLC|System for elastically averaging assembly of components|
    JP5717221B1|2014-05-14|2015-05-13|株式会社アイ・ディ・エス|Connector|
    US9429176B2|2014-06-30|2016-08-30|GM Global Technology Operations LLC|Elastically averaged alignment systems and methods|
    US9528540B2|2014-08-12|2016-12-27|Newfrey Llc|Insertion-locking pin and grommet and related methods|
    CN106795894A|2014-08-27|2017-05-31|罗伯特·博世有限公司|Push type heat/spilling shielding part and the engine cooling fan assembly with the push type heat/spilling shielding part|
    US9758110B2|2015-01-12|2017-09-12|GM Global Technology Operations LLC|Coupling system|
    US10107319B2|2015-03-02|2018-10-23|GM Global Technology Operations LLC|Elastically averaged alignment systems and methods|
    JP6446741B2|2015-03-10|2019-01-09|ポップリベット・ファスナー株式会社|Fastening and fastening structure|
    JP6552376B2|2015-10-16|2019-07-31|パラマウントベッド株式会社|Fixing member of bed side fence|
    US10215213B2|2016-10-04|2019-02-26|Liberty Hardware Mfg. Corp.|Quick-disconnect fastening system|
    DE102017010602A1|2017-11-16|2019-05-16|A. Raymond Et Cie|fasteners|
    US10900513B2|2019-04-02|2021-01-26|Newfrey Llc|Re-usable one-push pin and grommet fastener|
    KR102022993B1|2019-05-02|2019-09-19|최광수|Ultrasonic welding machine|
    CN113497370B|2021-09-06|2021-11-19|常州协和光电器件有限公司|Well-fixed circuit board assembly|
    法律状态:
    2018-12-26| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-03-06| B06T| Formal requirements before examination [chapter 6.20 patent gazette]|
    2019-07-09| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2019-08-06| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 20/04/2011, OBSERVADAS AS CONDICOES LEGAIS. (CO) 20 (VINTE) ANOS CONTADOS A PARTIR DE 20/04/2011, OBSERVADAS AS CONDICOES LEGAIS |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2010-102506|2010-04-27|
    JP2010102506A|JP5379068B2|2010-04-27|2010-04-27|Member fastening structure|
    PCT/JP2011/059734|WO2011136105A1|2010-04-27|2011-04-20|Member fastening structure and member fastening clip|
    [返回顶部]