• 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:
    Disclosed is a connector assembly (10, 110) in which a connector part (12) and a cable management part (20) are provided. The cable management part (20) can be provided with a housing (70, 170) that contains a grounding clamp assembly (80, 180) having a first grounding clamp (82, 182) and a second grounding clamp (84, 184) that work together to ensure a ground connection between the connector assembly (10) and a conductive element (5) of a cable (4) through one or more compression springs (160, 162) associates. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2600968A1
    申请号:ES201531199
    申请日:2015-08-13
    公开日:2017-02-13
    发明作者:Longinos de Dios;Antonio CARRERAS GARCÍA
    申请人:TE Connectivity AMP Espana SLU;
    IPC主号:
    专利说明:

    CONNECTOR ASSEMBLY WITH ELASTIC GROUND CONNECTION HOLDING SYSTEM
    BACKGROUND
    Electrical connectors are useful for providing a connection point for telecommunications systems. For example, RJ-type connectors can be provided as wall sockets in which electronic data cables are terminated and complementary electrical sockets can be inserted into the sockets. Frequently, this termination process occurs in the field and in the actual location where the cables that are attached to the connectors are installed. In such cases, it is often necessary to provide a ground connection between the cable and the attached connector.
    SUMMARY
    A connector assembly is disclosed. In one aspect, the connector assembly includes a connector part that has a connection cavity and a cable management part. The cable management part may be configured to be installed inside the connector part to form the connector assembly. The cable management part may include a housing that has a central opening through which a cable having an exposed conductive element, such as a metal shield or sheath, can be extended. The connector assembly may also include a grounding clamp assembly placed in the housing, the grounding clamp assembly including a first clamping element and a second clamping element arranged in opposition. In one aspect, the first and second fixing elements define an opening of the clamp aligned concentrically with the central opening. A first compression spring may be provided which is arranged to exert a force on one or both of the fasteners to push at least one of the grounding clamp elements against the cable conductor element. A second compression spring can also be provided.
    In one aspect, the housing can be placed in a compressed position in which the portions of Clamping the respective first and second grounding clamps are moved against a spring pushing force, such that the central opening is unlocked by the clamping portions to allow a cable to be inserted through an opening defined by the clamping portions. The housing can also be placed in a grounding position in which the clamping portions of the respective first and second grounding clamps are pushed elastically to engage a conductive element of the cable.
    BRIEF DESCRIPTION OF THE DRAWINGS
    Non-limiting and non-exhaustive embodiments are described with reference to the following figures, which do not they are necessarily drawn to scale, in which the reference numbers refer to equal parts in the various views unless otherwise specified.
    Figure 1 is a perspective view of a cable connected to a telecommunications connector that has a connector part and a cable management part that has features that are examples of aspects in accordance with the principles of the present disclosure.
    Figure 2 is a perspective view of the cable part and cable manager shown in Figure 1, shown as being separated from the connector part.
    Figure 3 is a cross-sectional view of the cable and cable manager part shown in Figure 2.
    Figure 4 is a perspective view of the cable management part shown in Figure 1, separated from the cable part and the connector.
    Figure 5 is a front view of the cable management part shown in Figure 4.
    Figure 6 is a cross-sectional view of the cable management part shown in Figure 4.
    Figure 7 is a perspective view of a cable connected to a second embodiment of a telecommunications connector having a connector part and a cable management part that has features that are examples of aspects in accordance with the principles of the present disclosure. .
    Figure 8 is a perspective view of the cable part and cable manager shown in Figure 7, shown as separate from the connector part.
    Figure 9 is a cross-sectional view of the cable and cable manager part shown in Figure 8.
    Figure 10 is a perspective view of the cable management part shown in Figure 7, separated from the cable part and the connector.
    Figure 11 is a front view of the cable management part shown in Figure 10.
    Figure 12 is a cross-sectional view of the cable management part shown in Figure 10.
    Figure 13 is a perspective view of the cable shown in Figures 1 and 7, away from the telecommunications connector.


    Figure 14 is a perspective view of a connecting part that can be used with the cable management part and the cable shown in Figures 1 and 7.
    DETAILED DESCRIPTION
    Several embodiments will be described in detail with reference to the drawings, in which the reference numbers represent similar parts and similar assemblies in all the various views. The reference to various embodiments does not limit the scope of the appended claims. In addition, any example set forth in this specification is not intended to be limiting and merely sets forth some of the many possible embodiments for the appended claims.
    A telecommunication connector 10 is shown for grounding with a cable 4 having a conductive element 5 and a plurality of wires 6. An example of a suitable cable 4 is shown in the figure
    13. As used herein, the term "conductive element" is defined as including any type of conductive element, shield, or sheath disposed on the cable sheath, including metal braids, meshes, sheets, drainage wires, and combinations of the same. In one example, the cable 4 includes a plurality of insulated copper wires 6, for example, four sets of twisted wire pairs, while the connectors 10 are modular or RJ-type connectors. As shown, the telecommunications connector 10 has a connector portion 12 that includes a cavity 14 for receiving a corresponding plug connector (not shown). As can be seen more easily in Figure 14, the connecting part 12 can include a plurality of electrical contact elements 16 for which the electrical connection to the wires 6 is made through a termination and connection process. The connecting part 12 is further provided with a pair of cutting edges 18 that are designed to cut the wires 6 of the cable 4 during the termination process. As shown, the connecting part 12 has conductive side walls 12a, 12b that are formed from a conductive material, such as a metal material. In one aspect, the side walls 12a, 12b each define a respective recess part 12c, 12d. The recess portions 12c, 12d receive and connect to the housing 70 a first and second sides (for example, 72b, 72c), respectively, such that the conductive contact is established between the housing 70 and the side walls 12a, 12b of the connector 10. Accordingly, the connector 10 is grounded to the conductor element of the cable 5 through the housing 70 and the side walls 12a, 12b. An example of a termination process and the appropriate part connector is shown and described in Spanish patent application P201530417, entitled Connector set with grounding spring, filed on March 27, 2015, whose totality is incorporated by reference in the present document.
    The connecting part 12 and the cable management part 20 used in the various embodiments can be configured in a complementary manner, so that the connecting part 12 is capable of engaging with the cable management part 20 only in one orientation. The cable management part 20 may also be provided with a main body to facilitate connection between the conductors in the wires 6 and the contact elements 16.
    With reference to Figures 1-6, a first embodiment of a connector assembly 10 is shown, which includes the housing 70. As presented, the housing 70 is provided with a first housing part 72 and a second housing part 74 , which together define a central opening 76. Once installed, the cable 4 and associated wires 6 extend through the opening 76. With reference to Figure 1, the cable 4 has been stripped to expose the conductive element 5 and eight insulated copper wires 6. Figures 1-3 show the cable 4 inserted in the housing 70, such that the conductive element 5 extends through the opening 76 such that the grounding contact between the conductive element 5 and the housing 70 can be realized through a grounding clamp assembly 80 held by the housing 70, as explained below.
    As can be seen more easily in Figures 3 and 5, the first housing part 72 defines a dimension of the opening D1 that is approximately equal to or slightly larger than a dimension D3 of the cable 4. This configuration allows the cable 4 to enter the central opening 76 through the first housing part 72. The second housing part 74 also has a dimension of the opening D1 on a front face 74a. However, the second housing part 74 has a reduced opening dimension D2 on a rear face 74b, such that the end of the cable 4 rests against a projecting portion 76d of the second housing part 74. This feature ensures that the cable 4 is fully installed in the housing 70 with the conductive element 5 properly aligned with the ground connection assembly 80 of the cable management part 20.
    In one aspect, the first housing part 72 has a front face 72a from which a first side element 72b and a second side element 72c positioned opposite extend. As noted above, the first and second side elements 72b, 72c are received by the recess portions of the connecting part 12c, 12d on the side walls 12a, 12b. The first housing part also includes a third side element 72d and a fourth side element 72e positioned opposite that extend from the front face 72a. Together, the side elements 72b -72d form an interior space in which the second housing part 74 can be received, in which the side walls 74c of the second housing part 74 are coupled and retained by the side elements 72b -72d with the front face 74a of the second housing part 74 adjacent to the front face 72a of the first housing part 72. The first housing part 72 also defines a first opening 72f which is

    extends through a portion of the front face 72a and the third side element 72d. Similarly, the first housing part 72 defines a second opening 72g that extends through a portion of the front face 72a and the fourth side element 72e.
    With reference to FIG. 6, it can be seen more easily that the housing 70 further includes a grounding clamp assembly 80 that is mainly located within the first housing part 72 and is fixed in position by the front face 72a of the first housing part and the front face 74a of the second housing part 74. As shown, the grounding clamp assembly 80 includes a first clamping element 82 and a second clamping element 84 identical and arranged so opposite. It is noted that the first and second fasteners 82, 84 may also have a different shape. As shown, the first fastener 82 includes a fastener portion 82a, a grip portion 82b, and a support portion 82c extending between the fastener portion 82a and the grip portion 82b. Similarly, the second fastener 84 includes a fastener portion 84a, a grip portion 84b, and a support portion 84c extending between the fastener portion 84a and the grip portion 84b. In one aspect, the clamping portions 82a, 84a are provided with a curved or arcuate shape to better engage with the outer perimeter of the cable 4 and the conductive element 5.
    The first holding element 82 is disposed within the first housing part 72 such that the holding portion 82a extends into the central opening 76 and the grip portion 82b extends through the first opening 72f of the first housing part 72. A first spring 60 is provided within the first housing part 72 and extends from a first end 60a which is located against a shoulder 82d of the first fastener 82 to a second end 60b which is against the third side member 72d of the first housing part 72. The spring 60 provides an elastic pushing force in a direction S1 which results in a clamping force against the cable 4, when inserted through the central opening 76.
    Similar to the first clamping element 82, the second clamping element 84 is disposed within the first housing part 72, such that the clamping portion 84a extends into the central opening 76 and the gripping portion 84b extends through the second opening 72g of the first housing part 72. A second spring 62 is provided within the first housing part 72 and extends from a first end 62a which is located against a shoulder 84d of the second holding element 84 to a second end 62b which is against the fourth side member 72e of the first housing part 72. The spring 62 provides an elastic force of thrust in a direction S2 which results in a clamping force against the cable 4, when is inserted through the central opening
    76
    Once fully assembled, the clamping assembly 80 inside the housing 70 is configured such that the first clamping portion 82a and the second clamping portion 84a define an opening 88 with a dimension D4 that can be increased by tightening the gripping portions 82b, 84b of the first and second fasteners 82, 84 in a respective direction F1, F2. To move the fasteners 82, 84 in this direction, sufficient force must be applied to overcome the thrust forces of the spring in the direction S1, S2, respectively. Once the fasteners 82, 84 have been sufficiently displaced in such a way that the dimension of the opening D4 is at least as large as the dimension D3 of the cable, the cable 4 can be inserted through the central opening 76. When an operator releases the fasteners 82, 84, the springs 60, 62 push the respective fasteners 82, 84 against the cable 4 and in ground connection with the conductive element 5, as shown in figures 1
    3. As configured, the fasteners 82, 84 are configured such that the grip portions 82b, 84b extend beyond the side elements 72d, 72e of the first housing part in a fully extended position (ie , there is no cable installed, no force is applied by a user) and in which the grip portions 82b, 84b are flush or recessed with respect to the side elements 72d, 72e when they are in a clamping position around of cable 4. Other configurations are possible.
    In one aspect, the clamp assembly 80 can be configured such that the first and second fasteners 82, 84 and / or the portions 82a, 84a are aligned along the same plane and are coupled together when they are not provides no force on the grip portions 82b, 84b. This configuration allows the fasteners 82, 84 themselves to act as a stop against each other, in which each fastener 82, 84 prevents the other from sliding out of the first housing part through the respective opening 72f, 72g. Other configurations are also possible. For example, a stopper element could be provided in each clamping element 82, 84 that is coupled with a corresponding stopper element in the first and / or second housing part 72, 74. In addition, the clamping elements 82, 84 are they can align along different planes, so that they can move completely beyond each other.
    As shown, the compression springs 60, 62 are helical springs formed from a conductive material, such as a metal (for example, steel, copper, etc.). However, the grounding springs 60, 62 may take the form of other types of springs, provided that the springs provide a pushing force to couple the clamping elements 82, 84 against the conductive element 5 of the cable when inserted the cable through the central opening 76 of the housing 70, as described


    previously. In the example shown, the first housing part 72 is formed of a conductive material, such as a metallic material, so that there is conductive contact between the clamping element 82, 84, the springs 60, 62, the first and second parts housing 72, 74, and the connecting part
    12. In this manner, the housing 70 is capable of providing a grounding path between the conductive element 5 of the cable and the connecting part 12.
    With reference to Figures 7-12, a second embodiment of a connector assembly 110 is presented. As many of the concepts and features are similar to the previous embodiment shown in Figures 1-6, the description of the first embodiment is applicable and It is incorporated by reference in this document for the second embodiment. Where similar or similar features or elements are shown, the same reference numbers will be used whenever possible (for example, reference number 170 instead of reference number 70 for the housing). The following description of the second embodiment is mainly limited to the differences between the second embodiment and the first embodiment described above.
    The second embodiment of the connector assembly 110 is similar to the first embodiment in which the same connector part 12 is used. The second embodiment of the connector assembly is also similar in that a two-part housing 170 is provided including a first housing part 172 and a second housing part 174. The second housing part 174 is generally the same as the second housing part 74. However, the second housing part 174 differs in that the first and second side elements 72b, 72c which are coupled with the connecting part 12 of the first embodiment they are located in the second housing part 174 in the second embodiment and are identified as 174c and 174d.
    The main difference between the second and first embodiments is the configuration of the first housing part 170 and the grounding clamp assembly 180. As shown, the first housing part 170 is configured with a front wall 172a and a wall rear 172b, each of which has an opening dimension D1 that defines the central opening 176. The first housing part also includes a side wall 172d and an opposite side wall 172e extending through the front and rear walls 172a , 172b and beyond the rear wall 172b to provide a coupling surface for the side walls 174c of the second housing part 174. The housing part further defines a first opening 172f and an opposite second opening 172g that extend between the front and rear walls 172a, 172b and between the side walls 172d, 172e.
    As shown more easily in Figure 12, the clamping assembly 180 includes a first clamping element 182 and a second clamping element 184 identical and arranged in opposition. It is noted that the first and second fasteners 182, 184 may also have a different shape. As shown, the first fastener 182 includes a fastener portion 182a, a grip portion 182b, and a pair of spring support portions 182c. Similarly, the second fastener 184 includes a clamp portion 184a, a grip portion 84b, and a pair of spring support portions 184c. In one aspect, the clamping portions 182a, 184a are provided with a circular opening having a dimension D5, which allows the clamping portions 182a, 184a to better engage with the outer perimeter of the cable 4 and the conductive element 5. As shows, dimension D5 is approximately equal to dimension D1of the central opening 176.
    The first fastener 182 is disposed within the first housing part 172 between the walls 172a, 172b such that the fastener portion 182a extends into the central opening 176 and the grip portion 182b extends through the first opening 172f of the first housing part 172. The second holding portion 184a is arranged adjacent to the first holding portion 182a between the walls 172a, 172b, such that the holding portion 184a also extends into the central opening 176 and the grip portion 184b extends through the second opening 172g of the first housing part 172. To facilitate this construction, the clamping portions 182a, 184a may be provided with a thickness that is approximately half of the thickness of the grip portions 182b, 184b from which they extend.
    A first spring 160 is provided within the first housing part 172 and extends from a first end 160a that is against the support portion 182c of the first fastener 182 to a second end 160b that is against the support portion 184c of the second fastener 184. A second spring 162 is also provided on the opposite side of the fastener portions 182a, 184a and is mounted between the support portions 182c, 184c at a respective first end 162a and second end 162b. Each of the support portions 182c, 184c may be provided with a projection 182d, 184d that engages the end of the springs 160, 162. The projections 182d, 184d can function to guide the springs 160, 162 in an appropriate manner and / or to hold the clamping assembly 180 together. The first housing part may also be provided with one or more stop elements to prevent the fasteners 182, 184 undesirably from falling out of the openings 172f, 172g.
    As configured, the springs 160, 162 push the first and second clamping portions 182a, 184a away from each other, such that the resulting overlapping opening 188 defined by the clamping portions 182a, 184a, which has a dimension D4, is minimizes When a user squeezes the portions of the fastener 182a, 184a passed between them through the grip portions


    182b, 184b, dimension D4 is increased. To move the fasteners 182, 184 in this direction, sufficient force must be applied to overcome the elastic thrust of the forces generated by the springs 160, 162. Once the fasteners 182, 184 have sufficiently displaced from such so that the opening dimension is D4, at least as large as the dimension D3 of the cable, the cable 4 can be inserted through the central opening 176. When an operator releases the fasteners 182, 184, the springs 160, 162 push the respective fasteners 182, 184 against the cable 4 and the ground connection in contact with the conductive element 5, as shown in Figures 7-9. As configured, the fasteners 182, 184 are configured such that the grip portions 182b, 184b are flush with the side openings 172f, 172g of the first housing part 172 in a fully extended position (i.e., there is no cable installed, without any force applied by a user) and in which the grip portions 182b, 184b are recessed with respect to the lateral openings 172f, 172g when they are in a clamping position around the cable 4. They are possible Other settings
    As with the first embodiment, the compression springs 160, 162 are helical springs formed from a conductive material, such as a metal (for example, steel, copper, etc.). However, the grounding springs 160, 162 may take the form of other types of springs, provided that the springs provide a pushing force to couple the clamping elements 182, 184 against the conductive element 5 of the cable when inserted the cable through the central opening 176 of the housing 170, as described above. In the example shown, the first housing part 172 is formed of a conductive material, such as a metal material, such that there is conductive contact between the clamping element 182, 184, the springs 160, 162, the first part of housing 172, the second housing part 174, and the connecting part 12. In this way, the housing 170 is capable of providing a grounding path between the conductive element 5 of the cable and the connecting part 12.
    As the two connector assemblies 10, 110 include two opposing fasteners 82/84, 182/184, the required distance or space to compress the fastener assembly 80, 180 to the compressed position is reduced by half, compared to fasteners that have a single fastener. Because of this, housings 70, 170 can be produced in a smaller width or height. In addition, a wide range of cable diameters can be accepted by clamping assemblies 80, 180, for example, cables ranging from 5 millimeters to 9 millimeters can be accepted by the same clamping assembly 80, 180.
    The various embodiments described above are provided by way of illustration only and should not be construed to limit the appended claims. Those skilled in the art will readily recognize various modifications and changes that can be made without following the exemplary embodiments and applications illustrated and described herein, and without departing from the true spirit and scope of the disclosure.
    List of parts
    2 connector terminated and cable
    4 wire
    5 conductor element - metal braid, mesh, foil (or drain wire - if any) on the cable
    6 threads or filaments
    10 connector set
    12 connector part
    12th first side
    12b second side
    14 connection cavity
    16 electrical conductors
    18 cutting edges
    20 part cable management
    60 first dock
    60th first end
    60b second end
    62 second dock
    62nd first end
    62b second end


    70 housing 72 first housing part 72a front face 72b first lateral element 72c second lateral element 72d third lateral element 72e fourth lateral element 72f first opening 72g second opening 74 second housing part 74a front face 74b rear face 74c side walls 76 central opening 80 grounding clamp assembly 82 first clamp element 82a clamp portion 82b grip portion 82c support portion 82d spring support portion 84 second clamp element 84a clamp portion 84b grip portion 84c support portion 84d support portion 84d spring support 88 opening between clamping portions 110 connector assembly 120 cable management portion 160 first spring 160a first end 160b second end 162 second spring 162a first end 162b second end 170 housing 172 first housing part 172a front wall 172b rear wall 172d lateral element 172e element l ateral 172f first lateral opening 172g second lateral opening 174 second housing part


    174th front face174b rear face174c side element174d side element
    5 176 central opening180 grounding clamp assembly182 first fastener182a holding portion182b grip portion
    10 182c spring support portion 182d spring support projection 184 second clamping element 184a clamping portion 184b grip portion
    15 184c spring support portion 184d spring support boss 188 opening between clamping portions D1 dimension of the central opening in the first housing part D2 dimension of the central opening in the rear face of the second housing part
    20 D3 cable dimension D4 opening dimension between clamping portions D5 opening dimension of the clamping portions of the second embodiment F1 manual opening force direction S1 spring force direction

    权利要求:
    Claims (29)
    [1]
    1. A connector assembly (10, 110) comprising:
    to. a connecting part (12) having a connection cavity (14);
    b. a cable management part (20) conductively connected to the connector part (12), the cable management part (20) having:
    i. a housing (70, 170) having a central opening (76, 176) through which a cable (4) having an exposed conductive element (5) can extend;
    ii. a grounding clamp assembly (80, 180) held within the housing (70, 170), the grounding clamp assembly including a first clamping element (82, 182) and a second clamping element (84 , 184) arranged opposite, the first and second fastener elements (82, 182, 84, 184) defining a fastening opening (88, 188) aligned concentrically with the central opening (76, 176);
    iii. a first compression spring (60, 160) arranged to exert a force on one or both of the fasteners (82, 182, 84, 184) to push at least one of the fasteners (82, 182, 84, 184) grounding against the conductive element (5) of the cable.
    [2]
    2. The connector assembly (10) of claim 1, wherein the first compression spring (60) extends between a first housing part (72) and the first fastener (82).
    [3]
    3. The connector assembly (10) of claim 2, further comprising a second compression spring
    (62) extending between the first housing part (72) and the second fastener (84).
    [4]
    Four. The connector assembly (110) of claim 1, wherein the first compression spring (160) extends between the first and second fasteners (182, 184).
    [5]
    5. The connector assembly (110) of claim 4, further comprising a second compression spring (162) extending between the first and second fasteners (182, 184).
    [6]
    6. The connector assembly (10, 110) of claim 1, wherein the first compression spring (60, 160) is a spring.
    [7]
    7. The connector assembly (10) of claim 3, wherein the first and second compression springs (60, 62) are each formed as a spring.
    [8]
    8. The connector assembly (110) of claim 5, wherein the first and second compression springs (160, 162) are each formed as a spring.
    [9]
    9. The connector assembly (10) of claim 3, wherein the housing (70) includes a first housing part (72) and a second housing part (74) and wherein the first and second fasteners ( 82, 84) of the grounding clamp assembly are slidably disposed between the first and second housing parts (72, 74) or within the first housing part (72).
    [10]
    10. The connector assembly (10) of claim 9, wherein the first fastener (82) is aligned along the same plane as the second fastener (84).
    [11]
    eleven. The connector assembly (110) of claim 5, wherein the housing (170) includes a first housing part (172) having a front wall (172a) and a rear wall (172b).
    [12]
    12. The connector assembly (110) of claim 11, wherein a clamping portion (82a) of the first clamping element (82) is aligned along a plane other than a clamping portion (84a) of the second clamping element clamping (84), such that the first clamping portion (82a) can slide

    beyond the second holding portion (84a).
    [13]
    13. The connector assembly (10) of claim 1, wherein:
    i. the housing (70) has a first housing part (72) and a second housing part
    (74) connected to the first housing part (72), the housing (70) including a central opening (76) defined by the first and second housing parts (72,74), the central opening (76) having a first dimension (D1);
    ii. wherein each of the first and second fasteners (82, 84) is located at least partially between the first and second housing parts (72,74), wherein the first grounding fastener (82) includes a clamp portion (82a) and a grip portion (82b) that are connected to each other by a support portion (82c), wherein the second grounding clamp (84) includes a clamp portion (84a) and a grip portion (84b) that are connected to each other by a support portion (84c);
    iii. in which the clamping set can be placed in:
    one. a compressed position in which the clamping portions (82a, 84a) of the respective first and second grounding fasteners (82, 84) are moved against a spring pushing force such that the central opening ( 76) is unlocked by the clamping portions (82a, 84a) to allow a cable (4) to be inserted through an opening (88) defined by the clamping portions (82a, 84a); Y
    [2]
    2. a grounding position in which the holding portions (82a, 84a) of the respective first and second grounding fasteners (82, 84) are pushed by springs to engage a conductive element (5) of the cable ( 4).
    [14]
    14. The connector assembly (10) of claim 13, wherein the first compression spring (60) extends between the first housing part (72) and the first fastener (82).
    [15]
    fifteen. The connector assembly (10) of claim 14, further comprising a second compression spring (62) extending between the first housing part (72) and the second fastener (84).
    [16]
    16. The connector assembly (10) of claim 13, wherein the first fastener (82) and the second fastener (84) have an identical shape.
    [17]
    17. The connector assembly (10) of claim 13, wherein the first and second fasteners (82, 84) are formed from an electrical conductive material.
    [18]
    18. The connector assembly (110) of claim 1, wherein:
    i. the housing (170) has a first housing part (172) and a second housing part (174) connected to the first housing part (172), the housing (170) including the central opening (176) defined by the first and the second housing parts (172, 174), the central opening (76) having a first dimension (D1);
    ii. wherein each of the first and second fasteners (182, 184) is placed within the first housing part (172), wherein the first earthing fastener (182) includes a fastener portion in the form of a ring (182a) connected to a grip portion (182b), in which the second grounding fastener (184) includes a ring shaped fastener portion (184a) connected to a grip portion (184b);
    iii. in which the clamping set can be placed in:
    one. a compressed position in which the holding portions (182a, 184a) of the respective first and second grounding fasteners (182, 184) are moved against a spring pushing force, such that the central opening (176) is unlocked by the clamping portions (182a, 184a) to allow a cable (4) to be inserted through an opening (188) defined by the clamping portions (182a, 184a); Y
    [2]
    2. a grounding position in which the holding portions (182a, 184a) of the respective first and second grounding fasteners (182, 184) are pushed by

    springs to be coupled to a conductive element (5) of the cable (4).
    [19]
    19. The connector assembly (110) of claim 18, wherein the first compression spring (160) 1 extends between the first fastener (182) and the second fastener (184).
    [20]
    twenty. The connector assembly (110) of claim 19, further comprising a second compression spring (162) extending between the first fastener (182) and the second fastener (184).
    [21]
    twenty-one. The connector assembly (110) of claim 18, wherein the first fastener (182) and the second fastener (184) have an identical shape.
    [22]
    22 The connector assembly (110) of claim 18, wherein the first and second fasteners (182, 184) are formed from an electrical conductive material.
    [23]
    2. 3. The connector assembly (10) of claim 9, wherein the first fastener (82) and the second fastener (84) are aligned along different planes.
    [24]
    24. The connector assembly (110) of claim 5, wherein the first and second fasteners (182, 184) of the grounding fastener assembly are slidably disposed within the housing (170).
    [25]
    25. The connector assembly (110) of claim 24, wherein the first and second fasteners (182, 184) of the grounding fastener assembly are slidably disposed between the front and rear walls (172a, 172b ) defined by the accommodation (170).
    [26]
    26. The connector assembly (10) of claim 13, wherein the first fastener (82) and the second fastener (84) have a different shape.
    [27]
    27. The connector assembly (110) of claim 18, wherein the first fastener (182) and the second fastener (184) have a different shape.













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    同族专利:
    公开号 | 公开日
    WO2017025643A1|2017-02-16|
    ES2600968B1|2017-11-22|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0775845A2|1995-11-22|1997-05-28|Danny Gold|External single handed closure and release mechanism|
    WO2003026076A1|2001-09-19|2003-03-27|Krone Gmbh|Strain-relief device for a plug-in connection in communications and data systems|
    US20040038582A1|2002-08-22|2004-02-26|International Business Machines Corporation|Strain relief device for an electrical connector for high frequency data signals|
    WO2005104300A1|2004-04-23|2005-11-03|Tyco Electronics Amp Espana Sa|A cap, a termination assembly and a housing assembly for a modular telecom connection jack|
    EP2133957A1|2008-06-11|2009-12-16|Surtec Industries, Inc.|Communication Jack|US10651608B2|2016-07-08|2020-05-12|Commscope Technologies Llc|Connector assembly with grounding clamp system|
    US10777953B2|2016-08-15|2020-09-15|Commscope Technologies Llc|Connector assembly with grounding|US4790765A|1987-10-05|1988-12-13|Hubbell Incorporated|Connector shunt structure|ES1224454Y|2018-12-04|2019-04-26|Garcia Luciano Lavado|Connection device for coaxial cable|
    法律状态:
    2017-11-22| FG2A| Definitive protection|Ref document number: 2600968 Country of ref document: ES Kind code of ref document: B1 Effective date: 20171122 |
    2021-09-29| FD2A| Announcement of lapse in spain|Effective date: 20210929 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201531199A|ES2600968B1|2015-08-13|2015-08-13|Connector set with elastic grounding clamping system|ES201531199A| ES2600968B1|2015-08-13|2015-08-13|Connector set with elastic grounding clamping system|
    PCT/EP2016/069310| WO2017025643A1|2015-08-13|2016-08-12|Connector assembly with grounding spring clamp system|
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