• 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:
    COAXIAL CONNECTOR FOR PRINTED WIRING BOARD. The present invention relates to a coaxial connector (1) which has a first and a second connector part (2, 3) and an adapter (4), disposed between said connecting parts. When installed, the adapter (4) is arranged in an opening (6) inside an external conductor (8) of the first part of the connector (2, 3) so that it can bend outwards laterally. A limiting element (9) made of an insulating material is arranged in the region of the entrance to the opening (6) so that it limits the lateral movement of the adapter
    公开号:BR112014024734B1
    申请号:R112014024734-0
    申请日:2013-04-03
    公开日:2021-03-16
    发明作者:Ulf Hügel;Martin Wagner
    申请人:Huber + Suhner Ag;
    IPC主号:
    专利说明:

    [1] The present invention relates to the field of eco-connectors for printed circuit boards.
    [2] After the printed circuit boards were equipped with SMD (Surface Mounted Device) components and were subsequently soldered, the printed circuit boards come into contact with each other at high frequencies. In this regard, inaccuracies of location and position in the radial and axial direction must be compensated so that the high frequency properties are not lost. In general, a plurality of contact points must be connected at the same time. For this purpose, coaxial connectors are used that can be blindly connected and interconnecting two coaxial contact points that are arranged locally above each other, considering the axial and radial displacement. Examples of coaxial contact points include coaxial cables, printed circuit boards with corresponding layout structures and housing inputs such as filter or duplexer couplings.
    [3] Coaxial connectors of the printed circuit board that can be connected blindly are known from the prior art. These have a multi-layered construction having a first and a second connector part that are operationally interconnected through an adapter part. A disadvantage of connectors known from the prior art is that they have a flaw, depending on the location, which can have a negative effect on the transmission properties.
    [4] WO2011 / 088902 by the same applicant was published on 07/28/2011 and refers to a coaxial connector of the printed circuit board of the generic type. The connector comprises a first and a second part of the connector, which can be operationally interconnected by means of an adapter part. At least one side of the connector comprises means of mechanically operative connection that "rigidly" interconnect the corresponding connector part and the associated end of the adapter, that is, under normal circumstances, the connection is no longer releasable or is only releasable with the increase of strength. The operating connection means are arranged with respect to the conductors to allow displacement in the axial and lateral direction, which is as large as possible.
    [5] US5980290 from the company Radiall was published in 1998 and describes a coaxial connector having a spherical joint insert. A ring is inserted inside one end of part of the connector and anchored here. Said ring prevents the joint insertion from falling off the connector part.
    [6] US4925403 by Gilbert Engineering Co., was published in 1988 and describes a coaxial connector of the type described having an adapter part. The connector is designed so that it can compensate for a certain lateral displacement. A mechanical plug connection is created by means of an external conductor of the adapter part.
    [7] US5879177 by NEC Co. describes another connector that has a first and a second part of the connector, which can be operatively connected by an adapter part. The adapter part is used to compensate for a certain lateral displacement.
    [8] WO0052788A1 by the same applicant was published in 2000 and discloses an improved connector of the generic type. The connector comprises a first and a second part of the connector, which can be operationally connected by means of an adapter part. A spherical joint is used on at least one side, in order to reduce the resulting forces.
    [9] EP1207592 by the company Rosenberger was published in 2002 and refers to a coaxial plug arrangement that has a first and a second coaxial plug connector and a contact bushing that connects said connectors. The contact bushing is formed so that it can be tilted laterally in a predetermined region. The first coaxial connector and the contact bushing comprise a lock connection in the region of its external conductors. The lock connection in the region of the external conductors has a limiting effect on the freedom of movement. All first coaxial connectors are arranged in a first common plastic housing and all second coaxial connectors are arranged in a second common plastic housing.
    [10] Additional connectors that have a generic are known from US2004038586, US2007026698A, US2006194465A, CN2879475Y and CN101459304A.
    [11] None of the intellectual property rights known from the prior art give any suggestion as to how the transmission properties of the connector can be improved.
    [12] It is an object of the invention to reveal a generic type connector that has improved transmission properties.
    [13] This objective is achieved by the connector defined in the independent claim.
    [14] Connectors known from the prior art are used, inter alia, in transceiver devices. For example, the transmitted and received signals are routed together to the special coax connections. The transmitted and received signals differ in the use of a frequency spectrum defined in each case. In order to obtain interference-free operation, it is mandatory that no part of the spectrum of the transmitted signal falls within the spectrum of the received signal. This behavior must also be provided by vibration and / or impact loads. Examples of possible sources of such interference signals from the transmitted signal are passive intermodulation, due to poor or a plurality of mechanical contacts.
    [15] An additional mechanism for generating interference signals results from the phase or frequency modulation of the transmitted signal. This effect can be generated by the weak output of the signal transmitted in a resonant structure, the resonance frequency, which can be varied, for example, by vibration or mechanical impacts. Resonant structures can arise in a connector as a result of a plurality of contact points being arranged in an unfavorable way with each other, which has a particularly negative effect with increasing frequencies. These problems can occur in particular in connectors of the type according to the invention, which are designed to compensate for geometric deviations and, therefore, have a variable geometry. The connector according to the invention avoids negative effects and, therefore, improves signal transmission, in particular at high frequencies. The interference output of the signal transmitted in the outer conductor of the connection element is reduced, as it no longer has any negative effect.
    [16] In connectors known from the prior art, a geometrically variable resonance chamber, which has a negative effect on the transmission properties, is formed in determined positions, due to the geometry of the outer conductor of the connection element (adapter) and the connector parts which are operationally connected to them and, together, guarantee axial and radial mobility of the connector. The adapter interacts through spring-loaded tabs with an annular shape, with an internal surface of an opening of an electrically conductive housing of a part of the coupled connector. In this case, the resonant frequency is tuned so that, in the case of a lateral deflection (tilt) of the adapter, the external conductor of the adapter (which is at a distance from the spring tabs) approaches an edge of the electrically conductive housing on the part of the coupled connector. As soon as the distance between the edge of the box and the external conductor of the adapter exceeds a certain value, a resonant circuit that is created capacitively charges the resonator and leads to the resonance frequency to be influenced.
    [17] A connector according to the invention avoids this problem insofar as it comprises a limiting element, for example, in the form of a limiting ring, which reduces the maximum lateral deflection (of tilting movement) of the adapter with respect to the aside. of the connector at risk. An embodiment of a connector according to the invention, which avoids this problem comprises a first and a second part of the connector and an adapter, which is disposed between said parts of the connector, when assembled and can be coupled to the first and the second part of the connector in an electrically conductive way and is used to operatively connect the two connector parts in an articulated manner. The first and second parts of the connector each have an internal conductor and an external conductor, which is carried out with respect to each other by an insulator. The adapter also comprises an internal conductor and an external conductor, which is carried out with respect to each other by an insulator. The outer conductor of the first or second part of the connector has an opening in each case, which is designed so that the adapter can be inserted, in order to be movable. At its two ends, the external conductor of the adapter comprises spring-loaded tabs having radially protruding contact edges, which, when assembled, are inserted into the openings of the first or second part of the connector and interact here in an electrically conductive manner with contact surfaces. The resistant spring tabs are used in conjunction with the contact protrusions to produce and maintain a secure electrical connection. At least one of the openings used to insert the adapter into the outer conductor of the first or second part of the connector comprises a limiting element along an edge, preferably a limiting ring, which consists of a non-conductive material. The limiting ring serves to limit the maximum possible lateral deformation of the adapter with respect to the corresponding connector part and to adjust the minimum possible distance between the external conductor of the adapter and the external conductor of the connector part. The limiting ring is used to avoid harmful resonant structures. The limiting ring can extend beyond the total width of the housing of a part of the connector, or it can form a part of it. The limiting ring can be attached to the housing of the connector part, for example, when it is plugged into or screwed on.
    [18] In one embodiment, the coaxial connector comprises a first and a second part of the connector and an adapter disposed between them. When assembled (connected operatively), the adapter is arranged in an opening of an external conductor of the first part of the connector so that it can be tilted laterally. An external conductor of the adapter interacts, in an annular way, with the external conductor of the first part of the connector, for example, through resistant spring tabs. Other operating connections are possible, as long as at least lateral mobility is not restricted. A limiting element made of a non-conductive material is arranged in the region of the entrance to the opening. It is used to limit the lateral deflection of the adapter in a controlled manner. The limiting element is advantageously designated annular and comprises a hole. According to the modality, the hole can be cylindrical or tapered. Other configurations are possible. The limiting element can be provided with a recess in the outer conductor of the first part of the connector. The limiting element can be fixed in the recess, for example, being pressed and / or fitted and / or glued. The limiting member can, however, also be a part of an external housing of the first part of the connector. In this case, the outer conductor of the first part of the connector can be pressed and / or fitted and / or glued into the limiting element. The limiting element is advantageously produced from plastic material. Other insulating materials are possible. For example, the limiting element can be produced from a resistant material that exerts a restoring force on the adapter when deformed in this way. The external conductor of the adapter may comprise a circumferential rib that interacts with the limiting element in a defined way and determines its maximum lateral deviation.
    [19] The invention will now be described in more detail below based on the figures that only show modalities and in which:
    [20] figure 1 is a side view of a connector assembled according to the invention;
    [21] figure 2 is a cross-sectional view through a connector according to figure 1;
    [22] figure 3 is a plan view of the connection device according to figure 1 in a deviated position;
    [23] figure 4 is a cross-sectional view through a connector according to figure 3 along the cut line BB;
    [24] figure 5 is a cross-sectional perspective view through a second embodiment of a connector according to the invention.
    [25] Unless otherwise indicated, the same reference numbers are used in the figures for the corresponding regions / parts.
    [26] Figure 1 shows a coaxial connector 1 according to the invention that has a first part of connector 2, a second part of connector 3 and an adapter 4, which is used to operationally connect the first connector of part 2 to the second 3, in the coupled state. The connector parts 2, 3 and 4 of the adapter are coaxially constructed.
    [27] Figure 1 is a front view of the coaxial connection device 1 in the operably connected state. Figure 2 is a cross-sectional view through connector 1, along the transverse line according to figure 1. The connector is not deflected in figures 1 and 2. Figure 3 is a plan view of the connection device and figure 4 it is a cross-sectional view through the connector 1 along the cutting line BB according to figure 3. The parts of the connector 2, 3 are arranged offset (offset) in relation to each other by a distance. The offset is compensated by the adapter 4.
    [28] In the embodiment shown, the first and second parts of connector 2, 3 have a substantially identical construction. If necessary, it is possible to configure the first and second parts of the connector 2, 3 not to be identical, according to the requirements.
    [29] The first and second parts of the connector 2, 3 comprise each cylindrical inner conductor 5, which is designed in each case, in a similar way to the sleeve at the front end thereof. The inner conductor 5 is positioned and maintained in relation to an outer conductor 8 by an insulator 7. The outer conductor 8, which in this case acts simultaneously as the housing for the connector part 2, 3, comprises an opening 6, which, in the modality shown, it is cylindrical and coaxially arranged, with the inner conductor 5. The inner conductor 5 is arranged inside the opening 6 of the outer conductor 8. Other configurations are possible.
    [30] As can be seen in figure 2, the first insulator 7 extends along the first inner conductor5 and forms a substantially cylindrical sleeve region 17, which, in this case, leans against the inner conductor 5 and on which an outer annular projection is formed. retaining the grooves 10 (first operational connection means). When mounted, the retaining rib 10 engages an annular groove 11 (meaning the second operating connection) of an insulator 12 (a two-part insulator, in this case) of adapter 4, and with the same shape an articulated mechanical connection 13 in relation to the lateral direction. The mechanical connection 13 is generally designed as a releasable connection socket and allows adapter 4 to be disconnected from the first part of connector 2 by applying a particular force, in the axial direction (z direction, in this case).
    [31] As can be seen in figures 2, 3 and 5, in the shown modality, insulator 12 of adapter 4 is formed by two parts and, referring to the figure, comprises a first upper part, and a second lower part 12.1, 12.2. The 12-position insulator of an inner conductor 14 of the adapter 4 in relation to an outer conductor 15 of the adapter 4. At its ends, both the inner and outer 14, 15 comprise, respectively, the inner or outer spring tongues 18, 19 which comprises its first and second circumference of the contact ribs 20, 21, which are formed to project out circumferentially. To keep the forces low, the external surfaces of the contact ribs 20, 21 are advantageously spheroidal. The spring tongues 18, 19 are functionally separated in the circumferential direction by slits 22, 23 and can jump in the radial direction. When connected, the contact ribs 20, 21 form a substantially annular contact with first and second contact surfaces 24, 25 of the inner conductor 5 and the outer conductor 8 of the connector parts 2, 3. The configuration of the mechanical connection 13, or of the spring tabs 18, 19 allows the adapter 4 to tilt in relation to the lateral direction of a certain angle α with respect to the first part of the connector 2 (cf. fig. 3 and 5). At its free end, the outer conductor 8 of the first part of the connector 2 comprises an annular limiting element 9 which is produced, for example, from plastic material and, in the embodiment shown, is pressed into a recess 16 in the outer conductor 8 from the first part of the connector 2 the limiting element 9 limits the maximum possible angle of lateral inclination α of the adapter 4 with respect to the first part of the connector 2, in which the limiting element 9 comes into contact with an annular rib 27 formed in the outer conductor 8 of adapter 4. Other configurations are possible. The distance b between the contact rib 21 of the outer conductor 15 and the annular rib 27 is configured so that the maximum possible angle α does not exceed a certain amount. The position of the rib 27 defines the point of contact between the outer conductor and the limiting element 9 The minimum possible distance t (cf. fig. 5) between the second electrically external conductor 15 of the adapter 4 and the first electrically external conductor 8 is limited by limiting element 9 such that from the problem, as a result of a plurality of contact points and the resulting feedback is reduced. Since the limiting element prevents the minimum distance t from falling below a certain value, the phase shift that occurs in another form of phase modulation is reduced. In the embodiment shown, the second part of the connector 3 comprises a flow pipe 26, which is molded in its outer conductor 8 and simplifies the assembly. In particular, in the case of adapters 4 positioned at an angle or if a lateral displacement occurs, during assembly, the drain pipe 26 serves as an assembly aid in which the guides securely guide the free end of the adapter 4 into the opening , provided, therefore, in the inner conductor 8.
    [32] Figure 5 is a perspective view of another modality of connector 1. The basic principle of connectors 1 corresponds to that of figure 1-3. Unless otherwise indicated, similar parties have the same reference numbers. The parts of the connector 2, 3 and the adapter 4 are shown in a top perspective diagonally. For the sake of understanding, the connector parts 2, 3, and adapter 4 are shown in section, so that the inner conductor can be seen. In figure 5, the connector parts 2, 3 are (laterally) compensated for each other, the compensation to be compensated for by adapter 4. Unlike the first embodiment according to figures 1 to 4, the limited element 9, in this case , forms an outer housing of the first part of connector 2. The outer conductor 8 is pressed into the limiting element 9 below. The limiting element 9 is advantageously produced from plastic material. Another difference is that a drainpipe 26 made of plastic material is connected to the outer conductor 8 of the second part of the connector 3 and is used as the limiting element to laterally deflect or tilt the adapter 4.When the connector parts are connected together, the drain pipe 26 is used to insert the adapter 4 into the opening in the outer conductor 8 of the second part of the connector 3. Reference list α Maximum angle a lateral displacement b rib space t minimum space 1 coaxial connector 2 first part of connector 3 second connector part 4 adapter 5 internal conductor (connector part) 6 opening 7 insulator (connector part) 8 external conductor (connector part) 9 limiting element 10 grooves (first operating connection means) 11 groove (second means operating connections) 12 isolator (adapter) 13 mechanical connection 14 internal conductor (adapter) 15 external conductor (adapter) 16 recess (external conductor 8) 17 holes io (limiting element) 18 inner spring languages 19 outer spring languages 20 first contact rib 21 second contact rib 22 first slot (spring tongue) 23 second slot (spring tongue) 24 first contact surface 25 second contact surface contact 26 drain tube 27 rib (adapter)
    权利要求:
    Claims (10)
    [0001]
    1. Coaxial connector (1), with a first and a second part of the connector (2, 3) and an adapter (4) arranged between them, in which, when assembled, the adapter (4) is arranged in an opening ( 6) an external conductor (8) of the first part of the connector (2), in order to be able to tilt laterally, characterized by the fact that a limiting element (9) made of an insulating material, which is arranged in the region inlet opening (6) between the outer conductor (8) of the first connector part (2) and a second outer conductor (15) of the adapter (4), which limits the lateral deflection of the adapter and the minimum possible distance between the second outer conductor (15) of the adapter (4) and the outer conductor (8) of the first part of the connector.
    [0002]
    2. Coaxial connector (1), according to claim 1, characterized by the fact that the limiting element (6) is annular and comprises a hole (17).
    [0003]
    3. Coaxial connector (1), according to claim 2, characterized by the fact that the hole (17) is cylindrical or tapered.
    [0004]
    4. Coaxial connector (1) according to any one of the preceding claims, characterized by the fact that the limiting element (6) is arranged in a recess (16) in the outer conductor (8) of the first part of the connector (2).
    [0005]
    5. Coaxial connector (1), according to claim 4, characterized by the fact that the limiting element (6) is pressed and / or fitted and / or glued to the recess (16).
    [0006]
    6. Coaxial connector (1) according to any one of claims 1 to 3, characterized in that the limiting element (6) is a part of an external housing of the first part of the connector (2).
    [0007]
    7. Coaxial connector (1), according to claim 6, characterized by the fact that the outer conductor (8) of the first part of the connector (2) is pressed into the limiting element (6).
    [0008]
    8. Coaxial connector (1) according to any one of the preceding claims, characterized by the fact that the limiting element (6) is made of plastic material.
    [0009]
    9. Coaxial connector (1), according to any one of the preceding claims, characterized by the fact that the limiting element (6) is produced from an elastic material, which exerts a restoring force on the adapter (4), when deformed .
    [0010]
    10. Coaxial connector (1) according to any one of the preceding claims, characterized by the fact that the external conductor (15) of the adapter (4) comprises a circumferential washer (27) that interacts with the limiting element (6).
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    同族专利:
    公开号 | 公开日
    EP2834888A1|2015-02-11|
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    US20150118899A1|2015-04-30|
    KR20140145185A|2014-12-22|
    CH706343A2|2013-10-15|
    EP2834888B1|2017-08-30|
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    法律状态:
    2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|
    2019-11-26| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|
    2021-02-02| B09A| Decision: intention to grant|
    2021-03-16| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 03/04/2013, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    CH00487/12A|CH706343A2|2012-04-05|2012-04-05|PCB coaxial.|
    CH00487/12|2012-04-05|
    PCT/EP2013/056999|WO2013150059A1|2012-04-05|2013-04-03|Printed circuit board coaxial connector|
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