CN114389106A - RF connector - Google Patents

Abstract

The invention discloses an RF connector, which comprises a plastic main body, a static terminal embedded and molded in the plastic main body, a movable terminal installed on the plastic main body, and an iron shell assembly assembled on the upper surface of the plastic main body and used for enclosing the static terminal and the movable terminal in a working groove, wherein the static terminal is provided with a free end overhanging and extending into the working groove, and the movable terminal is provided with an overhanging elastic arm overhanging and extending into the working groove; the bottom of one end part A of the cantilever elastic arm is supported by one supporting part of the plastic main body, so that the other end part B is tilted upwards or kept horizontal and is propped against the lower surface of the free end to be attached to the lower surface of the free end. The movable terminal structure designed by the cantilever beam can ensure that the movable terminal can effectively rebound to a critical state after being disconnected, and the service life of the connector is prolonged.

Description

RF connector

[ technical field ] A method for producing a semiconductor device

The invention belongs to the technical field of connectors, and particularly relates to an RF connector.

[ background of the invention ]

In communication equipment such as a mobile phone, it is generally necessary to install an RF coaxial switch connector in order to facilitate checking of the state or performance of a high-frequency circuit provided in the equipment. Currently, the structure of an RF coaxial switch connector is roughly as follows: the terminal combination structure is installed in the insulating body, the terminal combination structure comprises a static terminal and a movable terminal, a conductive shell for grounding is installed outside the insulating body, jack structures for inserting probes for inspection are formed on the insulating body and the conductive shell, after the probes are inserted, the movable terminal is pushed to leave the fixed terminal, an electronic circuit which is originally conducted is disconnected, meanwhile, the movable terminal is in contact with the probes, the probes are in a conducting state, electric signals from the electronic circuit are led out to the outside through the probes, and therefore the state and the performance of the circuit are inspected.

In the prior art, patent No. CN200410074031.8 discloses a coaxial connector with a radio frequency switch, in which a movable terminal is designed with a bending structure, which is complex and causes high manufacturing cost, and after a plugging endurance test, the movable terminal is prone to causing functional failure, and is not opened or closed, and the movable terminal fails to rebound or rebounds out of place, so that the service life is short.

[ summary of the invention ]

The invention mainly aims to provide an RF connector, which adopts a cantilever beam designed movable terminal structure, can ensure that the movable terminal can effectively rebound to a critical state after being disconnected, and prolongs the service life of the connector.

The invention realizes the purpose through the following technical scheme: an RF connector comprises a plastic main body, a static terminal embedded and molded in the plastic main body, a movable terminal installed on the plastic main body, and an iron shell assembly assembled on the upper surface of the plastic main body and used for enclosing the static terminal and the movable terminal in a working groove, wherein the static terminal is provided with a free end overhanging and extending into the working groove, and the movable terminal is provided with an overhanging elastic arm overhanging and extending into the working groove; the bottom of one end part A of the cantilever elastic arm is supported by one supporting part of the plastic main body, so that the other end part B is tilted upwards or kept horizontal and is propped against the lower surface of the free end to be attached to the lower surface of the free end.

Further, still be provided with a pair of supplementary elastic arm on the movable terminal, supplementary elastic arm symmetry sets up the left and right sides of the elastic arm of encorbelmenting, and encorbelment stretch into extremely in the work recess, the one end of a pair of supplementary elastic arm is passed through this body coupling of terminal structure as an organic whole and the other end is connected to on the elastic arm of encorbelmenting, the elastic arm of encorbelmenting passes through supplementary elastic arm realize with the connection of terminal body, the terminal body is hugged closely the supporting part surface sets up.

Furthermore, be provided with first piece of enclasping on the movable terminal, first piece of enclasping is buckled downwards and is enclasped the plastic main part.

Furthermore, the front side of the working groove is of an open structure, limiting pressure grooves are formed in the left side and the right side of the opening, the movable terminal is inserted into the working groove from the front side and pressed to be fixed by the limiting pressure grooves, and the end face of the inner wall of each limiting pressure groove is opposite to the end face of the terminal body in a blocking and limiting mode.

Further, the iron shell assembly comprises an iron shell main body, and an insulating plastic part which is formed in the iron shell main body through one-time molding and is used for isolating and insulating the iron shell main body from the movable terminal and the static terminal.

Furthermore, the left side and the right side of the iron shell main body are provided with second clasping sheets with edges folded and buckled on the left side and the right side of the plastic main body, and the left side and the right side of the plastic main body are provided with encircling grooves for limiting the positions of the second clasping sheets.

Furthermore, the upper surface of the plastic main body is provided with a positioning bulge at the rear side for blocking the iron shell component.

Furthermore, an inserting hole structure is arranged on the iron shell assembly, and the inserting hole structure is communicated downwards into the working groove and aligned with the cantilever elastic arm.

Further, the insulating plastic part by the iron clad main part is suppressed downwards, and is consequently suppressed downwards the terminal body, the tip A of the arm of force of cantilever elasticity and the free end of quiet terminal.

Furthermore, the end part A of the overhanging elastic arm is arranged in an overhanging way, and a gap is formed between the end part A of the overhanging elastic arm and the auxiliary elastic arm as well as the terminal body; the insulating plastic part is provided with a plastic protrusion which extends downwards into the gap.

Compared with the prior art, the RF connector has the beneficial effects that: through the structural design of the movable terminal, the cantilever elastic arm structure is matched with the fulcrum structure, so that the elastic floating capacity and the resilience capacity of the movable terminal are greatly improved, the problem of resilience failure of the movable terminal after long-time use is effectively solved, and the service life of the connector is prolonged; the movable terminal is provided with a pair of auxiliary elastic arms for enhancing the resilience and fatigue resistance of the cantilever elastic arm, so that the service life of the connector is further prolonged; static terminal and plastic main part adopt the one time molding, move the terminal and adopt to insert PIN formula equipment to the plastic main part, and the iron-clad subassembly adopts the mode of riveting to assemble with the plastic main part, has improved the holistic structural nature of connector greatly, has improved life.

[ description of the drawings ]

FIG. 1 is a schematic illustration of an explosive structure according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a plastic body and a stationary terminal according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a movable terminal according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an iron shell assembly according to an embodiment of the present invention;

FIG. 5 is a schematic top view of the plastic body, the stationary terminal and the moving terminal according to the embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of an embodiment of the present invention;

the figures in the drawings represent:

a 100-RF connector; 101-testing male heads;

1-plastic main body, 11-working groove, 12-supporting part, 13-limiting pressure groove, 14-encircling groove, 15-rear side positioning projection; 2-stationary terminal, 21-free end; 3-moving terminal, 31-cantilever elastic arm, 32-auxiliary elastic arm, 33-terminal body, 34-gap, 35-first holding sheet; 4-iron shell component, 41-iron shell main body, 411-second holding sheet, 42-insulating plastic part, 421-plastic protrusion and 43-plug hole structure.

[ detailed description ] embodiments

The first embodiment is as follows:

referring to fig. 1 to 6, the present embodiment is an RF connector 100, which includes a plastic main body 1, a static terminal 2 embedded and molded in the plastic main body 1, a moving terminal 3 installed on the plastic main body 1, and an iron case assembly 4 disposed on the upper surface of the plastic main body 1 and enclosing the static terminal 2 and the moving terminal 3 in a working groove 11, wherein the static terminal 2 has a free end 21 overhanging into the working groove 11, the moving terminal 3 has an overhanging elastic arm 31 overhanging into the working groove 11, and the bottom of one end a of the overhanging elastic arm 31 is supported by a supporting portion 12 of the plastic main body 1 so that the other end B tilts upward or keeps horizontal and abuts against the lower surface of the free end 21. The end part B of the cantilever elastic arm 31 is in a state of lying down when being pressed by the free end 21; in a natural state, the end B of the cantilever spring arm 31 is kept in a horizontal state or tilted upward.

In this embodiment, the movable terminal 3 mainly uses the supporting portion 12 on the plastic body 1 as a fulcrum, and when the cantilever elastic arm 31 that is cantilevered and extends into the working groove 11 is pressed down by the test male head 101, the end B of the cantilever elastic arm 31 floats downward and is disconnected from the free end 21, so that the movable terminal 3 is disconnected from the stationary terminal 2, and meanwhile, the movable terminal 3 is connected with the test male head 101. Compare the terminal structure that moves among the coaxial connector who has radio frequency switch that is patent number CN200410074031.8 among the prior art, the upper and lower elasticity that the difference in height bending structure of original terminal realized that moves floats is cancelled, utilize structure cooperation supporting part fulcrum of encorbelmenting to realize the resilience after the arm of force 31 of encorbelmenting lies prone down, through this kind of structural design, the anti fatigue strength of elasticity of moving terminal 3 has been improved, make moving terminal 3 and quiet terminal 2 after the disconnection, move terminal 3 and can effectively kick-back to critical state, avoid moving the terminal and produce the phenomenon emergence that elasticity is tired and not kick-back after receiving the effort of pushing down for a long time.

In order to ensure the upper and lower elasticity floating capacity of the cantilever elastic arm 31, ensure its elasticity fatigue resistance again, still be provided with a pair of supplementary elastic arm 32 on the movable terminal 3, supplementary elastic arm 32 symmetry sets up in the left and right sides of the cantilever elastic arm 31, and cantilever and stretch into to work recess 11 in, the one end of a pair of supplementary elastic arm 32 is connected as an organic whole structure and the other end is connected to the cantilever elastic arm 31 through terminal body 33 on, cantilever elastic arm 31 realizes being connected with terminal body 33 through supplementary elastic arm 32, and terminal body 33 hugs closely supporting part 12 surface setting.

There is clearance 34 between the tip A of the elastic arm of force 31 of encorbelmenting set up and supplementary elastic arm of force 32, the terminal body 33, through will encorbelmenting elastic arm 31 outlying tablet die-cut away and form clearance 34 for tip A forms the structure of encorbelmenting, and then increases the elastic deformation ability of the elastic arm of force 31 of encorbelmenting, reduces the restraint of the tablet main part of movable termination 3 to tip B, with the guarantee can relax when the test is public first 101 to push down and reliable and quiet terminal 2 disconnection.

Because terminal body 33 hugs closely the 12 surface settings of supporting part, and supplementary elastic arm 32 encorbelments and stretches into in the working groove 11, and be connected structure as an organic whole at tip and the elastic arm 31 of encorbelmenting, consequently, when the elastic arm 31 of encorbelmenting received the push down effort, the supplementary elastic arm 32 of the left and right sides also received the push down equally, after the push down effort was withdrawn, supplementary elastic arm 32 then can assist the elastic arm 31 of encorbelmenting to kick-back together, and then improved the resilience dynamics of the elastic arm 31 of encorbelmenting greatly, the holistic antifatigue intensity of movable termination 3 has been improved, the resilience inefficacy problem of highly bending movable termination structure after long-time use has effectively been solved.

A first clasping sheet 35 is arranged on one side edge of the movable terminal 3, specifically the side edge of the terminal body 33, and the first clasping sheet 35 is bent downwards to clasp the plastic main body 1, so that the clasping connection between the movable terminal 3 and the plastic main body 1 is realized. The front side of work recess 11 is open structure and is provided with spacing indent 13 in the left and right sides of opening part, moves terminal 3 and inserts in work recess 11 and live moving terminal 3 through spacing indent 13 suppression from the front side to block spacing through the inner wall terminal surface of spacing indent 13 to terminal body 33 terminal surface, realize the ascending position of fore-and-aft direction and prescribe a limit to.

The static terminal 2 is embedded in the plastic body 1 by one-time molding.

The iron shell assembly 4 comprises an iron shell main body 41 and an insulating plastic part 42 which is arranged in the iron shell main body 41 through one-time molding and isolates and insulates the iron shell main body 41 from the movable terminal 3 and the static terminal 2.

The left side and the right side of the iron shell main body 41 are provided with second holding sheets 411 with wrapping edges bent to tightly hold the left side and the right side of the plastic main body 1, and the left side and the right side of the plastic main body 1 are provided with surrounding grooves 14 for limiting the positions of the second holding sheets 411. The iron shell component 4 fastens the plastic main body 1 through the matching of the second clasping sheets 411 on the two sides and the encircling groove 14, so as to realize the fastening connection between the two. Embrace recess 14 and provide quick location structure for the assembly of plastic main part 1 and iron-clad subassembly 4 on the one hand, on the other hand the effectual second of injecing is embraced tight piece 411 and is in the degree of freedom in front and back direction, has ensured the stability and the reliability of plastic main part 1 and iron-clad subassembly 4 assembly position. The upper surface of the plastic main body 1 is provided with a rear side positioning bulge 15 for blocking the iron shell component 4 at a position close to the rear.

An inserting hole structure 43 is arranged on the iron shell component 4, the inserting hole structure 43 is communicated downwards to the working groove 11 and is aligned with the cantilever elastic arm 31, and an inserting structure is provided for the testing male head 101. The insulating plastic member 42 is pressed downward by the iron case main body 41, and thus presses the terminal body 33, the end a of the cantilever elastic arm 31, and the free end 21 of the stationary terminal 2 downward.

The insulating plastic part 42 is provided with a plastic protrusion 421 extending downwards into the gap 34, and the plastic protrusion 421 extends into the gap 34, so that the position of the movable terminal 3 in the front-back direction is limited, the position stability of the movable terminal 3 in the front-back direction is improved, and the structural strength of the assembly of the movable terminal 3 and the plastic main body 1 is enhanced.

The method for manufacturing the RF connector 100 of the present embodiment includes: stamping and bending to form a static terminal 2, then placing the static terminal into an injection molding machine for molding to form a plastic main body 1, and forming a semi-finished product of the plastic terminal; simultaneously, punch forming the movable terminal 3, assembling the movable terminal 3 and a semi-finished product of the plastic terminal together to obtain a plastic terminal assembly, inserting the movable terminal 3 from the front opening of the working groove 11 during assembly, enabling the end part B of the cantilever elastic arm 31 to be positioned below the free end 21 and abut against the free end, pressing the left side and the right side of a terminal body 33 of the movable terminal 3 by the limiting pressing groove 13, limiting the depth of the terminal body inserted into the working groove 11, and then turning down the first clamping sheet 35 to clamp the plastic main body 1, so as to realize the assembly of the movable terminal and the plastic terminal; meanwhile, forming the iron shell main body 41, and then placing the iron shell main body 41 into an injection molding machine for once molding to form an insulating plastic part 42 to obtain an iron shell assembly 4; assembling the iron shell component 4 and the plastic terminal component together to obtain the RF connector, positioning the rear position of the iron shell component 4 by using the rear positioning protrusion 15 during assembling, and then folding down the second clasping sheets 411 at the left side and the right side of the iron shell main body 41 to clasp the plastic main body 1 to realize the assembling of the two.

According to the RF connector 100, through the structural design of the movable terminal, the cantilever elastic arm structure is matched with the fulcrum structure, so that the elastic floating capacity and the resilience capacity of the movable terminal are greatly improved, the problem of resilience failure of the movable terminal after long-time use is effectively solved, and the service life of the connector is prolonged; the movable terminal is provided with a pair of auxiliary elastic arms for enhancing the resilience and fatigue resistance of the cantilever elastic arm, so that the service life of the connector is further prolonged; static terminal and plastic main part adopt the one time molding, move the terminal and adopt to insert PIN formula equipment to the plastic main part, and the iron-clad subassembly adopts the mode of riveting to assemble with the plastic main part, has improved the holistic structural nature of connector greatly, has improved life.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (10)

1. An RF connector, characterized by: the device comprises a plastic main body, a static terminal embedded and molded in the plastic main body, a movable terminal installed on the plastic main body, and an iron shell assembly which is assembled on the upper surface of the plastic main body and encloses the static terminal and the movable terminal in a working groove, wherein the static terminal is provided with a free end overhanging and extending into the working groove, and the movable terminal is provided with an overhanging elastic arm overhanging and extending into the working groove; the bottom of one end part A of the cantilever elastic arm is supported by one supporting part of the plastic main body, so that the other end part B is tilted upwards or kept horizontal and is propped against the lower surface of the free end to be attached to the lower surface of the free end.

2. The RF connector of claim 1, wherein: still be provided with a pair of supplementary elastic arm on the power terminal, supplementary elastic arm symmetry sets up the left and right sides of the elastic arm of encorbelmenting, and encorbelment stretch into extremely in the work recess, this body coupling structure as an organic whole of terminal and the other end are connected to the one end of a pair of supplementary elastic arm on the elastic arm of encorbelmenting, the elastic arm of encorbelmenting passes through supplementary elastic arm realize with the connection of terminal body, the terminal body is hugged closely the supporting part surface sets up.

3. The RF connector of claim 1 or 2, wherein: move and be provided with the first piece of enclasping on the terminal, the first piece of enclasping is buckled downwards and is enclasped the plastic main part.

4. The RF connector of claim 2, wherein: the front side of the working groove is of an open structure, limiting pressure grooves are formed in the left side and the right side of the opening, the movable terminal is inserted into the working groove from the front side and is pressed to the movable terminal through the limiting pressure grooves, and the end face of the terminal body is blocked and limited through the end face of the inner wall of the limiting pressure groove.

5. The RF connector of claim 2, wherein: the iron shell assembly comprises an iron shell main body, and an insulating plastic part which is arranged in the iron shell main body through one-time molding and is used for isolating and insulating the iron shell main body from the movable terminal and the static terminal.

6. The RF connector of claim 5, wherein: the left side and the right side of the iron shell main body are provided with second holding pieces with edges bent to tightly hold the left side and the right side of the plastic main body, and the left side and the right side of the plastic main body are provided with surrounding grooves for limiting the positions of the second holding pieces.

7. The RF connector of claim 5, wherein: the upper surface of the plastic main body is provided with a rear positioning bulge for blocking the iron shell component.

8. The RF connector of any one of claims 1 or 5-7, wherein: and the iron shell assembly is provided with a plug hole structure which is communicated downwards to the working groove and is aligned with the cantilever elastic arm.

9. The RF connector of claim 5, wherein: the insulating plastic part by the iron-clad main part suppresses downwards to consequently suppress downwards the terminal body, the tip A of the arm of force of encorbelmenting and the free end of quiet terminal.

10. The RF connector of claim 5, wherein: the end part A of the overhanging elastic arm is arranged in an overhanging way and has a gap with the auxiliary elastic arm and the terminal body; the insulating plastic part is provided with a plastic protrusion which extends downwards into the gap.

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