KR101800275B1 - High frequency connector assembly - Google Patents

Abstract

The present invention relates to a high frequency connector assembly which can detect whether a terminal is on a right position. The high frequency connector assembly comprises a receptacle connector, and a plug connector connected to the receptacle connector. The receptacle connector includes a housing, a socket terminal installed in the housing, and a slider movably installed in the housing. The housing includes: a space formed therein to insert the plug connector and install a coaxial cable; a slot formed on a side thereof and connected to the space; and a fixing protrusion formed on a position adjacent to the slot. The socket terminal is coupled in the space in a sliding manner, and has a pressing ring formed on a position corresponding to the slot. The slider is coupled to be moved in a longitudinal direction of the housing, and includes a detection part inserted through the slot, and a fixing groove into which the fixing protrusion is inserted.

Description

[0001] HIGH FREQUENCY CONNECTOR ASSEMBLY [0002]

The present invention relates to a high frequency connector assembly, and more particularly, to a high frequency connector assembly capable of detecting whether or not a terminal is properly positioned.

In general, a communication frequency based on a WAVE (Wireless Access Vehicle Environment), which is being actively studied as an automotive communication system including telematics, requires a high frequency band of 5.925 GHz.

An antenna, a connector, and a communication module are required to implement a vehicle WAVE communication system. Various researches and commercialization are being conducted in the antenna and communication fields. On the other hand, in the field of connectors, since there is no dedicated connector suitable for a high frequency band, a Parka (FAKRA, DC to 4 GHz) connector which is used for ordinary telematics is used.

Korean Patent Registration No. 10-1144255 (May 02, 2012) discloses an RF connector assembly.

A conventional RF connector assembly includes a first connector housing accommodating a terminal assembly of a first coaxial cable, a second connector housing coupled to the first connector housing and receiving a terminal assembly of a second coaxial cable, And a conductive tubular shield received in the connector housing and supporting the terminal assembly of the first coaxial cable. At this time, the conductive tubular shield is provided with a plurality of contact fingers so that the terminal assembly of the first coaxial cable is aligned on the central axis.

Conventional RF connector assemblies have the advantage of being able to seat the terminal assembly radially in place through the conductive tubular shield, but have the disadvantage that it is not possible to ascertain whether the terminal assembly is seated in place in the longitudinal direction. Therefore, when the connector housing is assembled without confirming whether or not the terminal assembly is properly positioned, the connection of the terminal assembly may be unstable and the electrical connection may be troublesome.

Korean Registered Patent No. 10-1394065 (Apr.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a high frequency connector assembly capable of detecting whether or not a terminal is correctly positioned.

It is another object of the present invention to provide a high frequency connector assembly capable of stably fixing a terminal in a fixed position.

It is a further object of the present invention to provide a high frequency connector assembly which is easy to insert a terminal when fastened to a plug connector and a receptacle connector, has excellent contact pressure and is free from permanent deformation.

According to an aspect of the present invention, there is provided a high frequency connector assembly including a high frequency connector assembly, a receptacle connector, and a plug connector coupled to the receptacle connector.

The receptacle connector includes a housing, a socket terminal provided in the housing, and a slider movably installed in the housing.

A space for inserting the plug connector and for installing the coaxial cable is formed in the housing, a slot is formed on the side surface of the slot, and a fixing protrusion is formed at a position adjacent to the slot.

The socket terminal is slidably coupled to the space and a pressure ring is formed at a position corresponding to the slot.

The slider is movably coupled in the longitudinal direction of the housing, a detection piece inserted through the slot is provided, and a fixing groove into which the fixing protrusion is inserted is formed.

According to the above-described receptacle connector configuration, when the socket terminal is seated in the correct position, the pressing ring contacts the detecting piece to extend one end of the slider. Therefore, the fixing protrusion is separated from the fixing groove to allow movement of the slider.

Here, the fixing groove is composed of a temporary fixed groove and a true fixing groove which are spaced apart from each other in the moving direction of the slider. The fixing protrusion is detached from the temporary fixing groove when the socket terminal is seated in the correct position, and is inserted into the fixing fixing groove when the movement of the slider is completed.

In the housing, a locking protrusion is formed at a front end of the locking piece, and a locking groove is formed in the socket terminal. When the socket terminal is seated in the correct position, the locking protrusion is inserted into the locking groove to fix the socket terminal. At this time, the locking protrusion is formed in a resiliently deformable cantilever-shaped locking piece formed in the housing, and the locking piece is prevented from being elastically deformed by the auxiliary protrusion when the slider is moved.

A support arm is provided at a rear end of the slider to surround the coaxial cable connected to the socket terminal, and a support protrusion for supporting the coaxial cable is formed in the support arm.

A plurality of slits are radially arranged around the tip of the socket terminal. The slit is composed of four short slits radially arranged along the periphery of the socket terminal and four long slits disposed between the short slits.

According to the present invention configured as described above, since the slider can be moved only when the socket terminal is seated in the correct position, it is possible to easily determine whether or not the socket terminal is correctly positioned through the slider.

Further, according to the present invention, not only the locking protrusion and the locking groove are formed in the housing and the socket terminal, but also the socket terminal can be fixed to the fixed position, and the elastic deformation of the locking piece is suppressed through the auxiliary protrusion provided on the slider, can do. Particularly, by supporting the coaxial cable together through the support arm provided on the slider, it is possible to secure stability in generating vibration.

Further, in the present invention, the short slit and the long slit are alternately arranged around the tip of the socket terminal, so that the terminal is easily inserted at the time of fastening the plug connector and the receptacle connector, the contact pressure is excellent, and there is no fear of permanent deformation.

1 is a perspective view of a high frequency connector assembly according to an embodiment of the present invention;
2 is an exploded perspective view of a high frequency connector assembly according to an embodiment of the present invention;
3 is a perspective view of a receptacle connector according to an embodiment of the present invention;
4 is an exploded perspective view of a receptacle connector according to an embodiment of the present invention;
5 is a perspective view of a terminal of a receptacle connector according to an embodiment of the present invention;
6 is a perspective view of a slider of a receptacle connector according to an embodiment of the present invention;
Figs. 7 and 8 are a sectional view taken along the line AA of Fig. 3 and a sectional view taken along line BB of Fig.
9 is a rear view of a receptacle connector according to an embodiment of the present invention;
10 is a perspective view of a plug connector according to an embodiment of the present invention;
Figs. 11 and 12 are a CC sectional view and a DD sectional view of Fig. 10;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to the accompanying drawings, embodiments of the present invention will be described in detail. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, a high frequency connector assembly according to an embodiment of the present invention includes a receptacle connector 100 and a plug connector 200 fastened to the receptacle connector 100.

The receptacle connector 100 is a connector having a structure capable of accommodating the plug connector 200, and is also referred to as a female connector. The plug connector 200 is a connector having a structure that can be inserted into the receptacle connector 100, and is also referred to as a male connector.

The above-described receptacle connector 100 and plug connector 200 are detachably fastened in a snap manner. To this end, the receptacle connector 100 is provided with a cantilever-type locking lever 112 capable of being elastically deformable, and the plug connector 200 is provided with a locking protrusion 212 which can be assembled with the locking lever 112.

The receptacle connector 100 will now be described with reference to Figs.

The receptacle connector 100 includes a housing 110, a socket terminal 120 installed inside the housing 110, and a slider 130 installed on the outside of the housing 110 and movable.

The housing 110 is a rectangular parallelepiped extending in the fastening direction of the connectors 100 and 200. A first body 110a into which the plug connector 200 is inserted is formed at the front end of the housing 110 and a second body 110b with a slider 130 installed at the rear end thereof.

A receiving space 111 is formed in the first body 110a and a plug connector 200 is inserted in the receiving space 111. [ At the upper portion of the accommodation space 111, a fastening lever 112 for fastening the snap connector to the plug connector 200 is provided. A loop-shaped lid 113 is provided at an upper portion of the clamping lever 112 to prevent the clamping lever 112 from being exposed to the outside.

An installation space 114 is formed in the second body 110b and a coaxial cable 140 is installed in the installation space 114. [ A guide rail 115, a fixing protrusion 116, and a slot 117 are formed on a side surface of the second body 110b. The guide rail 115 is positioned at the rear end side of the second body 110b to guide the movement of the slider 130. [ The fixing protrusion 116 is positioned on the intermediate side of the second body 110b to limit the movement of the slider 130. [ The slot 117 is located on the side of the tip of the second body 110b and is used to check whether the socket terminal 120 is properly positioned. At this time, the slot 117 is formed to penetrate the wall surface of the second body 110b so that the pressure ring 129 of the socket terminal 120 and the detection piece 133 of the slider 130 can be in contact with each other.

A partition (118 in FIG. 7) is formed between the first body 110a and the second body 110b. The partition 118 divides the inside of the housing 110 into a receiving space 111 and an installation space 114. [ At this time, the socket terminal 120 installed inside the housing 110 is coupled through the partition 118.

On the lower surface of the first body 110a, a lock piece (119 of FIG. 8) in the form of a cantilever which can be elastically deformed is provided. A lock projection 119a is formed at the tip of the lock piece 119 to be inserted into the lock groove (128 in FIG. 8) of the socket terminal 120. When the socket terminal 120 is seated in the correct position, the locking protrusion 119a is inserted into the lock groove 128 to fix the socket terminal 120.

The socket terminal 120 is a female terminal into which a plug terminal (220 in FIG. 11) of the plug connector 200 is inserted when the connectors 100 and 200 are fastened. The socket terminal 120 is in the form of a pipe extending in the fastening direction of the connectors 100 and 200. A space 122 for accommodating the plug terminal 220 is formed in the socket terminal 120 and a sleeve 124 for connection to the coaxial cable 140 is formed at the rear end.

A slit 126 is formed at the tip of the socket terminal 120. The slit 126 expands the distal end of the socket terminal 120 when the plug terminal 220 is inserted and shrinks the distal end of the socket terminal 120 after the plug terminal 200 is inserted. These slits 126 are formed in a plurality of radially arranged along the periphery of the socket terminal 120.

As shown in FIG. 5, eight slits 126 are arranged at equal intervals at the tip of the socket terminal 120, so that the tip of the socket terminal 120 is divided into eight equal parts. The eight slits 126 are composed of four short slits 126a arranged along the circumference of the socket terminal 120 and four long slits 124b arranged between the short slits 126a.

The short slit 126a serves to shrink the tip of the socket terminal 120 and the long slit 126b serves to extend the tip of the socket terminal 120. [ Therefore, when the short slit 126a and the long slit 126b are alternately disposed, the plug terminal 220 can be easily inserted into the socket terminal 120 and the plug terminal 220 inserted into the socket terminal 120 can be easily inserted into the socket terminal 120. [ Can be securely fixed. In particular, it is possible to prevent deformation of the tip of the socket terminal 120 during frequent fastening and disconnection of the connectors 100 and 200.

A lock groove 128 is formed at the rear end of the socket terminal 120 and a press ring 129 is formed at the rear of the lock groove 128. When the socket terminal 120 is seated in the correct position, a locking protrusion 119a is inserted into the lock groove 128 to fix the socket terminal 120. [ When the socket terminal 120 is seated in the correct position, the pressing ring 129 comes into contact with the detecting piece 133 of the slider 130 to extend the tip of the slider 130. [ To this end, the pressure ring 129 is positioned in correspondence with the slot 117 of the housing 110 when the socket terminal 120 is seated in place.

Referring to FIG. 6, the slider 130 has a half pipe shape that encloses a side surface and a bottom surface of the second body 110b. A guide groove 131 for guiding the movement of the slider 130 is formed on the inner wall of the slider 130 and a guide rail 115 of the housing 110 is inserted into the guide groove 131.

On the inner wall of the slider 130, a fixing groove 132 is formed. The fixing groove 132 is a means for fixing the slider 130 at a specific position by inserting the fixing protrusion 116 of the housing 110. That is, the fixing groove 132 is composed of a true fixing groove 132a for fixing the slider 130 moved forward and a tortuous groove 132b for fixing the slider 130 moved backward.

A detection piece 133 is formed on the inner wall of the slider 130. [ The detection piece 133 is inserted through the slot 117 of the housing 110 and is in contact with the pressure ring 129 when the socket terminal 120 is seated in the correct position.

At the bottom of the slider 130, auxiliary protrusions 134 are formed. The auxiliary protrusion 134 is located at the lower portion of the lock piece 119 when the slider 130 is moved forward and restrains the elastic deformation of the lock piece 119 so that the lock protrusion 119a of the lock protrusion 119a inserted into the lock groove 128 Thereby preventing escape.

A support arm 135 is provided at a rear end of the slider 130 to surround the coaxial cable 140 connected to the socket terminal 120. The support arms 135 are formed as a pair provided on both sides of the coaxial cable 140 and are bent in an arc shape so as to cover the coaxial cable 140. At this time, a support protrusion 136 for supporting the coaxial cable 140 is formed inside the support arm 135 (see FIG. 9).

The assembling process of the receptacle connector 100 according to the present embodiment will be described with reference to FIGS. 7 and 8. FIG.

7 and the top view of FIG. 8 show a state in which the socket terminal 120 is assembled to the housing 110, that is, a preset state, and the lower view of FIG. 7 and the lower view of FIG. The terminal 120 is fully assembled to the housing 110. FIG.

7 and 8, the socket terminal 120 is assembled in a sliding manner to the housing 110, and the slider 130 is located on the back side (coaxial cable 140 side). At this time, the fixing protrusion 116 of the housing 110 is inserted into the fixing groove 132b of the slider 130.

When the socket terminal 120 is inserted to the predetermined position, the pressing ring 129 of the socket terminal 120 comes into contact with the detecting piece 133 of the slider 130 to extend one end of the slider 130, The slider 130 moves away from the groove 132b to allow the slider 130 to move (see FIG. 7).

Meanwhile, the locking protrusion 119a formed on the lower surface of the housing 110 is inserted into the locking groove 128 to fix the socket terminal 120.

When the slider 130 is moved forward in the above-described state, the pressing ring 129 is separated from the detecting piece 133, and the fixing protrusion 116 is inserted into the fixed fixing groove 132a to fix the slider 130 from the front side .

The auxiliary protrusion 134 formed on the slider 130 is positioned below the lock piece 119 to prevent the locking protrusion 119a from escaping by restraining the elastic deformation of the lock piece 119. [

In this way, in a fully assembled state, even if an external force is applied, the slider 130 is not moved in the direction of the arrow in the figure.

Figs. 10 to 12 show the plug connector 200 fastened to the receptacle connector 100. Fig.

The plug connector 200 includes a housing 210, a plug terminal 220 provided inside the housing 210, and a slider 230 installed on the outside of the housing 210 and movable.

The housing 210 has a pipe shape extending in the fastening direction of the connectors 100 and 200. A second body 210b is formed at the tip of the housing 110 and has a first body 210a into which a socket terminal 200 is inserted and a second body 210b with a slider 230 at a rear end thereof.

A receiving space 211 is formed in the first body 210a and a socket terminal 200 is inserted in the receiving space 211. [ At the upper portion of the accommodation space 211, a fastening protrusion 212 to be assembled to the fastening lever 112 is provided.

An installation space 214 is formed in the second body 210b and a coaxial cable 240 is installed in the installation space 214. [ The side surface of the second body 210b is provided with a guide rail 215 for guiding the movement of the slider 230, a fixing protrusion 216 for restricting the movement of the slider 230, And a slot 217 for confirming whether or not it is connected.

A partition 218 is provided between the first body 210a and the second body 210b to partition the interior of the housing 110 into a receiving space 111 and an installation space 114. [

A locking protrusion 219a inserted into the locking groove 228 of the plug terminal 220 is provided at the front end of the locking piece 219. The locking protrusion 219a Is formed.

The plug terminal 220 is a mail terminal inserted into the socket terminal 120 when the connectors 100 and 200 are fastened. The plug terminal 220 is in the form of a pipe extending in the fastening direction of the connectors 100 and 200. A tapered portion 222 is formed at the front end of the socket terminal 220 and a sleeve 224 is formed at the rear end for connection with the coaxial cable 240. A lock groove 228 is formed at the rear end of the socket terminal 220 and a press ring 229 is formed at the rear of the lock groove 228.

The slider 230 has a half pipe shape surrounding the side surface and the bottom surface of the second body 210b. The inner wall of the slider 230 has a guide groove 231 for guiding the movement of the slider 230, A fixing groove 232 for fixing at a specific position and a detecting piece 233 for contacting the pressing ring 229 are formed. An auxiliary projection 234 is formed at the bottom of the slider 230 to suppress the elastic deformation of the locking piece 219. [

A supporting arm 235 for enclosing the coaxial cable 240 connected to the plug terminal 220 is provided at the rear end of the slider 230. Supporting projections 235 for supporting the coaxial cable 240 are provided in the support arm 235, (236) is formed.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Those skilled in the art will understand. Therefore, the scope of protection of the present invention should be construed not only in the specific embodiments but also in the scope of claims, and all technical ideas within the scope of the same shall be construed as being included in the scope of the present invention.

100: receptacle connector 110: housing
120: socket terminal 130: slider
140: Coaxial cable

Claims (18)

A high frequency connector assembly comprising a receptacle connector and a plug connector,
The receptacle connector includes:
A housing having a space formed therein for inserting a plug connector and installing a coaxial cable, a slot formed on a side of the space, and a fixing protrusion formed at a position adjacent to the slot;
A socket terminal coupled to the space in a sliding manner and having a pressure ring at a position corresponding to the slot; And
And a slider that is movably coupled to the housing in a longitudinal direction and is provided with a detection piece inserted through the slot and has a fixing groove into which the fixing protrusion is inserted,
Wherein when the socket terminal is seated in the correct position, the pressing ring contacts the detecting piece and expands one end of the slider to allow the fixing protrusion to move away from the fixing groove to allow the slider to move. assembly.
The method according to claim 1,
Wherein the fixing groove includes a fixed groove and a true fixing groove spaced apart from each other in a moving direction of the slider,
Wherein the fixing protrusion is detached from the tongue groove when the socket terminal is seated in the correct position, and is inserted into the tongue fixing groove when the slider is completely moved.
The method of claim 2,
A guide rail is formed in the housing, a guide groove is formed in the slider,
And the guide rail is inserted into the guide groove to guide the movement of the slider.
The method according to claim 1,
The housing has a locking protrusion, a locking groove is formed in the socket terminal,
And the locking protrusion is inserted into the locking groove to fix the socket terminal when the socket terminal is seated in the correct position.
The method of claim 4,
Wherein the housing is provided with a cantilever-shaped lock piece capable of being elastically deformable, and the locking protrusion is formed at the tip end of the lock piece.
The method of claim 5,
An auxiliary protrusion is formed on the slider, and the auxiliary protrusion suppresses elastic deformation of the lock piece when the slider is moved.
The method of claim 6,
And a support arm surrounding the coaxial cable connected to the socket terminal is provided at a rear end of the slider.
The method of claim 7,
And a support protrusion for supporting the coaxial cable is formed inside the support arm.
The method according to claim 1,
And a plurality of slits are radially disposed around the tip of the socket terminal.
The method of claim 9,
Wherein the slit comprises four short slits radially arranged along the periphery of the socket terminal and four long slits disposed between the short slits.
A high frequency connector assembly comprising a receptacle connector and a plug connector,
Wherein the plug connector comprises:
A housing having a space formed therein for inserting a socket terminal and installing a coaxial cable, a slot formed on a side of the slot, and a fixing protrusion formed at a position adjacent to the slot;
A plug terminal coupled to the space in a sliding manner and having a pressure ring at a position corresponding to the slot; And
And a slider that is movably coupled to the housing in a longitudinal direction and is provided with a detection piece inserted through the slot and has a fixing groove into which the fixing protrusion is inserted,
Wherein when the plug terminal is seated in the correct position, the pressing ring contacts the detecting piece to extend one end of the slider so that the fixing protrusion separates from the fixing groove to permit movement of the slider. assembly.
The method of claim 11,
Wherein the fixing groove includes a fixed groove and a true fixing groove spaced apart from each other in a moving direction of the slider,
Wherein the fixing protrusion is detached from the tongue groove when the plug terminal is seated in the correct position, and is inserted into the tongue fixing groove when the movement of the slider is completed.
The method of claim 12,
A guide rail is formed in the housing, a guide groove is formed in the slider,
And the guide rail is inserted into the guide groove to guide the movement of the slider.
The method of claim 11,
The housing is provided with a locking protrusion, a locking groove is formed in the plug terminal,
And the locking protrusion is inserted into the locking groove to fix the plug terminal when the plug terminal is seated in the correct position.
15. The method of claim 14,
Wherein the housing is provided with a cantilever-shaped lock piece capable of being elastically deformable, and the locking protrusion is formed at the tip end of the lock piece.
16. The method of claim 15,
An auxiliary protrusion is formed on the slider, and the auxiliary protrusion suppresses elastic deformation of the lock piece when the slider is moved.
18. The method of claim 16,
And a support arm which surrounds the coaxial cable connected to the plug terminal is provided at a rear end of the slider.
18. The method of claim 17,
And a support protrusion for supporting the coaxial cable is formed inside the support arm.

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