초록 ▼

A high frequency connector includes a first module and a second module for signal transmission. The two modules are easily manufactured and assembled. The disclosed high frequency connector can maneuverably connect with the connector thereof according to the required direction of signal transmission

A high frequency connector includes a first module and a second module for signal transmission. The two modules are easily manufactured and assembled. The disclosed high frequency connector can maneuverably connect with the connector thereof according to the required direction of signal transmission so that competent transmissive connection is achieved when the two modules are assembled and thus preventing generation of noise. The volume of each of the two modules is precisely designed so that the high frequency connector facilitates reduction in power loss when being implemented for the purpose of signal transmission.

대표청구항 ▼

What is claimed is: 1. A high frequency connector comprising: a first module and a second module connectable to the first module, wherein the first module comprises: a connecting element having a through hole, a first module insulator received in the through hole, a connector having a first passage

What is claimed is: 1. A high frequency connector comprising: a first module and a second module connectable to the first module, wherein the first module comprises: a connecting element having a through hole, a first module insulator received in the through hole, a connector having a first passageway and a second passageway intersecting the first passageway, with the connector having a connector insulator inserted in the connector through the first passageway, a first, L-shaped needle having first and second sections perpendicular to each other, a gap formed at one side of the connecting element, with the first section of the first, L-shaped needle inserted into the connecting element through the gap, with the second section of the first, L-shaped needle extending through the first module insulator received in the through hole, and a positioning insulator having first and second portions, wherein the first portion is larger than the through hole and the second portion is smaller than the through hole, with the second portion received in the through hole, with the first portion abutting with the connecting element outside the through hole when the second portion is received in the through hole, with the connecting element received in the second passageway of the connector, with the second portion sandwiched between the connecting element and the connector within the second passageway, with the second portion of the positioning insulator abutting and securing the first section of the first, L-shaped needle, wherein the positioning insulator balances impedance errors resulting from a shape of the first, L-shaped needle, wherein a mating length between the connecting element and the connector is enhanced and relative rotation between the connecting element and the connector is restricted. 2. The high frequency connector of claim 1, wherein the second module comprises: a second module connector having a positioning groove; a second module connecting element received by the second module connector, with the second module connecting element having an annular groove; and a C-shaped retaining ring wedged in the annular groove of the second module connecting element of the second module, wherein the C-shaped retaining ring has an effective end outwardly warped facilitating a combination between the second module connecting element and the second module connector, with the C-shaped retaining ring received in the positioning groove when the second module connecting element is received by the second module connector, with the second module connector and second module connecting element firmly positioned and protected from loosening and coming off when an external pulling force is applied, and torsion force is increased, with the connector of the first module received in the second module connector when the first and second modules are connected. 3. The high frequency connector of claim 1, wherein the first passageway has first and second ends spaced from and opposite each other, with the second passageway spaced from and intermediate to the first and second ends of the first passageway, with the first end being closed and the second end being open. 4. The high frequency connector of claim 3, wherein the first portion of the positioning insulator is slideably received in the first passageway, with the first portion extending past the second passageway when the first portion of the positioning insulator is slideably received in the first passageway, with the first portion of the positioning insulator sandwiched between the first end of the first passageway and the connecting element when the connecting element is received in the first passageway of the connector. 5. The high frequency connector of claim 1, wherein the second module comprises: a second module connector; a second module connecting element having a second module connecting through hole formed at one side of the second module connecting element; a second module insulator having a second module insulator through hole, with the second module insulator received in the second module connecting element; a second needle having a first, effective end including a connecting portion provided on the first, effective end of the second needle, with the second needle received in the second module insulator through hole, with the first, effective end of the second needle jutting into the second module connecting through hole and adapted for contacting one of an extended antenna and a coaxial cable when the second needle is received in the second module insulator through hole; a spacer abutting the second module connecting element and the second module insulator, with the spacer having a spacer indentation, with the second needle received in and abutting with the spacer indentation when the second needle is in the second module insulator through hole, with the spacer intermediate the second module insulator and the connecting portion, with the spacer formed of a material providing balancing of the impedance errors, wherein the spacer indentation is adapted to be sized according to a diameter of the one of the extended antenna and the coaxial cable for balancing the impedance errors occurring at an interface where the second needle contacts with the one of the extended antenna and the coaxial cable; a relatively smaller through hole with an outer end formed at one end of the second module connecting element, wherein a second end of the second needle juts out from the second module connecting element when the second needle is received in the second module insulator through hole, wherein the second module connector is fastened to the one end of the second module connecting element adjacent to the second end of the second needle; and a chamfered section formed on the outer end of the relatively smaller through hole of the second module connecting element balancing the impedance errors caused by different diameters of the second needle of the second module and the first, L-shaped needle of the first module when the first and second modules are connected, with the connector of the first module received in the second module connector and the second needle of the second module connected to the first, L-shaped needle when the first and second modules are connected. 6. The high frequency connector of claim 5 further having an accommodating space insulator and a positioning element adjustable towards the insulator with the insulator through hole, with the accommodating space insulator intermediate the positioning element and the first, effective end of the second needle, wherein the first, effective end of the second needle has a first needle circumference and the second end of the second needle has a second needle circumference, with the first needle circumference being greater than the second needle circumference, wherein the first, effective end of the second needle abuts the spacer and the insulator with the insulator through hole abuts the spacer opposite to the first, effective end of the second needle sandwiching the spacer in position between the first, effective end of the second needle and the insulator with the insulator through hole, wherein the first, effective end of the second needle holds the spacer against the insulator with the insulator through hole, with the first, effective end of the second needle sandwiched between the spacer and the accommodating space insulator, with the spacer being held tighter against the insulator with the insulator through hole when the positioning element is adjusted further towards the insulator with the insulator through hole and the accommodating space insulator is pushed against the first, effective end of the second needle. 7. The high frequency connector of claim 5, wherein the second module comprises: a positioning groove located on the second module connector; an annular groove located on the second module connecting element; and a C-shaped retaining ring wedged in the annular groove of the second module connecting element of the second module, wherein the C-shaped retaining ring has an effective end outwardly warped facilitating a combination between the second module connecting element and the second module connector, with the C-shaped retaining ring received in the positioning groove when the second module connecting element is received by the second module connector, with the second module connector and second module connecting element firmly positioned and protected from loosening and coming off when an external pulling force is applied, and torsion force is increased. 8. The high frequency connector of claim 7 further having an accommodating space insulator and a positioning element adjustable towards the insulator with the insulator through hole, with the accommodating space insulator intermediate the positioning element and the first, effective end of the second needle, wherein the first, effective end of the second needle has a first needle circumference and the second end of the second needle has a second needle circumference, with the first needle circumference being greater than the second needle circumference, wherein the first, effective end of the second needle abuts the spacer and the insulator with the insulator through hole abuts the spacer opposite to the first, effective end of the second needle sandwiching the spacer in position between the first, effective end of the second needle and the insulator with the insulator through hole, wherein the first, effective end of the second needle holds the spacer against the insulator with the insulator through hole, with the first, effective end of the second needle sandwiched between the spacer and the accommodating space insulator, with the spacer being held tighter against the insulator with the insulator through hole when the positioning element is adjusted further towards the insulator with the insulator through hole and the accommodating space insulator is pushed against the first, effective end of the second needle. 9. A high frequency connector comprising: a first module; and a second module connectable to the first module, wherein the second module comprises: a connector, a connecting element having a connecting through hole formed at one side of the connecting element, an insulator having an insulator through hole, with the insulator received in the connecting element, a needle having a first, effective end including a connecting portion provided on the first, effective end of the needle, with the needle received in the insulator through hole, with the first, effective end of the needle jutting into the connecting through hole and adapted for contacting one of an extended antenna and a coaxial cable when the needle is received in the insulator through hole, a spacer abutting the connecting element and the insulator, with the spacer having a spacer indentation, with the needle received in and abutting with the spacer indentation when the needle is in the insulator through hole, with the spacer intermediate the insulator and the connecting portion, with the spacer formed of a material providing balancing of impedance errors, wherein the spacer indentation is adapted to be sized according to a diameter of the one of the extended antenna and the coaxial cable for balancing the impedance errors occurring at an interface where the needle contacts with the one of the extended antenna and the coaxial cable, a relatively smaller through hole with an outer end formed at one end of the connecting element, wherein a second end of the needle juts out from the connecting element when the needle is received in the insulator through hole, wherein the connector is fastened to the one end of the connecting element adjacent to the second end of the needle, and a chamfered section formed on the outer end of the relatively smaller through hole of the connecting element balancing the impedance errors caused by different diameters of the needle of the second module when the first and second modules are connected. 10. The high frequency connector of claim 9, wherein the connecting element of the second module further comprises a larger accommodating space receiving the insulator. 11. The high frequency connector of claim 9 further having an accommodating space insulator and a positioning element adjustable towards the insulator with the insulator through hole, with the accommodating space insulator intermediate the positioning element and the first, effective end of the needle, wherein the first, effective end of the needle has a first needle circumference and the second end of the needle has a second needle circumference, with the first needle circumference being greater than the second needle circumference, wherein the first, effective end of the needle abuts the spacer and the insulator with the insulator through hole abuts the spacer opposite to the first, effective end of the needle sandwiching the spacer in position between the first, effective end of the needle and the insulator with the insulator through hole, wherein the first, effective end of the needle holds the spacer against the insulator with the insulator through hole, with the first, effective end of the needle sandwiched between the spacer and the accommodating space insulator, with the spacer being held tighter against the insulator with the insulator through hole when the positioning element is adjusted further towards the insulator with the insulator through hole and the accommodating space insulator is pushed against the first, effective end of the needle. 12. The high frequency connector of claim 9, wherein the second module further comprises: a positioning groove located on the connector, with the connecting element received by the connector; an annular groove located on the connecting element; a C-shaped retaining ring wedged in the annular groove of the connecting element of the second module, wherein the C-shaped retaining ring has an effective end outwardly warped facilitating a combination between the connecting element and the connector, with the C-shaped retaining ring received in the positioning groove when the connecting element is received by the connector, with the connector and connecting element firmly positioned and protected from loosening and coming off when an external pulling force is applied, and torsion force is increased. 13. The high frequency connector of claim 12 further having an accommodating space insulator and a positioning element adjustable towards the insulator with the insulator through hole, with the accommodating space insulator intermediate the positioning element and the first, effective end of the needle, wherein the first, effective end of the needle has a first needle circumference and the second end of the needle has a second needle circumference, with the first needle circumference being greater than the second needle circumference, wherein the first, effective end of the needle abuts the spacer and the insulator with the insulator through hole abuts the spacer opposite to the first, effective end of the needle sandwiching the spacer in position between the first, effective end of the needle and the insulator with the insulator through hole, wherein the first, effective end of the needle holds the spacer against the insulator with the insulator through hole, with the first, effective end of the needle sandwiched between the spacer and the accommodating space insulator, with the spacer being held tighter against the insulator with the insulator through hole when the positioning element is adjusted further towards the insulator with the insulator through hole and the accommodating space insulator is pushed against the first, effective end of the needle. 14. A high frequency connector comprising: a first module; and a second module connectable to the first module, wherein the second module comprises: a connector having a positioning groove, a connecting element received by the connector, with the connecting element having an annular groove, and a C-shaped retaining ring wedged in the annular groove of the connecting element of the second module, wherein the C-shaped retaining ring has an effective end outwardly warped facilitating a combination between the connecting element and the connector, with the C-shaped retaining ring received in the positioning groove when the connecting element is received by the connector, with the connector and connecting element firmly positioned and protected from loosening and coming off when an external pulling force is applied, and torsion force is increased.