KR101457499B1 - The coaxial cable and coaxial connecter for enhanced to electrically connecting through moving prevention a cable - Google Patents

Abstract

The present invention relates to a coaxial cable and a coaxial connecter with enhanced electrical connection by preventing the movement of a cable. More particularly, the present invention relates to a coaxial cable and a coaxial connecter with enhanced electrical connection by preventing the movement of a cable to reduce the assembly time. In the coaxial cable and the coaxial connecter with enhanced electrical connection by preventing the movement of a cable according to an embodiment of the present invention, an insert ring (19) is located in the back end of an insulator (15) and is integrated with a connector body (11). An external wire (4a) of the coaxial cable (1a) combined to a cable clamp (16a) is closely fixed to the coaxial connector (10a). An elastic tightening part (14) which stably and electrically connects an internal wire (2) and a center pin (12) is formed in the back end of the center pin (12).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coaxial cable and a coaxial connector,

The present invention relates to a coaxial cable and a coaxial connector fastened by a helical clamping press-fitting method, and more particularly to a coaxial cable and a coaxial connector fastened to each other by a screw clamping force of a clamp nut and a connector body, And the inner conductor of the coaxial cable is coupled to the center pin so that an electrical contact is stably maintained between the inner conductor and the center pin and the outer conductor of the coaxial cable, And an insert ring for supporting one end of an outer conductor is integrally formed on the inner side of the connector body while being positioned at a rear end of the insulator, and at the same time, an insert ring By integrally forming the elastic throttle portion formed by enlarging the incision in intervals, Simplification of the overall structure of the main body of the transformer and the on-site assembling work between the coaxial connector and the coaxial cable through the same also improves the simplicity and the assembling time is also larger than that of the split- The center pin of the coaxial connector and the inner conductor of the coaxial cable are uniformly coupled and the electric contact state is stably secured through the tightening action of the elastic fastening portion with respect to the internal conductor inserted in the center pin In addition, by preventing the occurrence of the PIMD through the above-described coupling state, it is possible to prevent the communication quality from being degraded or the communication being disconnected in the communication system, The present invention relates to coaxial cables and coaxial connectors having improved connection.

Generally, a wireless local loop (WLL) system, which is growing at a fast pace with recent digital mobile communication, is a wired line connecting a telephone station to a telephone set at a fixed location such as a home or office of a telephone subscriber In particular, it may be a system in which some or all of the transmission paths between the exchange and the subscriber are wirelessly constructed. In particular, the system may be a system in which a telephone communication network and user terminals are connected by radio using radio waves to transmit various information communication services .

Since the wireless subscriber line system is connected to a line of a telephone station using a wireless line, an antenna for transmitting and receiving a radio signal must be provided. A connector for a coaxial cable is used to connect to an antenna, a repeater, , Which is divided into male and female repeaters to be connected to the antenna and a female to be installed in the base station equipment, and to facilitate the connection between the antenna and the equipment and to provide ease of maintenance. The female and male connectors are connected to the antenna.

1, the conventional coaxial cable 1 and the coaxial cable connector 10 are electrically connected to each other as shown in FIG. 1. In the case of the coaxial cable 1, ; An insulator (3) surrounding the internal conductor (2); An outer conductor (4) surrounding the insulator (3); The outer conductor 4 itself is formed by a straight tubular corrugated pipe 5 having a corrugated and rounded portion in the form of a straight line and the coaxial cable 1 In the case of the coaxial cable connector 10 to be assembled, a cylindrical connector body 11 having a center pin 12 at the center of the front face thereof; A coupling nut 13 rotatably coupled to the front side of the connector body 11; And an electric signal of the internal conductor 2 is connected to the center pin 12 through the coupling with the internal conductor 2 in the center of the inside of the connector body 11 in a state of being in contact with the rear end of the center pin 12 A contact 14 for communicating; An insulator (15) for blocking an electrical signal from flowing to the connector body (11) side through the contact (14); A cable fixing ring 16 in the form of a split ring to be inserted into the connector main body 11 in a state of being stuck around the outer conductor 4 which is a straight bell pipe 5 of the coaxial cable 1; A sealing band 18 attached to the circumferential surface of the cable retaining ring 16 to be sealed around the outer conductor 4 through a tightening action of the cable retaining ring 16 together with the sealing action; An insert ring (19) for supporting one end of an outer conductor (4) of a coaxial cable (1) attached to the cable fixing ring (16); And a clamp nut 20 which is spirally coupled to the rear end of the connector main body 11 in a state where the coaxial cable 1 is inserted. The reference numeral 17 denotes a sealing band binding groove 17 formed in the circumferential direction on the circumferential surface of the cable fixing ring 16 for binding the sealing band 18.

The assembling process of the conventional coaxial cable 1 and the coaxial cable connector 10 constructed as described above will be briefly described. First, around the outer conductor 4 of the coaxial cable 1, which is the straight type bellows 5, The cable fixing ring 16 is attached and then the sealing band 18 is fastened to the circumferential surface of the cable fixing ring 16 to fasten the cable fixing ring 16 through the elastic force of the sealing band 18, The conventional cable 1 is inserted into the rear of the connector body 11 by inserting the cable fixing ring 16 having the outer conductor 4 fixed thereto and the connector body 11 and the clamp nut 20 by the spiral. And the connector 10 for the coaxial cable are terminated.

However, in the case of the connection structure in which the conventional coaxial cable 1 and the coaxial cable connector 10 are assembled, the cable fixing ring 16 to which the external conductor 4 is attached is inserted into the rear inner side of the connector body 11 And then the connector main body 11 and the clamp nut 20 are connected to each other by a spiral connection. Thus, microdischarge due to a gap between the metals and microcracks during a certain period of time or a certain period of time, Nonlinear contact nonlinearity associated with particles, and natural factors such as wind vibration, various forms of moisture, temperature variations, solar thermal effects, and natural factors such as dust in the air, (1) is not fully tightly fixed to the connector (10) for coaxial cable, and flow occurs due to the clearance, so that the communication quality in the communication system deteriorates or the call is disconnected There were huge problems such as that would be.

In order to prevent the flow of the coaxial cable 1 over a predetermined period of time or for a predetermined period of time in the connection structure in which the conventional coaxial cable 1 and the coaxial cable connector 10 are assembled, The cable clamping ring 16 urged by the front end of the clamp nut 20 is pulled out of the outer conductor 4 of the coaxial cable 1 when the clamp nut 20, The diameter of the cable fixing ring 16 to which the outer diameter is tightened through the elastic force of the sealing band 18 is enlarged and is moved to the front side of the outer conductor 4, The coaxial cable 1 can not be held in close contact with the coaxial cable connector 10 due to the structural characteristics such as shaking of the coaxial cable 1 and finally, The problem with the same problems stated above is to shaking occurs in the cable (1) is generated.

In addition, when assembling the conventional coaxial cable 1 and the coaxial cable connector 10, a worker needs to place a cable fixing ring (not shown) in the form of a split ring around the outer conductor 4 of the coaxial cable 1, The cable fixing ring 16 is fastened to the circumferential surface of the cable fixing ring 16 and the cable fixing ring 16 is tightened through the elastic force of the sealing band 18, The assembling operation by the operator in the field, such as inserting the cable retaining ring 16, which is engaged with the cable retaining ring 16, inside the connector body 11 and connecting the connector main body 11 and the clamp nut 20 by spirals It is very troublesome and inconvenient, and the assembling time for this is too long.

Further, in the case of the connection structure in which the conventional coaxial cable 1 and the coaxial cable connector 10 are assembled, it is inserted into the contact 14 of the coaxial cable connector 10 to tightly hold the internal conductor 2, The connecting portion between the coaxial cable 1 and the connector 10 for the coaxial cable due to an external impact, that is, the sealing band 18, The distance between the cable fixing ring 16 and the outer conductor 4 where the outer diameter is tightened through the elastic force of the coaxial cable 1 is loosened and the coaxial cable 1 is not completely fixed to the coaxial cable connector 10, The communication quality degrades or the call is disconnected in the communication system, which causes the same problems as the above-mentioned problems.

In order to solve the above-described problems, the present invention provides a cable clamp for a cable clamp, comprising: a cable clamp, which is screwed to the insert body by a screwing force of a clamp nut and a connector body, The coaxial cable and the coaxial cable are connected to each other by the coaxial cable, and the coaxial cable and the coaxial cable are connected to each other, An inserting ring for supporting one end of an outer conductor is integrally formed on the inside of the connector body in a state where it is positioned at the rear end of the insulator and at the same time, The overall structure of the connector main body can be simplified It is an object of the present invention to improve the simplicity of on-site assembly work between the coaxial connector and the coaxial cable through the same, and to shorten the assembling time to a much shorter time than the cable fixing ring system of a split structure having a tightening action by a conventional sealing band .

In addition, in the present invention, uniform tight coupling between the center pin of the coaxial connector and the inner conductor of the coaxial cable and the state of the electrical contact can be stably ensured through the tightening action of the elastic tightening portion with respect to the inner conductor inserted into the center pin Another object of the present invention is to prevent the PIMD from being generated due to the above-described coupling state, thereby reducing the communication quality in the communication system and preventing the communication from being interrupted.

According to the present invention, there is provided a cable clamping means for clamping a coaxial cable in a state where the coaxial cable is inserted through the clamping nut, that is, a split ring seated in a clamping step formed inside the rear end of the clamping nut, And the cable clamping means is screwed to the rear end of the clamp nut so as to tighten the outer diameter of the coaxial cable while the outer diameter of the split ring is reduced so that the coaxial cable and the coaxial cable are fastened together, It is possible to more reliably prevent the flow of the coaxial cable due to environmental factors of the PIMD and to further improve the performance of the PIMD.

According to an aspect of the present invention, there is provided a coaxial cable and a coaxial connector, wherein a coupling nut is rotatably coupled to an outer circumferential surface of a front surface of the main body, a center pin is installed at a center of a front surface of the main body, An insulator for preventing an electric signal transmitted from an internal conductor of a coaxial cable bundled in the center pin from being leaked to the outside is inserted into and fitted to the outer circumferential face of the center pin; And an outer circumferential surface of the inner conductor, which is a core wire, is connected to the outer surface of the insulator, and the outer circumferential surface of the inner conductor, which is a core wire, , An outer conductor, and an outer sheath in this order, The inner conductor of the axial cable is bound in the center pin, and a coaxial cable and a coaxial connector for electrically connecting the inner conductor and the center pin are connected to the coaxial connector, a pair of outer conductors protruding forward in a state of being supported by the cable clamp Wherein the insert ring is integrated in the inside of the connector body in a state where the insert ring is positioned at the rear end of the insulator and the clamping nut is inserted into the coaxial cable through a screw connection between the outer conductor of the coaxial cable and the cable clamp of the coaxial connector The cable clamp pressurized by the front end of the clamp nut that goes into the rear of the coaxial connector through the screw feed force by the screwing of the connector body is transferred to the insert ring side and the coaxial cable screwed to the cable clamp The outer conductor is also pressed against the rear face of the insert ring to be pressed The center pin is integrally formed at the rear end of the center pin at an equal interval along the circumference of the center pin. The cable clamp and the cable clamp are connected to each other by a clamp nut when the coaxial cable is coupled to the inside of the center pin. The center pin is also held firmly by the elastic action of reducing the circumferential enlarged circumferential surface in the process of being transferred from the insert ring to the front side by the pressing action of the inner conductor being transported in the same direction, And an elastic fastening portion for stably establishing an electrical contact between the internal lead and the center pin.

According to the present invention, the coaxial cable and the coaxial connector are mutually fastened in a state of stably establishing an electrical contact between the internal lead of the coaxial cable and the center pin of the coaxial connector through the screw fastening method of the clamp nut and the connector body, An insert ring for supporting one end of the outer conductor is integrally formed on the inner side of the connector body in a state where it is located at the rear end of the center pin and at the same time, So that the overall structure of the connector body is simplified and the simplification of the assembly work between the coaxial connector and the coaxial cable is improved. In addition, the assembling time is also reduced by the conventional sealing band, Ring system can be remarkably shortened compared with the ring system.

Also, by tightening the elastic tightening portion with respect to the inner conductor inserted into the center pin, uniform coupling and electrical contact between the center pin of the coaxial connector and the inner conductor of the coaxial cable can be stably secured, In addition, the PIMD can be prevented from causing the PIMD to be disconnected due to the communication quality degradation in the communication system.

The clamping means for clamping the coaxial cable in a state where the coaxial cable is inserted through the clamping nut, that is, the split ring seated in the engaging step formed inside the rear end of the clamping nut, is tightened through the tightening action of the tightening bolt screwed to the rear end of the clamping nut The cable clamping means is screwed to the rear end of the clamp nut to tighten the outer diameter of the coaxial cable while the outer diameter of the split ring is reduced. Accordingly, the coaxial cable and the coaxial connector are fastened together, It is possible to more reliably prevent the coaxial cable from flowing due to a factor and also to be applied as another means for improving PIMD performance.

1 is a cross-sectional view schematically showing an assembly state of a conventional coaxial cable and a connector for a coaxial cable.
2 is a perspective view schematically showing a state in which a coaxial cable and a coaxial connector of the present invention are assembled.
3 is an exploded view of a coaxial cable and a coaxial connector according to the present invention.
4 is an assembled cross-sectional view illustrating an assembled state of a coaxial cable and a coaxial connector according to the present invention.
5 is a detailed view of a center pin of a coaxial connector according to the present invention.
6 is an exploded view of a cable tightening means in a coaxial connector according to the present invention;
7A to 7C are diagrams illustrating a process of assembling a coaxial cable and a coaxial connector according to the present invention.

A coaxial cable and a coaxial connector (hereinafter referred to as a coaxial cable and a coaxial connector) having improved electrical connection through prevention of the cable movement of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view schematically showing a coaxial cable and a coaxial connector according to the present invention assembled, FIG. 3 is an exploded view of a coaxial cable and a coaxial connector according to the present invention, FIG. 4 is a cross- Sectional view showing an assembled state of the coaxial connector.

FIG. 5 is a detailed view of a center pin of a coaxial connector according to the present invention, and FIG. 6 is an exploded view of a cable tightening means of a coaxial connector according to the present invention.

Before describing the connection structure of the coaxial cable 1a and the coaxial connector 10a of the present invention, the same reference numerals are applied to the same components as the connection structure of the conventional coaxial cable 1 and the coaxial connector 10 .

The coaxial cable 1a according to the present invention is provided with an internal conductor 2 in the form of a core wire as shown in Figs. 2 to 4; An insulator (3) surrounding the internal conductor (2); An outer conductor (4a) surrounding said insulator (3); And a sheath 6 surrounding the outer conductor 4a. The outer conductor 4a is formed in a spiral-shaped corrugated pipe 5a.

2 to 4, the connector, that is, the coaxial connector 10a, which is electrically connected to the coaxial cable 1a configured as described above, is provided with a center pin 12 at the center of the front face A hollow cylindrical tubular connector body 11; A coupling nut 13 rotatably coupled to the front side of the connector body 11; An electrical signal transmitted from the inner conductor 2 of the coaxial cable 1a coupled to the outer circumferential surface of the center pin 12 and coupled to the center pin 12 is leaked to the outside of the connector main body 11 An insulator (15) for blocking; A cable clamp 16a to be inserted into the connector body 11 in a state of being screwed to the outer conductor 4a of the coaxial cable 1a; An insert ring 19 for supporting one end of the outer conductor 4a of the coaxial cable 1a screwed to the cable clamp 16a; And a clamp nut 20 spirally coupled to a rear end of the connector main body 11 in a state where the coaxial cable 1a is inserted.

In other words, in the case of the coaxial cable 1a and the coaxial connector 10a of the present invention, the coupling nut 13 is rotatably coupled to the outer peripheral surface of the front surface of the main body 11, A center pin 12 is installed in the center of the front surface and an insulator 15 for preventing an electric signal transmitted from the internal conductor 2 bound in the center pin 12 from being leaked to the outside, The connector body 11 of the hollow cylindrical body provided on the outer circumferential surface of the center pin 12 is fixed to the connector main body 11 so that the coaxial cable 1a protrudes in a state of being inserted therethrough, And the outer circumferential surface of the inner conductor wire 2 which is a core wire is surrounded by the insulator 3, the outer conductor wire 4a and the outer sheath 6 in this order, in a coaxial connector 10a composed of a clamp nut 20, (1a) of the coaxial cable (1a) is tightened so that the internal conductor (2) of the coaxial cable And is connected to the center pin 12 so as to stably establish an electrical contact between the internal lead 2 and the center pin 12.

The components of the coaxial cable 1a and coaxial connector 10a of the present invention having such a coupling structure will be described in detail as follows.

First, as a coaxial cable 1a, it has the same structure as a conventional coaxial cable 1 and has a structure for helical connection with a cable clamp 16a of a coaxial connector 10a, Shaped spiral pipe 5a so that the spiral connection between the outer conductor 4a of the coaxial cable 1a and the cable clamp 16a of the coaxial connector 10a can be applied to the coaxial connector 10a and the coaxial cable 1a can be easily and easily assembled and the assembling time of the coaxial cable 1a can be greatly shortened compared with the conventional cable fixing ring 16 having a tightening action by the conventional sealing band 18 The internal conductor 2, the insulator 3, and the sheath 6, which are typical structures, will not be described in detail.

The coaxial connector 10a in which the coaxial cable 1a is assembled and fixed is also structured in the same manner as a conventional coaxial connector 1 and is connected to the external conductor 4a of the coaxial cable 1a The cable clamp 16a to be inserted into the connector body 11 is formed in the form of a spiral-shaped corrugated pipe 5a instead of the cable fixing ring 16 of the divided structure having a tightening action by the conventional sealing band 18 And is formed as a hollow circular ring so as to be assembled through the spiral connection with the outer conductor 4a of the coaxial cable 1a and also has a female thread hole 17a for spirally coupling with the outer conductor 4a And as described above with reference to the coaxial cable 1a, it is also possible to connect the outer conductor 4a of the coaxial cable 1a and the cable clamp 16a of the coaxial connector 10a, The coaxial connector 10a, The assembling work of the cable 1a is made easier and simpler and the assembling time can also be shortened to be much shorter than that of the cable fixing ring 16 of the divided structure having the tightening action by the conventional sealing band 18 Technical characteristics.

In addition, in the case of the cable clamp 16a, the outer conductor 4a of the coaxial cable 1a and the cable clamp 16a of the coaxial connector 10a during the assembly process of the coaxial cable 1a and the coaxial connector 10a, The cable clamp 16a is separated from the connector main body 11 such that the cable clamp 16a is inserted and fixed to the inside of the rear side of the connector main body 11 in a spiral- And the outer cable 4a of the coaxial cable 1a is directly coupled to the cable clamp 16a that is press-fitted into the cable clamp 16a so that the cable clamp 16a is press- It is possible to obtain a characteristic effect that the assembling operation in the field is easier and more convenient, and the assembling time can also be shortened.

Further, in order to simplify the overall structure of the connector body 11 and simplify the on-site assembly work, an outer conductor 4a protruded forward in a state of being supported by the cable clamp 16a An insert ring 19 for supporting one end is integrally formed on the inside of the connector body 11 in a state where it is positioned at the rear end of the insulator 15. [

A description will now be made of the fastening process of the coaxial cable 1a and the coaxial connector 10a having the above structure. First, before the coaxial cable 1a is fastened to the coaxial connector 10a, And the screw clamping force of the clamp nut 20 and the connector main body 11 through which the coaxial cable 1a is inserted is screwed into a threaded connection between the clamp nut 4a and the cable clamp 16a of the coaxial connector 10a, The cable clamp 16a pressed by the front end of the clamp nut 20 which enters the rear of the coaxial connector 10a through the cable clamp 16a is moved to the side of the insert ring 19, The outer conductor 4a of the coupled coaxial cable 1a is also tightly fixed to the coaxial connector 10a through a shortened length which is conveyed and pressed to the rear face of the insert ring 19, (2) of the center pin (1 a) The coaxial cable 1a and the coaxial connector 10a are fastened to each other while stably establishing an electrical contact between the internal lead 2 and the center pin 12. [

The fastening method of the coaxial cable 1a and the coaxial connector 10a of the present invention, which are fastened by such screw fastening and press-fitting method, is described in detail in "Spring and helical fastening indentation method ", filed Feb. 5, And a connector for a coaxial cable to be connected and a connector for a coaxial cable (Utility Model Application No. 20-2013-0000938) ".

As shown in FIG. 5, the coaxial connector 10a of the present invention is formed at the rear end of the center pin 12 at an equal interval along the circumferential surface thereof to form a coaxial cable 1a The inner conductor 2 and the insulator 3 which are transported in the same direction together with the cable clamp 16a through the clamping of the clamp nut 20 at the time of engagement of the inner lead 2 of the center pin 12, The inner circumferential surface of the insert ring 19 is pressed and contracted by the insert ring 19 so as to hold the inner conductor 2 tightly so that the coaxial cable The elastic throttle 14 is further provided with an electric contact between the inner lead 2 and the center pin 12 so as to stably establish an electrical contact with the flow of the fluid, A hollow circle formed integrally with the rear end of the center pin 12, The cutout 14a has a plurality of cutouts 14a formed at equal intervals in the longitudinal direction around the circumferential surface of the cylindrical body. The cutout 14a cuts the elastic tightening portion 14 gradually toward the rear end It is composed of enlarged structure.

As described above, the coaxial cable 1a prevents the coaxial cable 1a from moving from the coaxial connector 10a to which the internal conductor 2 is coupled through the elastic throttle portion 14 provided at the rear end of the center pin 12 6, in order to further stabilize the flow of the coaxial cable 1a and maintain the stable state of the coaxial connector 10a according to the present invention, The diameter of which is reduced in correspondence with the pushing action of the tightening bolt 35 which is screwed with the rear end of the clamp nut 20 in the process of fixing the clamp nut 20 in a state where it is inserted through the clamp nut 20, The outer diameter of the coaxial cable 1a is set at the rear end of the clamp nut 20 so that the coaxial cable 1a can be maintained in a fixed state without being flowed from the clamp nut 20 through a tightening action of the clamping nut 32 To hold The cable tightening means 30 may be further provided. Hereinafter, the cable tightening means 30 will be described in more detail.

As described above, in the case of the cable tightening means 30 provided at the rear end of the clamp nut 20, the engagement step 31 formed inside the rear end of the clamp nut 20; The diameter of the coaxial cable 1a is reduced in correspondence with the pressing action of the tightening bolt 35 screwed to the rear end of the clamp nut 20 and secured to the engaging step 31 so as to tighten the outer diameter of the coaxial cable 1a, An incision split ring 32; The split ring 32 is screwed to the rear end of the clamp nut 20 in a state where the split ring 32 is seated on the retaining step 31 to tighten the outer diameter of the coaxial cable 1a through the reduction of the outer diameter of the split ring 32, And a tightening bolt (35) for providing a pressing force.

In the case of the split ring 32, the entire shape of the split ring 32 is formed in the shape of a circular ring. At one side of the outer peripheral surface of the split ring 32, a diameter corresponding to the pushing action of the tightening bolt 35 screwed to the rear end of the clamp nut 20 The outer diameter of the coaxial cable 1a can be tightened while the outer diameter of the split ring 32 is reduced and the diameter of the split ring 32 can be elastically reduced and restored to correspond to the pressing action of the tightening bolt 35 A cut-out portion 33 is formed.

In the case of the tightening bolt 35, the entire shape of the tightening bolt 35 is formed as a cylindrical body having a hollow diameter stepped portion through which the cable insertion hole 36 is inserted so that the coaxial cable 1a can be inserted. A fastening bolt 35 is fastened to the outer circumferential surface of the clamp nut 20 and fastening bolts 35 in the same manner as a spanner And a tool engaging portion 38 is formed with the outer peripheral surface of the rear end of the clamp nut 20 so that the tool can be engaged and rotated.

In addition, a cable insertion hole 36 is formed at the center of the front surface of the tightening bolt 35, that is, at the center of the front surface of the tightening bolt 35 and at the rear end of the split ring 32, The inner and outer inclined guide portions 34 and 37 are formed in such a manner that the pushing action of the tightening bolt 35 for reducing the diameter of the split ring 32 can be smoothly performed in the process of fastening the fastening bolt 35 to the rear end of the split ring 32 Respectively.

In addition to the connector body 11 having the center pin 12 among the coaxial connector 10a of the present invention, the coupling nut 13, the insulator 15 which is an insulator of insulating action, In the case of the cable clamp 16a and the clamp nut 20 which are screwed onto the outer conductor 4a of the cable 1a, the applicant of the present invention has proposed a coaxial connector having a scratch prevention means (Registration No. 10-1137806) ", which is incorporated herein by reference in its entirety, and a coupling structure of a coupler freely rotatably coupled to the front end of the body, The same as the connector body, coupling nut, insulator, cable clamp and clamp nut provided with the center pin applied to the coaxial cable and the coaxial cable connector (Practical New Patent Application No. 20-2013-0000938) Because it consists of The insert ring 19 integrally formed on the inside of the connector body 11 is also applicable to a connector for a coaxial cable of Utility Model Application No. 20-2013-0000938 filed by the present applicant An insert ring or a hollow circular ring shape and connected to the outer conductor of the coaxial cable 1a protruded forward of the cable clamp 16a in a spiral connection with the cable clamp 16a of the coaxial connector 10a The insert ring 19 is formed so that the internal conductor 2 and the insulator 3 of the coaxial cable 1a can pass through the inner center of the insert ring 19 while supporting one end of the insert ring 4a, A cable insertion hole 19a formed at the center of the insulator 3 is formed so as to have a diameter larger than an outer diameter of the insulator 3 and smaller than an outer diameter of the outer conductor 4a, A difference in whether the insert ring 19 is formed integrally with the inside of the connector body 11 as in the present invention or is formed in such a manner that the insert ring 19 is separated from the inside of the connector body 11 And the functional role and the technical characteristics of the insert ring 19 are the same.

The clamping process of the coaxial cable 1a and the coaxial connector 10a as described above, that is, the screw clamping of the clamp nut 20 and the connector body 11, The outer conductor 4a of the coaxial cable 1a screwed to the cable clamp 16a is conveyed and pressed to the rear face of the insert ring 19 and the inner conductor 4a of the coaxial cable 1a 2 are fastened in the center pin 12 so that the coaxial cable 1a and the coaxial connector 10a are fastened together with a stable electrical contact between the internal lead 2 and the center pin 12, The elastic clamping portion 14 formed integrally at the rear end of the fin 12, that is, the clamping portion 16 is cut along the circumferential surface at equal intervals and is transported in the same direction together with the cable clamp 16a through the clamping of the clamp nut 20 The internal conductor 2 is inserted by the pressing action of the internal conductor 2, The center pin 12 itself is transferred from the insert ring 19 to the front side of the inner lead 2 through the elastic action of the elastic thrust section 14 being press- And the center pin 12 is connected to the inner lead 2 and the center pin 12 by a tightening force so as to stably establish an electrical contact between the inner lead 2 and the center pin 12 and to be connected to the rear end of the clamp nut 20 with the coaxial cable la- A fastening bolt 35 which is screwed to the rear end of the clamp nut 20 for pressing the fastening means 30, that is, the split ring 32 seated in the fastening step 31 formed inside the rear end of the clamp nut 20, The split ring 32 is pressed into the cable insertion hole 36 formed at the center of the front surface of the tightening bolt 35 and at the same time the entire outer diameter of the split ring 32 is pressed The outer diameter of the split ring 32 through the cutout 33 is reduced The outer diameter of the coaxial cable 1a is tightened so that the flow of the coaxial cable 1a due to an external environmental factor in a state where the coaxial cable 1a and the coaxial connector 10a are fastened together The coaxial cable 10a can be firmly fixed to the coaxial connector 10a without the flow action to the coaxial cable 1a through the elastic clamping portion 14 of the center pin 12 and the cable clamping means 30, When assembled in a fixed state, the coaxial connector 10a is connected to the coaxial connector 10a through a spiral connection between the outer conductor 4a of the coaxial cable 1a and the cable clamp 16a of the coaxial connector 10a, And the coaxial cable 1a can be easily and easily assembled and the assembling time can also be shortened significantly compared with the cable fixing ring 16 of the split structure having the tightening action by the conventional sealing band 18 Of course, It is possible to ensure a uniform coupling and electrical contact state between the center pin 12 of the shaft connector 10a and the inner conductor 2 of the coaxial cable 1a, PIMD (Passive Intermodulation Distortion) is a term used to describe a PIMD (Intermodulation Distortion), where two or more signal frequencies interfere with one another to generate unwanted parasitic signals. Distortion phenomenon occurs in a passive device. The cause of the PIMD is nonlinear contact nonlinearity related to microdischarge due to gaps between metals and microcracks, dust on metal surfaces, and metal particles. contact nonlinearity and wind-induced vibration, various forms of moisture, temperature changes, sun-induced thermal imbalance, And the natural factor. The PIMD can be improved in the performance of the PIMD by preventing the communication quality from dropping or the call being disconnected in the communication system.

Between the connector main body 11 and the coupling nut 13, between the connector main body 11 and the clamp nut 20, and between the clamp nut 20 and the outside of the clamp nut 20, A sealing member 21 for preventing rainwater or fine dust or the like flowing into the connector main body 11 from flowing into the connection portion of the connector main body 11 and the coaxial cable 1a is provided.

In order to simplify the structure of the coaxial connector 10a of the present invention, that is, to simplify the overall structure of the connector body 11 and to facilitate the on-site assembly work, And a structure in which an insert ring 19 is integrally formed on the inside of the connector body 11 and a structure in which the internal lead 2 is formed so as to stably establish an electrical contact between the internal lead 2 and the center pin 12. [ The center pin 12 is integrally formed at the rear end of the center pin 12 so as to stably clamp the coaxial cable 1a and the coaxial cable 1a, (30) is screwed to the rear end of the clamp nut (20) so as to hold the outer diameter of the coaxial cable (1a) so that the coaxial cable (1a) If the applicant Applied to the above-mentioned coaxial cable connector among the coaxial cable and coaxial cable connector (Utility Model Application No. 20-2013-0000938), which was filed on Feb. 05, 2013, It should be noted that it may be used.

Hereinafter, an assembling process of the coaxial cable 1a and the coaxial connector 10a according to the present invention will be described with reference to the accompanying drawings.

7A to 7C are views illustrating a process of assembling the coaxial cable and the coaxial connector according to the present invention.

First, before the coaxial cable 1a and the coaxial connector 10a are assembled, the clamp nut 20, into which the coaxial cable 1a is inserted, is spirally engaged with the connector body 11 of the coaxial connector 10a A hollow cable-type cable clamp (see FIG. 7A) having an outer conductor 4a of a coaxial cable 1a made of a spiral-shaped bell tube 5a and a female-threaded hole 17a formed in the center thereof, And then the cable clamp 16a is inserted into the rear of the connector main body 11 and the connector main body 11 and the clamp nut 16a are screwed together, 20).

At this time, the connector main body 11 in which the cable clamp 16a with the outer lead wire 4a is inserted and inserted and the cable clamp 16a in which the coaxial cable 1a is inserted together with the outer lead wire 4a, As shown in FIG. 7 (a), the clamp nut 20 and the connector body 11 enter the rear of the coaxial connector 10a through the screw feed force by the screwing of the screw nut 20 The cable clamp 16a pressed by the front end of the clamp nut 20 is transferred to the side of the insert ring 19 and the outer conductor 4a of the coaxial cable 1a screwed to the cable clamp 16a The inner conductor 2 and the insulator 3 of the coaxial cable 1a are inserted into a cable insertion hole 19a passing through the center of the insert ring 19 And is conveyed to the rear end side of the center pin 12, but the cable clamp of the coaxial connector 10a One end of the outer conductor 4a of the coaxial cable 1a protruded forward of the cable clamp 16a by being spirally coupled with the ramp 16a is caught by the insert ring 19 and can not advance further, .

At this time, in the case of the internal conductor 2 passing through the cable insertion hole 19a of the insert ring 19 and being transferred to the rear end side of the center pin 12, the entire protruded length becomes the rear end of the center pin 12 A portion of the elastic throttle portion 14 formed integrally with the elastic throttle portion 14, that is, the elastic throttle portion 14 having a cut-enlarged structure along the circumferential surface at an equal interval is not completely inserted but only a part of the elastic throttle portion 14 is inserted. A portion of the rear end of the elastic throttle portion 14 is positioned so as to protrude through the rear end of the insert ring 19.

7 (b), when the clamp nut 20 is screwed with the connector body 11 in the assembled state, the clamp nut 20 is pressed by the front end of the clamp nut 20, The cable clamp 16a is further transferred to the side of the insert ring 19 and the outer conductor 4a of the coaxial cable 1a abuts against the rear surface of the insert ring 19 is pressed, At the same time, the inner conductor 2 of the coaxial cable 1a, which was partially inserted into the elastic throttle 14 at the rear end of the center pin 12, is inserted further into the elastic throttle 14, When the internal conductor 2 is inserted deeply into the elastic throttle 14, the elastic throttle 14 is tightened to the internal conductor 2 in conjunction with the internal conductor 2, To securely hold each other, Can achieve a contact, specifically with respect to the tightening action of the elastic throttle 14 is as follows.

The cable clamp 16a pressed by the front end of the clamp nut 20 is further transferred to the insert ring 19 side and the coaxial cable 16a abutting against the rear face of the insert ring 19, The outer conductor 4a of the coaxial cable 1a is compressed in a shortened length while the outer conductor 4a of the coaxial cable 1a is pressed and the compressive action of the shortening of the length is performed, The rear end of the center pin 12 is connected to the rear end of the center pin 12 by the elastic clamping part 14 protruding through the rear end of the insert ring 19 while being transferred to the front side in the same direction together with the cable clamp 16a, The elastic thrust section 14 pressed by the insulator 3 of the coaxial cable 1a as described above is pressed against the rear end of the insert pin 14 together with the center pin 12, While being transferred through the ring 19 and forward, The internal conductor 2 and the center pin 12 are connected to each other in accordance with a tightening action that tightly holds the internal conductor 2 inserted into the internal depth of the elastic throttle portion 14 through an elastic action of reducing the diameter of the turn- The coaxial cable 1a is fastened to the coaxial connector 10a with a stable electrical contact.

Then, finally, the cable clamping means 30 provided at the rear end of the clamp nut 20, that is, the feed of the tightening bolt 35 screwed to the rear end of the clamp nut 20 as shown in Fig. The coaxial cable 1a is clamped to the clamp nut 20 by the tightening action corresponding to the pressing action and the diameter of the split ring 32 seated on the engaging step 31 formed inside the rear end of the clamp nut 20 is reduced, The outer diameter of the coaxial cable 1a is held so that the coaxial cable 1a can be maintained in a fixed state without flowing from the outer circumference of the coaxial cable 1a.

When the center pin 12 is assembled in a state in which the center pin 12 is completely tightly fixed to the coaxial connector 10a without the flow action on the coaxial cable 1a through the elastic throttle portion 14 and the cable tightening means 30 The coaxial connector 10a and the coaxial cable 1a are connected to each other through a spiral connection between the outer conductor 4a of the coaxial cable 1a and the cable clamp 16a of the coaxial connector 10a, The assembling operation can be simplified and simplified, and the assembling time can be significantly shortened as compared with the cable fixing ring 16 having the split structure having the tightening action by the conventional sealing band 18, as well as the coaxial connector 10a and the inner conductor 2 of the coaxial cable 1a, and also it is possible to secure the state of electrical contact between the center pin 12 of the coaxial cable 1a and the inner conductor 2 of the coaxial cable 1a, The call is disconnected It can achieve improved performance on PIMD such as prevention.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

1a. Coaxial cable 2. internal lead
3. Insulation 4a. Outer conductor
5a. Spiral corrugated pipe 6. Sheath
10a. Coaxial connector 11. Connector body
12. Center pin 13. Coupling nut
14. Elastic tightening portion 14a, 33. Cutting portion
15. Insulator 16a. Cable clamp
17a. Female thread hole 19. Insert ring
19a, 36. Cable insertion hole 20. Clamp nut
21. Sealing member 30. Cable tightening means
31. Hanging step 32. Split ring
34. Outside taper guide 35. Tightening bolt
37. Inner inclined guide portion

Claims (5)

A coupling nut 13 is rotatably coupled to an outer circumferential surface of a front surface of the main body 11 and a center pin 12 is installed in the center of the front surface of the main body 11, An insulator 15 for preventing electric signals transmitted from the internal lead 2 of the coaxial cable 1a from being leaked to the outside is fitted to the outer peripheral surface of the center pin 12, A cable clamp 16a to be inserted into the connector main body 11 in a state of being threadedly engaged with the outer lead 4a of the coaxial cable 1a and a cable clamp 16b to be inserted and fixed so as to protrude in a state of inserting the coaxial cable 1a The outer circumferential surface of the internal conductor 2 which is a core wire is connected to the coaxial connector 10a composed of the clamp nut 20 spirally coupled to the rear end of the connector main body 11 with the insulator 3, ) Of the coaxial cable (1a) in the order of the coaxial cable Inner conductors (2) of the block (1a) is as cohesion in the center pin 12 in a coaxial cable (1a) and a coaxial connector (10a) electrically connecting the inner conductor 2 and the center pin 12,
An insert ring 19 for supporting one end of an external conductor 4a protruding forward in a state of being supported by the cable clamp 16a is disposed at the rear end of the insulator 15, 11,
The clamp nut 20 and the connector main body 11 in which the coaxial cable 1a is inserted and threaded between the outer conductor 4a of the coaxial cable 1a and the cable clamp 16a of the coaxial connector 10a, The cable clamp 16a urged by the front end of the clamp nut 20 which enters the rear side of the coaxial connector 10a through the screw feed force by screwing of the cable clamp 16a is transferred to the insert ring 19 side The outer conductor 4a of the coaxial cable 1a screwed to the cable clamp 16a is also fed to the coaxial connector 10a through the short axis which is pressed and pressed to the rear face of the insert ring 19 Tightly fixed,
The center pin 12 is formed at a rear end of the center pin 12 at an equal interval along a circumferential surface so that the center pin 12 is fastened to the center pin 12 by fastening the clamp nut 20 when the inner lead wire 2 of the coaxial cable 1a is fastened. The center pin 12 is also moved from the insert ring 19 to the front side by the pressing action of the insulator 3 and the inner lead 2 which is fed in the same direction together with the cable clamp 16a, The internal conductor 2 is tightly held by the elastic action of reducing the enlarged circumferential surface so as to prevent the flow action of the coaxial cable 1a against the coaxial cable 1a, Further comprising an elastic throttle (14) for establishing a contact,
The clamping nut 20 is inserted into the clamping nut 20 in a state where the clamping nut 20 is inserted into the clamping nut 20 and the clamping nut 20 is inserted into the clamping nut 20, The coaxial cable 1a can be held in a fixed state without being flowed from the clamp nut 20 through the tightening action of the split ring 32 whose diameter is reduced in association with the pressing action. And a cable tightening means (30) for holding an outer diameter of the coaxial cable. [2] The apparatus according to claim 1, wherein the elastic throttle portion (14) is a hollow cylindrical body integrally formed at a rear end of the center pin (12), and a circumferential surface of the cylindrical body (14a), and is gradually enlarged toward the rear end. The coaxial cable and the coaxial connector of claim 1, wherein the coaxial cable and the coaxial cable have improved electrical connection. delete The cable clamping device according to claim 1, wherein the cable clamping means comprises: a clamping step (31) formed inside the rear end of the clamp nut (20);
The diameter of the coaxial cable 1a is reduced in correspondence with the pressing action of the tightening bolt 35 screwed to the rear end of the clamp nut 20 and secured to the engaging step 31 so as to tighten the outer diameter of the coaxial cable 1a, A split ring (32) having this incised incision (33);
The split ring 32 is screwed to the rear end of the clamp nut 20 in a state where the split ring 32 is seated on the retaining step 31 to tighten the outer diameter of the coaxial cable 1a through the reduction of the outer diameter of the split ring 32, And a tightening bolt (35) for providing a pressing force to the coaxial cable and the coaxial cable. 5. The method according to claim 4, wherein in the process of fastening the fastening bolt (35) to the rear end of the clamp nut (20) at the center of the front surface of the fastening bolt (35) Wherein inner and outer inclination guide portions (34, 37) are formed so as to smoothly perform the pressing action of the tightening bolt (35) for reducing the diameter of the coaxial cable Coaxial connector.

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