Radio-frequency coaxial cable connector with quick installation

Abstract

A RF coaxial cable connector with rapid installation includes a front shell, a rear protective sleeve, a front insulator, a center conductor, a rear insulator, a cable crimping ring, and a cable clamping assembly. The front insulator, the center conductor and the rear insulator are arranged in a front-rear sequence in a cavity of the front shell. The cable crimping ring has a front end surface abutting on an outer ring end surface of a rear end surface of the rear insulator, and is connected with the front shell. The rear protective sleeve is connected with the front shell. The cable clamping assembly is arranged in an inner cavity of the rear protective sleeve, and has a clamping surface formed thereon for clamping on an outer ring surface of an outer conductor of a cable to be connected.

Claims

1. A RF coaxial cable connector with rapid installation, comprising: a front shell, having an inner ring surface, an rear outer ring surface and a cavity; a rear protective sleeve, having an inner cavity and a front inner ring surface, the rear protective sleeve being connected with the front shell rear in a positioned manner by an interference fit between the front inner ring surface of the rear protective sleeve and the outer ring surface of the front shell; a front insulator, provided with a first positioning hole formed at a center axial position thereof; a center conductor, provided with a second positioning hole formed at a center axial position thereof; a rear insulator, provided with a through hole formed at a center axial position thereof, and having a rear end surface comprising an outer ring end surface; the front insulator, the center conductor and the rear insulator being arranged in a front-rear sequence in the cavity of the front shell; a cable crimping ring, having a front end surface abutting on the outer ring end surface of the rear end surface of the rear insulator, and an outer ring end surface, the cable crimping ring being connected with the front shell in a positioned manner by an interference fit between the outer ring end surface of the cable crimping ring and the inner ring surface of the front shell; and a cable clamping assembly, arranged in the inner cavity of the rear protective sleeve, and having a clamping surface formed thereon for clamping on an outer ring surface of an outer conductor of a cable to be connected; wherein the cable clamping assembly comprises a base and a cable clamp, the base being connected to the rear protective sleeve by an interference fit between an outer ring surface of the base and a corresponding inner ring surface of the rear protective sleeve, wherein the cable clamp has a rear end barb structure clamped in a corresponding slot hole of the base, and a clamping surface formed on an inner end ring surface thereof.

2. The RF coaxial cable connector of claim 1, further comprising a first sealing ring sleeved on an inner side of a blocking protrusion of an outer ring end face of the front shell, wherein once the cable is connected in place, an outer ring surface of the first sealing ring is tightly attached to an inner ring surface of the rear protective sleeve.

3. The RF coaxial cable connector of claim 1, wherein the cable clamp has a circular ring structure formed by four sections spliced in a circumferential direction, each of the sections of the cable clamping has a rear end barb structure positioned in the corresponding slot hole.

4. The RF coaxial cable connector of claim 3, wherein the cable clamping structure comprises a first protrusion, an inner concave section and a second protrusion, which form a clamping structure.

5. The RF coaxial cable connector of claim 1, wherein, the cable clamp is sleeved with an O-shaped ring on a front outer ring surface thereof, and a clamping spring on a rear outer ring surface thereof; while the cable is connected in place, the outer ring surface formed on the cable clamp is pushed into the inner cavity in a rear end of the front shell.

6. The RF coaxial cable connector of claim 5, wherein, the slot hole is provided with a clamping spring mounting cavity, in which the clamping spring is positioned and sleeved on a rear end outer ring surface of the cable clamp.

7. The RF coaxial cable connector of claim 1, wherein, the base is provided with an axial rear protruding ring which is configured to be inserted into a corresponding mounting slot of the rear protective sleeve, a sealing ring is arranged between a rear end of the axial rear protruding ring and an inner end wall of the mounting slot, an inner ring surface of the sealing ring is sleeved on an outer ring surface of the protective sleeve of the cable to be connected while assembled.

8. The RF coaxial cable connector o of claim 7, wherein, while pre-installed, a gap is provided between a rear end surface of a main body of the base and a corresponding positioning end surface of the rear protective sleeve, and the axial rear protruding ring has an inclined rear end ring surface; during crimping, by means of the rear end surface of the main body of the base and the positioning end surface of the rear protective sleeve, which are served as limiting surfaces, the sealing ring is squeezed and deformed for sealing.

9. The RF coaxial cable connector of claim 1, wherein the diameter of the first positioning hole is smaller than that of the first through-hole.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further advantages and configurations are explained in more detail in the following text on the basis of preferred exemplary embodiments of the invention, and in conjunction with the accompanying drawings, in which:

(2) FIG. 1 is an explosive view of a RF coaxial cable connector with rapid installation according to the invention;

(3) FIG. 2 is a front semi-sectional view of the RF coaxial cable connector according to the invention;

(4) FIG. 3 is a sectional view of the RF coaxial cable connector according to the invention;

(5) FIG. 4 is schematic views showing a sealing ring before and after crimped according to the invention;

(6) FIG. 5 is a schematic view of a crimp-connection according to the invention;

(7) FIG. 6 is an enlarged view of the portion A in FIG. 5, illustrating an outer conductor of a cable which is double-layer crimp-connected, according to the invention; and

(8) FIG. 7 is a partially sectional view of a cable clamping assembly installed according to the invention.

LIST OF NUMERALS

(9) Front Shell 1 Blocking Protrusion 14 Rear Protective Sleeve 2 Center Conductor 3 Second Positioning Hole 31 Front Insulator 4 First Positioning Hole 41 Cable Crimping Ring 5 Rear Insulator 6 First Through-hole 61 Cable Clamping Assembly 7 Cable Clamp 8 Rear End Barb Structure 81 Cable Clamping Section 82 First Protrusion 821 Inner Concave Section 822 The Second Protrusion 823 Base 9 Slot Hole 91 Axial Rear Protruding Ring 92 Sealing Ring 10 Clamping Spring 11 O-shaped Ring 12 Cable 13 First Sealing Ring 15

DETAILED DESCRIPTION OF THE INVENTION

(10) As shown in FIGS. 1-7, a RF coaxial cable connector according to the invention comprises a front shell 1, a rear protective sleeve 2, a front insulator 4, a center conductor 3 and a rear insulator 6. The front insulator 4, the center conductor 3 and the rear insulator 6 are arranged in a front-rear sequence in a cavity of the front shell 1, and provided with a first positioning hole 41, a second positioning hole 31 and a first through-hole 61 formed in center axial positions thereof, respectively. A front-end surface of a cable crimping ring 5 is pressed on an end surface of an outer ring portion of a rear end surface of the rear insulator 6. An outer ring end surface of the cable crimping ring 5 and an inner ring surface of the front shell 1 are positioned with each other and connected in an interference fit. A rear outer ring surface of the front shell 1 and a front inner ring surface of the rear protective sleeve 2 are positioned with each other and connected in an interference fit. The connector further comprises a cable clamping assembly 7 arranged in an inner cavity of the rear protective sleeve 2. The cable clamping assembly 7 has a clamping surface formed thereon configured to clamp an outer ring surface of an outer conductor of a cable 13 to be connected.

(11) The front shell 1 on an outer ring end face thereof is provided with a blocking protrusion 14, on of which an inner side a first sealing ring 15 is sleeved. Once the cable 13 is connected in place, an outer ring surface of the first sealing ring 15 is abutted against to an inner ring surface of the rear protective sleeve 2, for better sealing.

(12) The cable clamping assembly 7 comprises a base 9 and a cable clamp 8. An outer ring surface of the base 9 and a corresponding inner ring surface of the rear protective sleeve 2 are connected in an interference fit. The cable clamp 8 has a rear end barb structure 81 clamped in a corresponding slot hole 91 of the base 9. A clamping surface is formed on a ring surface of an inner end of the cable clamp 8.

(13) In an embodiment, the cable clamp 8 has a circular ring structure formed by four cable clamping sections 82 spliced in the circumferential direction. The rear end barb structure 81 of each of the cable clamping sections 82 is positioned in the corresponding slot hole 91.

(14) In a sectional view, each of the cable clamping section 82 comprises a first protrusion 821, an inner concave section 822 and a second protrusion 823, form a clamping structure altogether.

(15) The connector of the invention further comprises an O-shaped ring 12 sleeved on an outer ring surface of an front end of the cable clamp 8, and a clamping spring 11 sleeved on an outer ring surface of an rear end of the cable clamp 8. Once the cable 13 is connected in place, the outer ring surface formed on the cable clamp 8 is pushed into a rear inner cavity the front shell 1.

(16) The slot hole 91 has a clamping spring mounting cavity therein, in which the clamping spring 11 is positioned and sleeved on the rear end outer ring surface of the cable clamp 8.

(17) The base 9 comprises an axial rear protruding ring 92 inserted in a corresponding mounting slot 21 of the rear protective sleeve 2. A sealing ring 10 is arranged between a rear end of the axial rear protruding ring 92 and an inner end wall of the mounting slot 21. Once assembled, the inner ring surface of the sealing ring 10 is sleeved on the outer ring surface of a protective sleeve of the cable 13 to be connected, for better water-proof performance.

(18) During a pre-installation process, a gap is reserved between a rear end surface of the main body of the base 9 and a corresponding positioning end surface of the rear protective sleeve 2. The axial rear protruding ring 92 has an inclined ring surface on the rear end thereof. In a crimping process, the rear end surface of the main body of the base 9 and the positioning end surface of the rear protective sleeve 2 are served as limiting surfaces, such that the sealing ring 10 is pressed and deformed for sealing. The diameter of the first positioning hole 41 is smaller than the outer diameter of the center conductor 3, allowing an inner conductor of the cable to be better fastened. While the cable is inserted, the cable clamping sections 82 are forced to open, against the clamping spring 11 and the O-shaped ring 12. While the external force is removed, the cable clamping sections 82 is reverted to its original state under the action of the clamping spring 11 and the O-shaped ring 12. The cable clamp 8 has a first protrusion 821 and a second protrusion 823 arranged thereon and clamped in the troughs of the outer conductor of the cable, thereby preventing the cable from moving.

(19) The r radio-frequency coaxial cable connector with rapid installation according to the invention has the beneficial effects as follows:

(20) First of all, according to the invention, the connector is pre-installed, such that one can directly insert the cable, which is stripped in required dimensions, into the connector, and crimp them together with a crimping tool, without unscrewing and reinstating the front and rear shells, a resulting installation process is quick and simple.

(21) Next, instead of a conventional threaded-connection structure, in the invention the interference-fit connection is adopted to secure the front and rear shells, some tests show that the tensile strength of the connection to the cable according to the invention is obviously greater than that of the conventional thread-connection structure.

(22) The third, according to the invention the split structure is adopted for the cable clamp, in detail the cable clamp and the base are fixed through the barb structure and the clamping spring, the cable clamp at the front portion thereof is constrained by an elastic rubber element (the O-shaped ring), such that cable clamp is expandable. Compared with a conventional slotted copper cable clamp that cannot restore automatically after installation, the cable clamp of the invention can be forced open to receive the cable while the cable is inserted into the connector, the resulting installation process is time-saving and labor-saving;

(23) The fourth, the cable clamp of the invention is designed to comprise two troughs as cable fixing points, so that the outer conductor of the cable can be better fixed, and the potential displacement of the outer conductor in the connector can be effectively reduced during the shaking of the cable, for better stability.

(24) The fifth, instead of a conventional single-layer clamping structure, according to the invention the cable clamp and the outer conductor are clamped by a double-layer copper strip for a firmer clamping connection.

(25) The sixth, as the cable inner conductor is clamped by the slotted tail portion of the connector slot, the clamped portion of the inner conductor is forced into the front insulator during the crimp-connection process, and the aperture of the front insulator is smaller than the outer diameter of the slotted portion of the connector, such that the clamped portion can be protected by the front insulator, greatly increasing the clamping force imposed on the cable inner conductor.

(26) The last, the connector and the sealing ring on the cable protective sleeve are squeezed and deformed in the crimping process, the water-proof performance of the connector is thus enhanced.

(27) The disclosure has described certain preferred embodiments and modifications thereto. Further modifications and alterations may occur to others upon reading and understanding the specification. Therefore, it is intended that the disclosure not be limited to the particular embodiment(s) disclosed as the best mode contemplated for carrying out this disclosure, but that the disclosure will include all embodiments falling within the scope of the appended claims.