CN106953191B

CN106953191B - Pull-off type electric connector plug

Info

Publication number: CN106953191B
Application number: CN201710227115.8A
Authority: CN
Inventors: 郭振; 刘蕾; 青春; 于慧敏
Original assignee: AVIC Shenyang Xinghua Aero Electrical Appliance Co Ltd
Current assignee: AVIC Shenyang Xinghua Aero Electrical Appliance Co Ltd
Priority date: 2017-04-10
Filing date: 2017-04-10
Publication date: 2023-03-10
Anticipated expiration: 2037-04-10
Also published as: CN106953191A

Abstract

A pull-off type electric connector plug mainly comprises the following components: the steel ball bearing comprises steel balls (2), a small sleeve (3), a sleeve (4), an outer spring (5), a large sleeve (6), a large spring (7), an ejector rod (8), a connecting rod (9), a key (10), an inner spring (11), a shaft (12), a large spring positioning sleeve (15), a three-jaw threaded sleeve (18), an inner spring positioning sleeve (21), a steel wire rope (22) and a rope pulling handle (23). The invention has the advantages that the structural design scheme is very exquisite, and a pull-support type structure is creatively provided on the basis of living and using basic scientific principles, and can be used as another mechanical control structure for maintaining the foundation while being subjected to conventional electrical control. The operation is simple and convenient, and the reliability is high. The comprehensive technical effect is good; the method has expectable huge economic value and social value.

Description

Pull-off type electric connector plug

Technical Field

The invention relates to the technical field of structural design and application of an electric connector plug, and particularly provides a pull-off type electric connector plug.

Background

With the wider and wider range of electrical connectors, the reliability requirements for electrical connectors used in disposable transmitting devices are increasing. There is a strong desire for a pull-off electrical connector plug having excellent technical effects and high reliability.

Disclosure of Invention

The invention aims to provide a pull-off type electric connector plug with excellent technical effect.

The invention provides a pull-off type electric connector plug, which is characterized in that: it comprises the following components: the steel ball bearing comprises a steel ball 2, a small sleeve 3, a sleeve 4, an outer spring 5, a large sleeve 6, a large spring 7, a mandril 8, a connecting rod 9, a key 10, an inner spring 11, a shaft 12, a large spring positioning sleeve 15, a three-jaw threaded sleeve 18, an inner spring positioning sleeve 21, a steel wire rope 22 and a pull rope handle 23; wherein:

the push rod 8, the connecting rod 9, the steel wire rope 22 and the pull rope handle 23 are sequentially connected in series and coaxially arranged at the axis position of the whole pull-off type electric connector plug; the mandril 8 and the connecting rod 9 are arranged in the inner cavity of the shaft 12 of the hollow structure; 2-6 through holes are uniformly distributed along the circumferential direction on the side wall of a shaft 12 of a hollow tubular structure at the front end of the ejector rod 8 far away from the connecting rod 9, and each hole is internally provided with a steel ball 2; the external dimension of the near end of the front end of the ejector rod 8 far away from the connecting rod 9 is obviously reduced, and the near end is matched with the rear part of the ejector rod to form a stepped shaft-shaped structure, when the ejector rod 8 of the stepped shaft-shaped structure moves along the axial direction, the steel balls 2 change positions on two shaft sections with different diameters, and simultaneously the steel balls 2 move along the axial direction of the through holes corresponding to the steel balls in the through holes arranged on the side wall of the shaft 12 of the hollow tubular structure, namely, the grouped steel balls 2 move radially on the cross section vertical to the axis of the ejector rod 8 by taking the axis as the center;

a small sleeve 3, a large sleeve 6, a large spring positioning sleeve 15, a three-jaw threaded sleeve 18 and an inner spring positioning sleeve 21 are sequentially arranged backwards from the front end of the ejector rod 8 outside the shaft 12; wherein: the small sleeve 3 is arranged outside the shaft end with the relatively smaller outer diameter at the most front end of the shaft 12; a radial gap is arranged between the small sleeve 3 and the large sleeve 6, an outer spring 5 is arranged in the radial gap, the front end of the outer spring 5 is contacted with a flange-shaped structure at the front end part of the small sleeve 3, and the rear end of the outer spring 5 is clamped on a shaft shoulder at the rear part of the shaft end with relatively smaller outer diameter at the foremost end of the shaft 12; the large sleeve 6 and the large spring positioning sleeve 15 are both tubular structures with flange-shaped structures at one end; the flange-shaped structure of the large sleeve 6 is arranged at the position close to the front end part of the ejector rod 8, and the tubular structure is arranged at the rear side of the flange structure; the flange-like structure of the large spring positioning sleeve 15 is arranged at the rear end of the shaft 12, and the tubular structure is arranged at the front side of the flange structure; the outer parts of the tubular structure parts of the large sleeve 6 and the large spring positioning sleeve 15 are provided with large springs 7 which work in a pre-compression mode, and the front ends and the rear ends of the large springs are respectively close to the flange-shaped structures of the large sleeve 6 and the large spring positioning sleeve 15; the outer parts of the large sleeve 6, the large spring 7 and the large spring positioning sleeve 15 are also provided with a sleeve 4 with a tubular structure; the front end inner cavity of the sleeve 4 is provided with a forward limiting structure for the front end flange-shaped structure of the large sleeve 6 at the front end limit position (namely, the large sleeve is not allowed to go beyond the limit position to the front end of the shaft 12); the rear end of the sleeve 4 is fixedly connected with a flange-shaped structure at the rear end of the large spring positioning sleeve 15 into a whole;

the three-jaw screw sleeve 18 is arranged at the rear side of the large spring positioning sleeve 15 and is sleeved on the shaft 12; the inner spring positioning sleeve 21 is arranged at the rear end proximal end of the shaft 12, namely the rear part of the rear end of the shaft, and the inner spring positioning sleeve 21 is fixedly connected with the rear end proximal end of the shaft 12 into a whole;

an inner spring 11 for resetting is arranged in an annular cavity formed by combining the inner cavities of the inner spring positioning sleeve 21 and the shaft 12 and the outer parts of the connecting rod 9 and the steel wire rope 22.

The pull-off type electric connector plug is characterized in that: the pull-off type electric connector plug is also provided with a first slotted countersunk head screw 14 and a slotted cone end set screw 20; wherein: the rear end of the sleeve 4 is fixedly connected with a flange-shaped structure at the rear end of a large spring positioning sleeve 15 into a whole through a first slotted countersunk head screw 14; the inner spring positioning sleeve 21 and the near end of the rear end of the shaft 12 are fixedly connected into a whole through a slotted taper end set screw 20.

The pull-off type electric connector plug is characterized in that: the pull-off type electric connector plug is also provided with the following structures: fixed cup 16, picture peg 17, tail-hood 19, second fluting countersunk head screw 24, wherein: the inserting plate 17 is arranged outside the three-jaw thread sleeve 18, and an axial limiting structure is arranged between the inserting plate and the three-jaw thread sleeve 18; the fixed cup 16 is arranged at the periphery of the inserting plate 17; the front part of the fixed cup 16 is pushed forward by the inserting plate 17 to form an axial limiting structure; the tail cap 19 is arranged outside the inner spring positioning sleeve 21; the fixed cup 16 and the tail cover 19 are fixedly connected into a whole through a second slotted countersunk head screw 24;

the rear portion of the cable 22 and the entire cable handle 23 are disposed outside the enclosure structure of the tail cap 19, the mounting cup 16, the sleeve 4, and the like, which together form the housing.

Further contents of the invention supplement the description:

the pull-off type electric connector plug extrudes the small sleeve 3 through the butting piece, the outer spring is compressed 5, so that the three steel balls 2 are not bound by the small sleeve 3, after the shaft 12 enters the butting piece, the inner spring 11 generates an axial force towards the butting end, the ejector rod 8 is ejected towards the butting piece, part of the three steel balls 2 is ejected out of the shaft to be matched with the butting piece, and the reliable connection of a product after butting is ensured. When the connecting rod 9 is pulled off, an axial force opposite to the butt joint end is applied to the connecting rod 9 through the pull rope handle 23, the mandril 8 is pulled back into the shaft 12, and the small sleeve 3 returns to the matching position with the sleeve 4 under the action of the outer spring 5 to separate the butt joint part. The elastic force generated after the product is pulled off can be controlled by adjusting the force of the butt joint piece for extruding the small sleeve 3 according to the requirements of customers. The sleeve 4 is connected with a large spring positioning sleeve 15 through a slotted countersunk head screw 14 to fix the large spring 7. The small sleeve 3 and the shaft 12 and the large sleeve 6 fix the outer spring 5, the connecting rod 9 and the inner spring positioning sleeve 21 fix the inner spring 11, and at the moment, the three springs are all in a compressed state. The fixing cup 16 and the tail cover 19 fix the inner spring positioning sleeve 21.

The key technology of the invention is as follows: the structural design scheme is very exquisite, and the pull-support type structure is creatively provided on the basis of living and using basic scientific principles, and can be used as another mechanical control structure for maintaining the foundation while being subjected to conventional electrical control. The operation is simple and convenient, and the reliability is high. The comprehensive technical effect is good; the method has expectable huge economic value and social value.

Drawings

The invention is described in further detail below with reference to the following figures and embodiments:

FIG. 1 is a schematic view of a pull-off electrical connector plug;

fig. 2 is a schematic view of the pull-off type electrical connector plug in use.

Detailed Description

Example 1

A pull-off electrical connector plug, see fig. 1, 2; it comprises the following components: the steel ball bearing comprises a steel ball 2, a small sleeve 3, a sleeve 4, an outer spring 5, a large sleeve 6, a large spring 7, a mandril 8, a connecting rod 9, a key 10, an inner spring 11, a shaft 12, a first slotted countersunk screw 14, a large spring positioning sleeve 15, a fixed cup 16, an inserting plate 17, a three-jaw threaded sleeve 18, a tail cover 19, a slotted cone end set screw 20, an inner spring positioning sleeve 21, a steel wire rope 22, a pull rope handle 23 and a second slotted countersunk screw 24; wherein:

the push rod 8, the connecting rod 9, the steel wire rope 22 and the pull rope handle 23 are sequentially connected in series and coaxially arranged at the axis position of the whole pull-off type electric connector plug; the mandril 8 and the connecting rod 9 are arranged in the inner cavity of the shaft 12 of the hollow structure; 2-6 through holes are uniformly distributed along the circumferential direction on the side wall of a hollow tubular structure shaft 12 at the front end of the ejector rod 8 far away from the connecting rod 9, and each hole is internally provided with a steel ball 2; the external dimension of the near end of the front end of the ejector rod 8 far away from the connecting rod 9 is obviously reduced, and the near end is matched with the rear part of the ejector rod to form a stepped shaft-shaped structure, when the ejector rod 8 of the stepped shaft-shaped structure moves along the axial direction, the steel balls 2 change positions on two shaft sections with different diameters, and simultaneously the steel balls 2 move along the axial direction of the through holes corresponding to the steel balls in the through holes arranged on the side wall of the shaft 12 of the hollow tubular structure, namely, the grouped steel balls 2 move radially on the cross section vertical to the axis of the ejector rod 8 by taking the axis as the center;

a small sleeve 3, a large sleeve 6, a large spring positioning sleeve 15, a three-jaw threaded sleeve 18 and an inner spring positioning sleeve 21 are sequentially arranged backwards from the front end of the ejector rod 8 outside the shaft 12; wherein: the small sleeve 3 is arranged outside the shaft end with the relatively smaller outer diameter at the most front end of the shaft 12; a radial gap is arranged between the small sleeve 3 and the large sleeve 6, an outer spring 5 is arranged in the radial gap, the front end of the outer spring 5 is contacted with a flange-shaped structure at the front end part of the small sleeve 3, and the rear end of the outer spring 5 is clamped on a shaft shoulder at the rear part of the shaft end with relatively smaller outer diameter at the foremost end of the shaft 12; the large sleeve 6 and the large spring positioning sleeve 15 are both tubular structures with flange-shaped structures at one end; the flange-shaped structure of the large sleeve 6 is arranged at the position close to the front end part of the ejector rod 8, and the tubular structure is arranged at the rear side of the flange structure; the flange-like structure of the large spring positioning sleeve 15 is arranged at the rear end of the shaft 12, and the tubular structure is arranged at the front side of the flange structure; the outer parts of the tubular structure parts of the large sleeve 6 and the large spring positioning sleeve 15 are provided with large springs 7 which work in a pre-compression mode, and the front ends and the rear ends of the large springs are respectively arranged close to the flange-shaped structures of the large sleeve 6 and the large spring positioning sleeve 15; the outer parts of the large sleeve 6, the large spring 7 and the large spring positioning sleeve 15 are also provided with a sleeve 4 with a tubular structure; the front end inner cavity of the sleeve 4 is provided with a forward limiting structure for the front end flange-shaped structure of the large sleeve 6 at the front end limit position (namely, the large sleeve is not allowed to go beyond the limit position to the front end of the shaft 12); the rear end of the sleeve 4 is fixedly connected with a flange-shaped structure at the rear end of the large spring positioning sleeve 15 into a whole;

the three-jaw screw sleeve 18 is arranged at the rear side of the large spring positioning sleeve 15 and is sleeved on the shaft 12; an inner spring positioning sleeve 21 is arranged at the proximal end of the rear end of the shaft 12, namely the rear part of the rear end of the shaft, and the inner spring positioning sleeve 21 is fixedly connected with the proximal end of the rear end of the shaft 12 into a whole.

The pull-off type electric connector plug is also provided with a first slotted countersunk head screw 14 and a slotted conical end set screw 20; wherein: the rear end of the sleeve 4 is fixedly connected with a flange-shaped structure at the rear end of the large spring positioning sleeve 15 into a whole through a first slotted countersunk head screw 14; the inner spring positioning sleeve 21 and the near end of the rear end of the shaft 12 are fixedly connected into a whole through a slotted taper end set screw 20.

The pull-off type electric connector plug is also provided with the following structures: fixed cup 16, picture peg 17, tail-hood 19, second fluting countersunk head screw 24, wherein: the inserting plate 17 is arranged outside the three-jaw thread sleeve 18, and an axial limiting structure is arranged between the inserting plate and the three-jaw thread sleeve 18; the fixed cup 16 is arranged at the periphery of the inserting plate 17; the front part of the fixed cup 16 is pushed forward by an inserting plate 17 to form an axial limiting structure; the tail cap 19 is arranged outside the inner spring positioning sleeve 21; the fixed cup 16 and the tail cover 19 are fixedly connected into a whole through a second slotted countersunk head screw 24;

the rear portion of the cable 22 and the entire cable handle 23 are disposed outside the enclosure structure of the tail cap 19, retaining cup 16, sleeve 4, etc. which together form the housing.

Other contents of the embodiment supplement the description:

the pull-off type electric connector plug extrudes the small sleeve 3 through the butting piece, the outer spring is compressed 5, so that the three steel balls 2 are not bound by the small sleeve 3, after the shaft 12 enters the butting piece, the inner spring 11 generates an axial force towards the butting end, the ejector rod 8 is ejected towards the butting piece, part of the three steel balls 2 is ejected out of the shaft to be matched with the butting piece, and the reliable connection of a product after butting is ensured. When the connecting rod 9 is pulled off, an axial force opposite to the butt joint end is applied to the connecting rod 9 through the pull rope handle 23, the mandril 8 is pulled back into the shaft 12, and the small sleeve 3 returns to the position matched with the sleeve 4 under the action of the outer spring 5 to separate the butt joint part. The elastic force generated after the product is pulled off can be controlled by adjusting the force of the butt piece for extruding the small sleeve 3 according to the requirements of customers. The sleeve 4 is connected with a large spring positioning sleeve 15 through a first slotted countersunk head screw 14 to fix the large spring 7. The small sleeve 3 and the shaft 12 and the large sleeve 6 fix the outer spring 5, the connecting rod 9 and the inner spring positioning sleeve 21 fix the inner spring 11, and at the moment, the three springs are all in a compressed state. The fixing cup 16 and the tail cover 19 fix the inner spring positioning sleeve 21.

The structural design scheme of the embodiment is very exquisite, and the pull-and-hold structure is creatively provided on the basis of the principle of utilizing basic science and can be used as another mechanical control structure for maintaining the foundation while conventional electrical control is achieved. The operation is simple and convenient, and the reliability is high. The comprehensive technical effect is good; the method has expectable great economic value and social value.

Claims

1. A pull-off electrical connector plug, comprising: it comprises the following components: the steel ball bearing comprises steel balls (2), a small sleeve (3), a sleeve (4), an outer spring (5), a large sleeve (6), a large spring (7), a push rod (8), a connecting rod (9), a key (10), an inner spring (11), a shaft (12), a large spring positioning sleeve (15), a three-jaw threaded sleeve (18), an inner spring positioning sleeve (21), a steel wire rope (22) and a pull rope handle (23); wherein:

the ejector rod (8), the connecting rod (9), the steel wire rope (22) and the pull rope handle (23) are sequentially connected in series and coaxially arranged at the axis position of the whole pull-off type electric connector plug; the mandril (8) and the connecting rod (9) are arranged in the inner cavity of the shaft (12) with the hollow structure; 2-6 through holes which are uniformly distributed along the circumferential direction are arranged on the side wall of a shaft (12) of a hollow tubular structure at the front end of one side of the ejector rod (8) far away from the connecting rod (9), and a steel ball (2) is arranged in each hole; the external dimension of the near end of the front end of one side of the ejector rod (8) far away from the connecting rod (9) is obviously reduced, and the near end of the front end of the ejector rod is matched with the rear part of the ejector rod to form a stepped shaft-shaped structure, when the ejector rod (8) of the stepped shaft-shaped structure moves along the axial direction, the steel balls (2) change positions on two shaft sections with different diameters, and meanwhile, the steel balls (2) move along the axial direction of the through holes respectively corresponding to the steel balls in the through holes arranged on the side wall of the shaft (12) of the hollow tubular structure, namely, each group of steel balls (2) move radially on the cross section vertical to the axis of the ejector rod (8) by taking the axis as the center;

a small sleeve (3), a large sleeve (6), a large spring positioning sleeve (15), a three-jaw threaded sleeve (18) and an inner spring positioning sleeve (21) are sequentially arranged backwards from the front end of the ejector rod (8) outside the shaft (12); wherein: the small sleeve (3) is arranged outside the shaft end with the relatively smaller outer diameter at the foremost end of the shaft (12); a radial gap is arranged between the small sleeve (3) and the large sleeve (6), an outer spring (5) is arranged in the radial gap, the front end of the outer spring (5) is contacted with a flange-shaped structure at the front end part of the small sleeve (3), and the rear end of the outer spring (5) is clamped on a shaft shoulder at the rear part of the shaft end with relatively smaller outer diameter at the foremost end of the shaft (12); the large sleeve (6) and the large spring positioning sleeve (15) are both tubular structures, one end of each tubular structure is provided with a flange-shaped structure; the flange-shaped structure of the large sleeve (6) is arranged at the position close to the front end part of the ejector rod (8), and the tubular structure is arranged at the rear side of the flange structure; the flange-like structure of the large spring positioning sleeve (15) is arranged at the rear end part of the shaft (12), and the tubular structure is arranged at the front side of the flange structure; the outer parts of the tubular structure parts of the large sleeve (6) and the large spring positioning sleeve (15) are provided with a large spring (7) which works in a pre-compression mode, and the front end and the rear end of the large spring are respectively arranged close to the flange-shaped structures of the large sleeve (6) and the large spring positioning sleeve (15); the outer parts of the large sleeve (6), the large spring (7) and the large spring positioning sleeve (15) are also provided with a sleeve (4) with a tubular structure; a forward limiting structure of a front end flange-shaped structure of the large sleeve (6) at a front end limiting position is arranged on a front end inner cavity of the sleeve (4), namely the large sleeve is not allowed to cross the limiting position to reach the front end of the shaft (12); the rear end of the sleeve (4) is fixedly connected with a flange-shaped structure at the rear end of the large spring positioning sleeve (15) into a whole;

the three-jaw threaded sleeve (18) is arranged on the rear side of the large spring positioning sleeve (15) and sleeved on the shaft (12); the inner spring positioning sleeve (21) is arranged at the near end of the rear end of the shaft (12), namely the rear part of the rear end of the shaft, and the inner spring positioning sleeve (21) is fixedly connected with the near end of the rear end of the shaft (12) into a whole;

an inner spring (11) for resetting is arranged in an annular cavity formed by the inner spring positioning sleeve (21) and the inner cavity of the shaft (12) and the outer combination of the connecting rod (9) and the steel wire rope (22);

the pull-off type electric connector plug is also provided with a first slotted countersunk screw (14) and a slotted cone end set screw (20); wherein: the rear end of the sleeve (4) is fixedly connected with a flange-shaped structure at the rear end of the large spring positioning sleeve (15) into a whole through a first slotted countersunk head screw (14); the inner spring positioning sleeve (21) and the near end of the rear end of the shaft (12) are fixedly connected into a whole through a slotted taper end set screw (20).

2. The pull-off electrical connector plug of claim 1 wherein: the pull-off type electric connector plug is also provided with the following structures: fixed cup (16), picture peg (17), tail-hood (19), second fluting countersunk screw (24), wherein: the inserting plate (17) is arranged outside the three-jaw threaded sleeve (18), and an axial limiting structure is arranged between the inserting plate and the three-jaw threaded sleeve (18); the fixed cup (16) is arranged at the periphery of the inserting plate (17); the front part of the fixed cup (16) is pushed forward by an inserting plate (17) to form an axial limiting structure; the tail cover (19) is arranged outside the inner spring positioning sleeve (21); the fixed cup (16) and the tail cover (19) are fixedly connected into a whole through a second slotted countersunk head screw (24);

the rear part of the steel wire rope (22) and the pull rope handle (23) are all arranged outside the packaging structure of the shell which is formed by the tail cover (19), the fixed cup (16) and the sleeve (4).