CN221407931U - Axial positioner for socket pin crimping - Google Patents

Abstract

The embodiment of the utility model discloses an axial positioner for pin crimping of a jack, which is structurally characterized in that a positioner main body is of a cylindrical structure, a pin mounting hole is formed in the center of the positioner main body, a positioner flange is fixedly arranged on one side end face of the positioner main body, and a pin mounting boss is fixedly arranged on the end face of the positioner flange; the pin installation boss and the locator flange are provided with through holes coaxial with the pin installation holes, and the through holes are used for integrally inserting the pins into the pin installation holes of the pin installation boss, the locator flange and the locator main body; one side of the outer edge of the locator flange is provided with a locating notch which is used for being matched and located with a locator alignment pin on the crimping pliers. The technical scheme provided by the embodiment of the utility model solves the problems that the quality of crimping completion is difficult to ensure and the overall working efficiency is reduced because an operator is required to manually determine the crimping position when the crimping pliers are adopted to crimp the pin.

Description

Axial positioner for socket pin crimping

Technical Field

The utility model relates to the technical field of pin crimping of helicopter electric connectors, in particular to an axial positioner for pin crimping of jacks.

Background

The wires in aircraft are important carriers for signal transmission and energy transmission, and in view of the wide application, the manufacturing method thereof is becoming more and more important. Particularly in the aspect of wire crimping, the quality of crimping relates to the quality of finished product performance realized after the electric connector is butted with the finished product.

When the crimping pliers crimp the pin, the axial positioner can ensure the accuracy of each crimping pin indentation. The existing GJBJ599III type electric connector is provided with a 6-jack pin, an axial positioner matched with a crimping pliers for crimping the pin is not matched with a domestic pin, and the pin cannot be axially positioned and crimped. Therefore, when the pin is crimped, an operator needs to determine the position of each crimping by naked eyes, which not only takes unnecessary time and energy, but also can not ensure the quality of the crimping completion, and the overall working efficiency is reduced.

Disclosure of utility model

The purpose of the utility model is that: in order to solve the technical problems, the embodiment of the utility model provides an axial positioner for pin insertion and compression joint, which solves the problems that when a clamp is used for compression joint of pins, an operator is required to manually determine the position of each compression joint, so that the compression joint finishing quality is difficult to ensure and the overall working efficiency is reduced.

The technical scheme of the utility model is as follows: the embodiment of the utility model provides an axial positioner for jack pin crimping, which comprises the following components: the positioning device comprises a positioning device main body 1, a positioning device flange 2, a pin mounting boss 3, a pin mounting hole 4 and a positioning notch 5;

the positioning device comprises a positioning device main body 1, a positioning device flange 2, a pin mounting boss 3, a pin mounting hole 4, a positioning device flange and a positioning device mounting hole, wherein the positioning device main body 1 is of a cylindrical structure, the pin mounting hole 4 is formed in the central position of the positioning device main body, the positioning device flange 2 is fixedly arranged on one side end face of the positioning device main body 1, and the pin mounting boss 3 is fixedly arranged on the end face of the positioning device flange 2;

The pin installation boss 3 and the locator flange 2 are provided with through holes coaxial with the pin installation holes 4, and the through holes are used for integrally inserting pins into the pin installation holes 4 of the pin installation boss 3, the locator flange 2 and the locator main body 1; and a positioning notch 5 is formed in one side of the outer edge of the locator flange 2 and is used for being matched and positioned with a locator alignment pin on the crimping pliers.

Alternatively, in the axial positioner for female pin crimping described above,

The locator body 1 is used for integrally installing an axial locator into the crimping pliers after being matched and positioned with the locator alignment pin on the crimping pliers through the locating notch 5 on the locator flange 2.

Alternatively, in the axial positioner for female pin crimping described above,

The outer diameter of the locator flange 2 is determined according to the aperture of the crimping pliers for installing the axial locator, and the locator flange 2 is flush with the surrounding plane of the crimping pliers after the axial locator is integrally installed in the aperture of the crimping pliers.

Alternatively, in the axial positioner for female pin crimping described above,

The hole diameters of the pin installation boss 3 and the locator flange 2 and the hole diameter of the pin installation hole 4 in the locator body 1 are designed according to the model and the size of the plug pin to be crimped, so that the plug pin to be crimped is integrally installed in the pin installation boss 3, the locator flange 2 and the pin installation hole 4 of the locator body 1.

Alternatively, in the axial positioner for female pin crimping described above,

The size of the pin installation boss 3 is determined according to the type and the size of the jack pin, so that after the jack pin to be crimped is integrally installed into the pin installation boss 3, the locator flange 2 and the pin installation hole 4 of the axial locator, the outer platform of the jack pin to be crimped is clamped at the end face of the boss 3.

Alternatively, in the axial positioner for female pin crimping described above,

The axial positioner is used for carrying out crimping positioning on the No. 6 jack pin, and is used for placing the No. 6 jack pin in the axial positioner which is integrally arranged in the crimping pliers, so that after the outer platform of the No. 6 jack pin is clamped at the end face of the boss 3, the crimping part exposed out of the No. 6 jack pin is crimped by using the crimping pliers, and the crimping part of the No. 6 jack pin is pressed at the correct position.

The utility model has the beneficial effects that: the embodiment of the utility model provides an axial positioner for jack pin crimping, wherein a positioner main body 1 is of a cylindrical structure, a pin mounting hole 4 is formed in the central position of the positioner main body 1, a positioner flange 2 is fixedly arranged on one side end surface of the positioner main body 1, and a pin mounting boss 3 is fixedly arranged on the end surface of the positioner flange 2; the pin installation boss 3 and the locator flange 2 are provided with through holes coaxial with the pin installation holes 4, and the through holes are used for integrally inserting pins into the pin installation holes 4 of the pin installation boss 3, the locator flange 2 and the locator main body 1; a positioning notch 5 is formed in one side of the outer edge of the positioner flange 2. By adopting the axial positioner, the positioning notch 5 is matched with the positioning pin of the positioner on the crimping pliers to position the axial positioner integrally in the crimping pliers, the positioning flange 2 is flush with the upper peripheral plane of the crimping pliers, and the outer platform of the jack pin to be crimped is clamped at the end face of the boss 3, so that the axial positioning crimping of various jack pins can be realized, an operator can accurately crimp the jack pins during crimping, the crimping accuracy is ensured, and the crimping quality and the working efficiency are improved.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and do not limit the utility model.

FIG. 1 is a schematic diagram of an axial positioner for socket pin crimping according to an embodiment of the present utility model;

FIG. 2 is a front view of the axial retainer for female pin crimping provided by the embodiment of FIG. 1.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in detail hereinafter with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be arbitrarily combined with each other.

In the above background art, it has been described that, on an electrical connector product, the quality of pin crimping relates to the quality of finished product performance achieved after the electrical connector is docked with the finished product. However, the existing GJBJ599 III-type electric connector is provided with a 6-shaped jack pin, the crimping pliers M22520/23-01 are foreign crimping pliers, the matched axial positioner is not matched with the domestic pin, and the axial positioning crimping of the pin cannot be realized. Therefore, when the pin is crimped, an operator needs to determine the position of each crimping by naked eyes, which not only takes unnecessary time and energy, but also can not ensure the quality of the crimping completion, and the overall working efficiency is reduced.

In view of the foregoing, embodiments of the present utility model provide an axial positioner for socket pin crimping.

The following specific embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

FIG. 1 is a schematic diagram of an axial positioner for socket pin crimping according to an embodiment of the present utility model; FIG. 2 is a front view of the axial retainer for female pin crimping provided by the embodiment of FIG. 1. As shown in fig. 1, the structure of the axial positioner for socket pin crimping provided by the embodiment of the utility model may include: a locator body 2, a locator flange 2, a pin mounting boss 3, a pin mounting hole 4 and a locating recess 5.

In the structure of the axial positioner shown in fig. 1, the overall structure of the positioner body 1 is a cylindrical structure, a pin mounting hole 4 is formed in the central position of the positioner body, a positioner flange 2 is fixedly arranged on one side end surface of the positioner body 1, and a pin mounting boss 3 is fixedly arranged on the end surface of the positioner flange 2.

As shown in fig. 1, through holes coaxial with the pin mounting holes 4 are formed in the pin mounting boss 3 and the retainer flange 2, respectively, for integrally inserting the pins into the pin mounting holes 4 of the pin mounting boss 3, the retainer flange 2 and the retainer body 1.

As shown in fig. 2, in the axial positioner provided by the embodiment of the utility model, a positioning notch 5 is formed on one side of the outer edge of the positioner flange 2 and is used for being matched and positioned with a positioner alignment pin on the crimping pliers.

In the embodiment of the utility model, after the positioning notch 5 on the positioning flange 2 of the positioning device body 1 is matched with the positioning device alignment pin on the crimping pliers for positioning, the axial positioning device is integrally arranged in the crimping pliers.

In a specific implementation of the embodiment of the utility model, the outer diameter of the locator flange 2 is determined according to the aperture on the crimping pliers for installing the axial locator, and the two dimensions ensure that the locator flange 2 is flush with the peripheral plane on the crimping pliers after the axial locator is integrally installed in the aperture in the crimping pliers.

In the specific implementation of the embodiment of the utility model, the apertures of the pin installation boss 3 and the locator flange 2 and the aperture of the pin installation hole 4 in the locator body 1 are designed according to the model and the size of the pin of the jack to be crimped, so that the pin of the jack to be crimped is integrally installed in the pin installation boss 3, the locator flange 2 and the pin installation hole 4 of the locator body 1.

In the embodiment of the utility model, the size of the pin installation boss 3 is determined according to the type and the size of the jack pin, so that after the jack pin to be crimped is integrally installed into the pin installation boss 3, the locator flange 2 and the pin installation hole 4 of the axial locator, the outer table of the jack pin to be crimped is clamped at the end face of the boss 3, and the exposed part of the jack pin can be pressed at the correct position when the crimping pliers are used, thereby ensuring the crimping accuracy.

The embodiment of the utility model provides an axial positioner for jack pin crimping, wherein a positioner main body 1 is of a cylindrical structure, a pin mounting hole 4 is formed in the central position of the positioner main body 1, a positioner flange 2 is fixedly arranged on one side end surface of the positioner main body 1, and a pin mounting boss 3 is fixedly arranged on the end surface of the positioner flange 2; the pin installation boss 3 and the locator flange 2 are provided with through holes coaxial with the pin installation holes 4, and the through holes are used for integrally inserting pins into the pin installation holes 4 of the pin installation boss 3, the locator flange 2 and the locator main body 1; a positioning notch 5 is formed in one side of the outer edge of the positioner flange 2. By adopting the axial positioner, the positioning notch 5 is matched with the positioning pin of the positioner on the crimping pliers to position the axial positioner integrally in the crimping pliers, the positioning flange 2 is flush with the upper peripheral plane of the crimping pliers, and the outer platform of the jack pin to be crimped is clamped at the end face of the boss 3, so that the axial positioning crimping of various jack pins can be realized, an operator can accurately crimp the jack pins during crimping, the crimping accuracy is ensured, and the crimping quality and the working efficiency are improved.

The following is a schematic illustration of an implementation of an axial retainer for female pin crimping provided by an embodiment of the present utility model, by way of a specific example.

Referring to fig. 1 and 2, an example of crimping a No. 6 socket pin is illustrated, the axial locator includes: the mounting manner and the connection structure of the components in the axial positioner, which are described in detail in the above embodiments, are the positioner body 1, the positioner flange 2, the pin mounting boss 3, the pin mounting hole 4, and the positioning recess 5.

The embodiment specifically provides an axial positioner for pin crimping of a number 6 jack, wherein the diameters of the pin mounting boss 3 and the positioner flange 2 and the diameter of the pin mounting hole 4 in the positioner main body 1 are designed according to the model and the size of the pin of the number 6 jack to be crimped, and the pin of the number 6 jack to be crimped can be integrally arranged in the pin mounting boss 3, the positioner flange 2 and the pin mounting hole 4 of the positioner main body 1.

In this embodiment, the size of the pin installation boss 3 is determined according to the model and the size of the No. 6 jack pin, so that after the No. 6 jack pin to be crimped is integrally installed into the pin installation boss 3, the locator flange 2 and the pin installation hole 4 of the axial locator, the outer table of the No. 6 jack pin to be crimped is clamped at the end face of the boss 3, and the exposed part of the No. 6 jack pin can be pressed at the correct position when the crimping pliers are used, so as to ensure the accuracy of crimping.

The following describes the working procedure of the axial positioner for pin crimping of the No. 6 jack provided by the embodiment of the utility model:

The positioning notch 5 is aligned with the positioning device alignment pin on the positioning crimping pliers, so that the axial positioning device is integrally installed in the crimping pliers, at the moment, the positioning flange 2 is flush with the upper peripheral plane of the crimping pliers, the number 6 jack pin to be pressed is placed into the pin installation hole 4, and due to the design of the pin installation boss 3 in the axial positioning device, the outer bench of the number 6 jack pin can be clamped on the pin installation boss 3, the exposed crimping part of the number 6 jack pin is crimped, and the accuracy of the indentation position is ensured.

The axial positioner provided by the embodiment realizes the axial positioning and crimping of the No. 6 jack pin, so that an operator can accurately crimp when in crimping, the crimping accuracy is ensured, and the crimping quality and the working efficiency are improved.

Although the embodiments of the present utility model are described above, the present utility model is not limited to the embodiments which are used for understanding the present utility model. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is to be determined by the appended claims.

Claims (6)

1. An axial locator for socket pin crimping, comprising: the positioning device comprises a positioning device main body (1), a positioning device flange (2), a pin mounting boss (3), a pin mounting hole (4) and a positioning notch (5);

The positioning device comprises a positioning device main body (1), a positioning device flange (2) and a pin mounting boss (3), wherein the positioning device main body (1) is of a cylindrical structure, a pin mounting hole (4) is formed in the central position of the positioning device main body, the positioning device flange (2) is fixedly arranged on one side end face of the positioning device main body (1), and the pin mounting boss (3) is fixedly arranged on the end face of the positioning device flange (2);

The pin installation boss (3) and the locator flange (2) are provided with through holes coaxial with the pin installation holes (4) and are used for integrally inserting pins into the pin installation holes (4) of the pin installation boss (3), the locator flange (2) and the locator main body (1); and a positioning notch (5) is formed in one side of the outer edge of the locator flange (2) and is used for being matched and positioned with a locator alignment pin on the crimping pliers.

2. An axial positioner for socket pin crimping according to claim 1,

The locator body (1) is used for integrally installing the axial locator into the crimping pliers after the locator notch (5) on the locator flange (2) is matched with the locator alignment pin on the crimping pliers for positioning.

3. An axial positioner for socket pin crimping according to claim 1,

The outer diameter of the locator flange (2) is determined according to the aperture of the crimping pliers for installing the axial locator, and the locator flange (2) is flush with the peripheral plane of the crimping pliers after the axial locator is integrally installed in the aperture of the crimping pliers.

4. An axial positioner for female pin crimping according to any one of claims 1 to 3,

The hole diameters of the pin installation boss (3) and the locator flange (2) and the hole diameters of the pin installation holes (4) in the locator main body (1) are designed according to the type and the size of the pin of the jack to be crimped, so that the pin of the jack to be crimped is integrally installed in the pin installation boss (3), the locator flange (2) and the pin installation holes (4) of the locator main body (1).

5. The axial positioner for female pin crimping of claim 4,

The size of the pin installation boss (3) is determined according to the type and the size of the jack pin, so that after the jack pin to be crimped is integrally installed into the pin installation boss (3), the locator flange (2) and the pin installation hole (4) of the axial locator, the outer platform of the jack pin to be crimped is clamped at the end face of the boss (3).

6. An axial positioner for female pin crimping according to any one of claims 1 to 3,

The axial positioner is used for carrying out crimping positioning on the No. 6 jack pin, and is used for placing the No. 6 jack pin in the axial positioner which is integrally arranged in the crimping pliers, so that after the outer platform of the No. 6 jack pin is clamped at the end face of the boss (3), the crimping part exposed out of the No. 6 jack pin is crimped by using the crimping pliers, and the crimping part of the No. 6 jack pin is pressed at the correct position.