CN114784560B - Auxiliary device for connector pulling and inserting and using method - Google Patents

Abstract

The application relates to the technical field of microwave component testing, and particularly discloses an auxiliary device for connector pulling and inserting and a use method thereof, wherein the auxiliary device comprises a box body which is in a hollowed-out structure and is provided with an opening groove at one side, a pulling mechanism arranged on the box body, and a stay bar component connected with the pulling mechanism; the supporting rod component is positioned above the box body and is arranged at one side close to the open groove; before testing, the connector is installed in the box body and is assembled with the connecting seat for testing; after the test is finished, the supporting rod component is controlled to move to one side close to the connecting seat by the pulling mechanism and is abutted with the connecting seat, so that the connecting seat and the connector are forced to be separated. The application can effectively avoid the connector from being damaged due to the inclined pull-out of the connector caused by uneven stress of the connector.

Description

Auxiliary device for connector pulling and inserting and using method

Technical Field

The application relates to the technical field of microwave component testing, in particular to an auxiliary device for connector plugging and unplugging and a use method thereof.

Background

With the development of micro-systematic integration of microwave components, the functions of the microwave components are more and more, and the volume of the microwave components is smaller and smaller. The micro rectangular connector is a preferred low-frequency signal input/output device of the microwave component because of the advantages of small volume, high integration density and the like. Repeated testing of component performance is required during the production of microwave components, and micro rectangular connectors may be required to undergo up to tens of insertions and removals.

The conventional insertion method of the micro rectangular connector is to lightly align the connector with the connector holder by holding the connector by hand and then press the connector with thumb to tightly connect the connector and the connector holder. The connector is usually pried out by pulling out by hand or by using a sharp object such as forceps to be clamped into a gap of the connector. Because the rectangular connector has smaller volume, the thumb and the index finger are difficult to apply force in the inserting and pulling process. In the plugging process, especially in the unplugging process, the two sides of the connector are extremely easy to be stressed unevenly, so that the connector is obliquely plugged or obliquely unplugged. Since the interconnected pins and holes in the micro rectangular connector are thin and there is no supporting medium around, oblique insertion and extraction can easily cause the pins or holes of the connector to skew and damage. Damaged connectors and seats are generally not repairable and can only be replaced. And the replacement process has the advantages of more working procedures, long time and extremely high material, time and labor cost. Therefore, an auxiliary device for plugging and unplugging connectors is urgently needed, which can realize the plugging and unplugging of micro-distance connectors, realize the nondestructive plugging and unplugging of connectors, reduce the repair rate of connectors and reduce the waste.

Chinese patent 201520594086.5 discloses a quick locking and dismounting structure of an auxiliary device connector for connector plugging and unplugging, wherein the locking and dismounting structure comprises a housing of a fixed connector and a coding block of a fixed connector base. Since the connector base used in the microwave assembly is generally embedded in the microwave assembly, the encoding block cannot be installed. This structure is not suitable for microwave components.

Chinese patent 201810580292.9 discloses an auxiliary device rectangular connector removing tool for connector plugging and unplugging, wherein the removing tool can be used for removing a micro rectangular connector, but since the removing tool does not reserve a position for an extension line at the rear end of the connector, the extension line is forced to bend when the tool is used, and the extension line may be damaged. Secondly, the tool can only assist in pulling and cannot assist in insertion. Moreover, the microwave assembly production site is usually mixed line production, and comprises various micro rectangular connectors, so that the distance between the left and right pliers is required to be continuously set according to different connector sizes when the disassembling tool is used, time is wasted, and the disassembling tool is inconvenient to use.

Disclosure of Invention

The application aims to solve the technical problem of providing an auxiliary device for connector pulling and inserting and a use method thereof, which can effectively realize the vertical pulling out of a connector and avoid the connector from being damaged due to the inclined pulling out of the connector caused by uneven stress of the connector.

The application solves the technical problems by adopting the following solution:

on the one hand:

an auxiliary device for connector pulling and inserting comprises a box body with a hollow structure and an open slot at one side, a pulling mechanism arranged on the box body, and a stay bar assembly connected with the pulling mechanism; the supporting rod component is positioned above the box body and is arranged at one side close to the open groove;

before testing, the connector is mounted on the box body and is assembled with the connecting seat for testing;

after the test is finished, the supporting rod component is controlled to move to one side close to the connecting seat through the pulling mechanism and is in butt joint with the connecting seat, and the acting force is continuously applied to the pulling mechanism, so that the supporting rod component continuously applies the acting force to the connecting seat, and the connecting seat is separated from the connecting head.

In some possible embodiments, in order to effectively realize the pulling mechanism, the supporting rod assembly can be controlled to separate the connecting seat from the connecting head;

the pulling mechanism comprises a rotating shaft arranged on the top surface of the box body, a rotating plate rotationally connected with the rotating shaft, and a linkage rod with two ends respectively hinged with the rotating plate and the supporting rod component.

In some possible embodiments, in order to effectively realize the reset of the linkage rod and the rotating plate after the use;

the rotating shaft is sleeved with a torsion spring, and two ends of the torsion spring are respectively connected with the top surface of the box body and the rotating plate.

In some possible embodiments, in order to effectively achieve a rotational fit of the rotating plate with the rotating shaft;

the rotating plate comprises a force application plate and two connecting plates which are respectively connected with two symmetrical side surfaces of the force application plate and are rotationally connected with the rotating shaft; the connecting plate is positioned between the force application plate and the top surface of the box body.

In some possible embodiments, to ensure that the connectors are uniformly stressed on both the left and right sides when separated;

the stay bar assemblies are two groups and are arranged in one-to-one correspondence with the two connecting plates.

In some possible embodiments, in order to effectively achieve the separation of the brace assembly from the connector and the connection mount;

the stay bar assembly comprises a guide plate connected with one side of the box body, which is close to the opening of the opening groove, and a stay bar which is connected with the guide plate in a sliding manner and hinged with the linkage bar.

In some possible embodiments, the stay is guided for effective positioning;

the guide plate is provided with guide holes matched with the stay bars.

In some possible embodiments, the connector is mounted for efficient implementation;

the box body comprises an upper shell for mounting the pulling mechanism and the stay bar assembly and a lower shell which is matched with the upper shell and is used for mounting the connector; a wire hole is arranged on one side of the lower shell, which is far away from the open slot.

In some possible embodiments, the fixing of the connecting head is to be effected effectively;

a lower buckle is arranged on one side of the lower shell close to the open slot; the lower buckle and the guide plate are of L-shaped structures, and comprise a horizontal plate connected with one side of the opening groove of the box body and a vertical plate vertically connected with the horizontal plate, and the vertical plate is positioned on one side of the horizontal plate close to the top of the box body; the guide holes are arranged on the vertical plates of the guide plates; a clamping groove for clamping the connector is formed between the two horizontal plates.

On the other hand:

the application method of the auxiliary device for connector pulling and inserting specifically comprises the following steps:

assembling and testing:

the connector is arranged in the lower shell, an extension line of the connector is led out through a line hole, and the upper shell is arranged; assembling the connector and the connecting seat, and then testing;

pulling out:

after the test is finished, the force application plate is controlled to move around the axial direction to be close to one side of the box body opening groove, so that the supporting rod moves to one side close to the connecting seat and is abutted with one side of the connecting seat close to the box body, and the force application plate is controlled to move to one side of the box body opening groove continuously, so that the connecting seat and the connector can be separated; after separation, the force application plate is stopped, the torsion spring is restored from the compressed state to the initial state to drive the force application plate to move to one side, far away from the opening groove of the box body, of the revolving shaft, and the stay bar is driven to restore to the initial position.

Compared with the prior art, the application has the beneficial effects that:

according to the application, the vertical separation of the connector and the connecting seat can be effectively realized through the cooperation of the pulling mechanism and the supporting rod assembly, so that the situation of oblique pulling out due to the adoption of the technical scheme in the prior art is effectively avoided, and the damage of the connector caused by oblique pulling out is avoided;

compared with the technical scheme in the prior art, the box body and the force application plate are arranged, so that an operation force application surface during assembling of the connecting seat and the connector can be effectively provided, and the balance of the left and right sides during assembling can be ensured;

according to the application, the extension line of the rear section of the connector can be effectively led out by arranging the line hole, so that the extension line is effectively ensured not to deform and be damaged due to stress caused by misoperation when the connector is assembled and separated from the connecting seat;

the application has the advantages of simple structure, convenient operation, reduced connector damage rate and prolonged connector service life.

Drawings

FIG. 1 is a schematic diagram of the structure of the present application;

FIG. 2 is a schematic view of the structure of the pulling mechanism, upper housing and brace assembly of the present application;

FIG. 3 is a schematic view of the structure of the lower housing of the present application;

FIG. 4 is a schematic view of the assembled connector of the present application;

wherein: 1. a case body; 11. an upper housing; 12. a lower housing; 121. a wire hole; 122. a lower buckle; 2. a pulling mechanism; 21. a force application plate; 22. a rotating shaft; 23. a linkage rod; 24. a torsion spring; 25. a connecting plate; 3. a brace bar assembly; 31. a brace rod; 32. a guide plate; 4. an open slot; 10. and (5) a connector.

Detailed Description

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. Reference to "first," "second," and similar terms herein do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Likewise, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. In the implementation of the present application, "and/or" describes the association relationship of the association object, which means that there may be three relationships, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In the description of the embodiments of the present application, unless otherwise indicated, the meaning of "a plurality" means two or more. For example, a plurality of positioning posts refers to two or more positioning posts. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

The present application will be described in detail below.

As shown in fig. 1-4:

on the one hand:

the auxiliary device for connector pulling and inserting comprises a box body 1 with a hollow structure and an open slot 4 arranged at one side, a pulling mechanism 2 arranged on the box body 1, and a stay bar assembly 3 connected with the pulling mechanism 2; the stay bar component 3 is positioned above the box body 1 and is arranged at one side close to the open slot 4;

before testing, the connector 10 is mounted on the box body 1, and then the connector 10 is inserted into a connecting seat (not shown in the figure) to perform testing;

after the test is finished, the supporting rod assembly 3 is controlled to move to one side close to the connecting seat by the pulling mechanism 2, the supporting rod assembly 3 is abutted to the connecting seat, and the supporting rod assembly 3 continuously applies an acting force to the connecting seat, so that the connecting seat is separated from the connecting head 10.

In a specific operation, the connecting seat is connected with other components to form a fixed whole, and the supporting rod component 3 moves to one side of the connecting seat and applies acting force, so that the connector 10 connected with the connecting seat moves to one side far away from the connecting seat after being stressed, and separation is realized.

In some possible embodiments, in order to effectively realize that the pulling mechanism 2 can control the stay bar assembly 3 to separate the connector 10 from the connector seat;

the pulling mechanism 2 comprises a rotating shaft 22 arranged on the top surface of the box body 1, a rotating plate rotatably connected with the rotating shaft 22, and a linkage rod 23 with two ends respectively hinged with the rotating plate and the supporting rod assembly 3.

The rotating shaft 22 is arranged on the top surface of the box body 1 through a bearing seat and rotates relative to the top surface of the box body 1; the rotating plate is rotationally connected with the rotating shaft 22, and the transmission connection of the rotating plate and the supporting rod assembly 3 is realized through the linkage rod 23;

when the connector 10 is separated from the connecting seat, the rotating plate moves to one side close to the connecting seat around the rotating shaft 22, and drives the linkage rod 23 to rotate around the rotating shaft 22, so that the stay rod assembly 3 moves to one side close to the connecting seat, and the connecting seat is fixed, so that the connector 10 moves to one side far from the connecting seat and is ejected from the connecting seat;

in some possible embodiments, in order to effectively realize the reset of the linkage rod 23 and the rotating plate after the use;

the rotating shaft 22 is sleeved with a torsion spring 24, and two ends of the torsion spring 24 are respectively connected with the top surface of the box body 1 and the rotating plate.

The torsion spring 24 is sleeved on the rotating shaft 22 and is respectively connected with the box body 1 and the rotating plate, and when the rotating plate rotates around the rotating shaft 22 towards the side close to the connecting seat, the torsion spring 24 changes from an initial state to a compression state; the brace rod component 3 is used for connecting the connector 10 from the inside of the connecting seat; after ejection, the rotating plate is not subjected to external force, at the moment, the torsion spring 24 is restored from the compressed state to the initial state, so that the rotating plate moves to one side far away from the opening groove 4 of the box body 1 around the rotating shaft 22, the supporting rod assembly 3 is driven to move to one side close to the rotating shaft 22, and when the torsion spring 24 is restored to the initial state, the reset is completed; thereby realizing the function of automatic reset after the use is completed; the next use can be waited.

Further, in order to avoid the torsion spring 24 moving along the length direction of the rotating shaft 22, two limiting plates for limiting the torsion spring 24 moving along the length direction of the rotating shaft 22 are arranged on the rotating shaft 22, and the torsion spring 24 is located between the two limiting plates.

In some possible embodiments, to effectively achieve a rotational fit of the rotor plate with the rotor shaft 22;

the rotating plate comprises a force application plate 21 and two connecting plates 25 which are respectively connected with two symmetrical side surfaces of the force application plate 21 and are rotationally connected with a rotating shaft 22; the connecting plate 25 is located between the force application plate 21 and the top surface of the case 1.

The force application plate 21 is rotatably connected with the rotating shaft 22 through the connecting plate 25 to realize rotation around the rotating shaft 22, so that a hinge point between the connecting plate 25 and the linkage rod 23 rotates around the rotating shaft 22.

In some possible embodiments, in order to make the stress on the connection seat more uniform, oblique extraction is avoided; preferably, the two groups of connecting plates are rotationally connected with the two ends of the rotating shaft and symmetrically arranged.

As shown in fig. 2, the stay bar assemblies 3 are arranged at the left and right groups at the two ends of the rotating shaft and are in one-to-one correspondence with the two connecting plates.

Further, as shown in fig. 1 and 2, when two sets of stay bar assemblies 3 are adopted, two sets of torsion springs 24 are provided;

preferably, the two sets of strut assemblies 3 are symmetrically arranged along the axis of the connector, which allows for a more even applied force.

In some possible embodiments, in order to effectively achieve the separation of the brace assembly 3 from the connector and the connection seat;

the stay bar assembly 3 comprises a guide plate 32 connected with one side of the box body 1 close to the opening of the opening groove 4, and a stay bar 31 connected with the guide plate 32 in a sliding manner and hinged with the linkage bar 23.

As shown in fig. 1 and 2, the guide plates 32 of the two sets of stay assemblies 3 may be integrally provided.

In some possible embodiments, in order to effectively perform positioning and guiding on the stay bar 31, the stay bar 31 can make a linear motion to approach the connecting seat, so that the connecting seat is effectively and vertically forced.

The guide plate 32 is provided with a guide hole matched with the stay bar 31, and the guide is realized through the guide hole.

In some possible embodiments, the mounting of the connector 10 is to be effected efficiently;

the box body 1 comprises an upper shell 11 for mounting the lifting mechanism 2 and the stay bar assembly 3, and a lower shell 12 which is matched with the upper shell 11 and is used for mounting the connector 10; a wire hole 121 is provided at a side of the lower housing 12 remote from the open groove 4.

Further, the wire hole 121 is coaxially arranged with the connector 10, so that the extension wire can better enter the wire hole 121.

Further, the upper shell 11 and the lower shell 12 are connected by adopting screws, and form a hollow structure, and the hollow structure is communicated with the open slot to realize the installation of the connector 10; mounting holes are formed in the upper housing 11, and screw holes are formed in the lower housing 12;

in some possible embodiments, the fixing of the connecting head is to be effected effectively;

as shown in fig. 3, a lower buckle 122 is arranged on one side of the lower shell 12 close to the open slot 4; the lower buckle 122 has an L-shaped structure similar to the guide plate 32, and comprises a horizontal plate connected with one side of the opening groove 4 of the box body 1 and a vertical plate vertically connected with the horizontal plate, wherein the vertical plate is positioned on one side of the horizontal plate close to the top of the box body 1; the guide holes are arranged on the vertical plate of the guide plate 32; a clamping groove for clamping the connector is formed between the two horizontal plates.

Preferably, a boss is arranged at the bottom of the horizontal plate in the guide plate 32, and clamping of the connector 10 is realized through cooperation of the boss, the horizontal plate in the guide plate 32 and the lower buckle 122;

the connector 10 is not removed after installation, and replacement is only performed when the connector 10 is damaged.

Further, the stay bar component 3, the box body 1 and the rotating shaft 22 are all made of aluminum alloy or stainless steel materials;

preferably, the connector described in the present application may be a micro rectangular connector or other structural form of connector.

On the other hand:

the application method of the auxiliary device for connector pulling and inserting specifically comprises the following steps:

assembling and testing: the connector 10 is arranged in the lower shell 12, an extension line of the connector 10 is led out through a line hole 121, and the upper shell 11 is arranged; assembling the connector 10 and the connector base, and then testing; the method specifically comprises the following steps:

the connector 10 is arranged in the lower shell 12, an extension line of the connector 10 is led out through a line hole 121, the upper shell 11 is arranged, and the connector 10 is fixed by the cooperation of a horizontal plate of the guide plate 32, a boss at the bottom of a horizontal plate in the guide plate 32 and a lower buckle 122; assembling the connector 10 and the connector base, and then testing;

when the connector 10 is assembled with the connecting seat, a tester holds the left side and the right side of the box body 1 by using the thumb, the index finger and the middle finger, so that the connector 10 is aligned with the connecting seat, the connector 10 is inserted by lightly exerting force, at the moment, a certain distance is reserved between the supporting rod 31 and one end, close to the supporting rod 31, of the connecting seat, and mutual abutting cannot occur;

pulling out:

after the test is finished, the force application plate 21 is controlled to move towards the side close to the opening groove 4 of the box body 1 around the rotating shaft 22, so that the supporting rod 31 moves towards the side close to the connecting seat and is abutted with the side close to the box body 1 of the connecting seat, and the force application plate 21 is controlled to continue to move towards the opening groove 4 side of the box body 1; because the connecting seat is motionless and the stay bar 31, the box body 1 and the connector 10 are assembled into a whole, the stay bar 31 drives the whole to move to one side far away from the connecting seat, so that the connector 10 is pulled out of the connecting seat;

after the connector 10 is pulled out, the force application to the force application plate 21 is stopped, the torsion spring 24 returns from the compressed state to the initial state, the force application plate 21 is driven to move to the side far away from the opening groove 4 of the box body 1 around the rotating shaft 22, and the supporting rod 31 is driven to return to the initial position.

The product model and the technological parameters, such as shape and size, related to the design of the device can be flexibly changed according to actual demands. All equivalent changes and modifications made according to the patent claims are included in the scope of protection of the patent claims.

The application is not limited to the specific embodiments described above. The application extends to any novel one, or any novel combination, of the features disclosed in this specification, as well as to any novel one, or any novel combination, of the steps of the method or process disclosed.

Claims (5)

1. The auxiliary device for pulling and inserting the connector is characterized by comprising a box body which is in a hollowed-out structure and is provided with an opening groove at one side, a pulling mechanism arranged on the box body, and a stay bar assembly connected with the pulling mechanism; the supporting rod component is positioned above the box body and is arranged at one side close to the open groove; the box body comprises an upper shell for mounting the pulling mechanism and the stay bar assembly and a lower shell which is matched with the upper shell and is used for mounting the connector; a wire hole is formed in one side, far away from the open slot, of the lower shell;

before testing, the connector is mounted on the box body and is assembled with the connecting seat for testing;

after the test is finished, the supporting rod component is controlled to move to one side close to the connecting seat by pulling the pulling mechanism and is abutted against the connecting seat, and the supporting rod component is enabled to apply an acting force to the connecting seat by continuously applying the acting force through the pulling mechanism, so that the connecting seat is separated from the connecting head; the pulling mechanism comprises a rotating shaft arranged on the top surface of the box body, a rotating plate rotationally connected with the rotating shaft, and a linkage rod with two ends respectively hinged with the rotating plate and the stay rod assembly; the rotating plate comprises a force application plate and two connecting plates which are respectively connected with two symmetrical side surfaces of the force application plate and are rotationally connected with the rotating shaft; the connecting plate is positioned between the force application plate and the top surface of the box body; the two stay bar assemblies are arranged in two groups and are in one-to-one correspondence with the two connecting plates;

the stay bar assembly comprises a guide plate connected with one side of the box body, which is close to the opening of the opening groove, and a stay bar which is connected with the guide plate in a sliding manner and hinged with the linkage bar.

2. The auxiliary device for connector pulling and inserting according to claim 1, wherein a torsion spring is sleeved on the rotating shaft, and two ends of the torsion spring are respectively connected with the top surface of the box body and the rotating plate.

3. An auxiliary device for connector plugging according to claim 1, wherein the guide plate is provided with guide holes for cooperating with the stay bars.

4. An auxiliary device for connector plugging according to claim 3, wherein a lower buckle is provided on a side of the lower housing adjacent to the open slot; the lower buckle and the guide plate are of L-shaped structures, and comprise a horizontal plate connected with one side of the opening groove of the box body and a vertical plate vertically connected with the horizontal plate, and the vertical plate is positioned on one side of the horizontal plate close to the top of the box body; the guide holes are arranged on the vertical plates of the guide plates; a clamping groove for clamping the connector is formed between the two horizontal plates.

5. The method of using an auxiliary device for plugging and unplugging connectors according to any one of claims 1 to 4, comprising the steps of:

assembling and testing:

the connector is arranged in the lower shell, an extension line of the connector is led out through a line hole, and the upper shell is arranged; assembling the connector and the connecting seat, and then testing;

pulling out:

after the test is finished, the force application plate is controlled to move around the axial direction to be close to one side of the box body opening groove, so that the supporting rod moves to one side close to the connecting seat and is abutted with one side of the connecting seat close to the box body, and the force application plate is controlled to move to one side of the box body opening groove continuously, so that the connecting seat can be separated from the connector; after separation, the force application plate is stopped, the torsion spring is restored from the compressed state to the initial state to drive the force application plate to move to one side, far away from the opening groove of the box body, of the revolving shaft, and the stay bar is driven to restore to the initial position.