CN204575466U - The testing equipment that a kind of integral type test connector reverses and bends - Google Patents

Abstract

This application discloses the testing equipment that a kind of integral type test connector reverses and bends, optical cable is adopted to be wrapped in flexure linear guides counterweight respectively and to reverse on linear guides counterweight, utilize optical cable and linear guides counterweight to be wound around friction force to be fixed optical cable, thus avoid the damage of optical cable; Adopt connector stationary fixture fixed connector, adopt flexure motor and reverse motor and drive connector stationary fixture to swing or reverse, realize simulation installation scene to carry out reversing and flex test, replace manually to flexure and the twisting test of connector and optical cable, save manpower, and fixing standard can be adopted to evaluate connector and optical cable, make good product consistency, steady quality; An equipment can be tested the connector at optical cable two ends simultaneously, saves time and manpower, improves checkability; Linear guides counterweight can also adjust the pulling force applied optical cable as required, and can detect the different optical cable of plurality of specifications and connector, the equipment scope of application is wider.

Description

The testing equipment that a kind of integral type test connector reverses and bends

Technical field

The application belongs to connector testing apparatus technical field, specifically, relates to the testing equipment that a kind of integral type test connector reverses and bends.

Background technology

Along with optical cable is to the popularization of the universal of family and 4G and 5G, more and more stricter to the quality requirements of optical connector and optical cable, relevant device all little towards volume, the future development that density is high.Therefore in limited installing space, connector and optical cable are forced to carry out more torsions and flexure, for ensureing that connector and optical cable can meet the transmission of various light signal after mounting, just should carry out sufficient checking when dispatching from the factory, ensureing that optical connector and optical cable after mounting can steady operations.

Only simple torsion test equipment is had to optical cable and connector in prior art, or even manually connector and optical cable are reversed and flex test by people, the fixing of connector cannot be met, and dynamics each manually cannot be unified, fixing standard cannot be adopted to evaluate connector and optical cable.The existing method that grips is generally adopt clip to clamp optical cable in addition, and this kind grips the flattening that method can cause optical cable, causes that Insertion Loss is bigger than normal even to be scrapped.

Utility model content

The application overcomes shortcoming of the prior art, provides the testing equipment of the torsion of a kind of integral type test connector and flexure can realize simulation installation scene and carries out reversing and flex test, to check the performance of connector product anti-torsion and flexure when dispatching from the factory.

In order to solve the problems of the technologies described above, the application is achieved through the following technical solutions:

The testing equipment that integral type test connector reverses and bends, comprises frame, and frame is provided with flexure proving installation and reverses proving installation;

The flexing connector stationary fixture that flexure proving installation comprises the flexure motor be fixed in frame, flexure linear guides counterweight and is fixed in the rotating shaft of flexure motor, rotating shaft drives flexing connector stationary fixture to swing with the flexure realizing connector and optical cable junction, flexure linear guides counterweight is for being wound around tested optical cable and giving optical cable certain pulling force, and the corresponding flexing connector stationary fixture in position of flexure linear guides counterweight draws one end of optical cable;

Reverse proving installation to comprise the torsion motor be fixed in frame, reversing linear guides counterweight, for changing the commutating tooth wheels in the direction of the rotating shaft reversing motor, and the torsion shaft to be connected with commutating tooth wheels, torsion shaft is connected with twist connector stationary fixture, torsion shaft drives twist connector stationary fixture to reverse with the torsion realizing connector and optical cable junction, reverse linear guides counterweight for being wound around tested optical cable and giving optical cable certain pulling force, the corresponding twist connector stationary fixture in position reversing linear guides counterweight draws one end of optical cable.

Wherein, flexure linear guides counterweight comprises flexure linear guides and flexure counterweight, and flexure counterweight can move along flexure linear guides, and flexure counterweight is for being wound around optical cable.

Wherein, reverse linear guides counterweight and comprise torsion linear guides and reverse counterweight, reversing counterweight can move along torsion linear guides, and torsion counterweight is for being wound around optical cable.

Wherein, also comprise the torsion electric machine controller and torsion motor driver that control and drive and reverse motor, control and drive the flexure electric machine controller of flexure motor and bend motor driver.

Wherein, commutating tooth wheels comprise the first cone gear being connected to the rotating shaft reversing motor, are connected to the second cone gear of torsion shaft, and the first cone gear drives the second cone gear to rotate, and torsion shaft is orthogonal with the rotating shaft reversing motor.

Wherein, flexing connector stationary fixture is fixed in the rotating shaft of flexure motor near one end of optical cable, flexing connector stationary fixture rotates near one end of optical cable around flexing connector stationary fixture.

Wherein, torsion motor is stepper motor, and flexure motor is stepper motor, and electric machine controller is controllor for step-by-step motor, and motor driver is stepper motor driver.

Wherein, frame is casing, and reverse motor and flexure motor, electric machine controller and motor driver are all installed on box house.

Wherein, casing is also provided with display, the rotating speed of display display flexure motor and torsion motor and working time, display also shows the pulling force of linear guides counterweight.

Wherein, flexing connector stationary fixture and twist connector stationary fixture are equipped with the groove adapted with connector shape, and connector embeds in flexing connector stationary fixture and twist connector stationary fixture respectively.

Compared with prior art, the beneficial effect of the application is:

The testing equipment that a kind of integral type test connector described in the application reverses and bends, optical cable is adopted to be wrapped in flexure linear guides counterweight respectively and to reverse on linear guides counterweight, utilize optical cable and linear guides counterweight to be wound around friction force to be fixed optical cable, thus avoid the damage of optical cable; Adopt connector stationary fixture fixed connector, adopt flexure motor and reverse motor and drive connector stationary fixture to swing or reverse, connector and optical cable are repeatedly reversed and bent, torsion and the flexure of the connector that simulation may run into when installing and optical cable are carried out reversing and flex test, replace people manually to flexure and the twisting test of connector and optical cable, save manpower, and fixing standard can be adopted to evaluate connector and optical cable, make good product consistency, steady quality; An equipment can be tested the connector at optical cable two ends simultaneously, saves time and the manpower of the upper and lower inspection machine of product, improves checkability; Linear guides counterweight can also adjust the pulling force applied optical cable as required, and can detect the different optical cable of plurality of specifications and connector, the equipment scope of application is wider.

Accompanying drawing explanation

Accompanying drawing is used to provide further understanding of the present application, is used from explanation the application, does not form the restriction to the application with the embodiment one of the application, in the accompanying drawings:

Fig. 1 is the front view of the testing equipment that a kind of integral type test connector described in the application reverses and bends;

Fig. 2 is the structural representation at another visual angle of Fig. 1;

Fig. 3 is the partial enlargement structural representation at A place in Fig. 2;

Fig. 4 is the partial enlargement structural representation at B place in Fig. 2;

Fig. 5 is the perspective view of connector stationary fixture described in the application;

Fig. 6 is the perspective view of another connector stationary fixture described in the application.

Wherein, include in Fig. 1 to Fig. 6:

1---casing, 2---flexure motor;

3---flexure linear guides counterweight, 4---flexing connector stationary fixture;

5---reversing motor, 6---reverse linear guides counterweight;

7---first cone gear, 8---second cone gear;

9---torsion shaft, 10---display;

11---groove, 12---optical cable;

13---twist connector stationary fixture.

Embodiment

Be described below in conjunction with the preferred embodiment of accompanying drawing to the application, should be appreciated that preferred embodiment described herein is only for instruction and explanation of the application, and be not used in restriction the application.

As shown in Figure 1 to Figure 2, the testing equipment that a kind of integral type test connector described in the application reverses and bends, comprises frame, and frame is provided with flexure proving installation and reverses proving installation.The flexing connector stationary fixture 4 that flexure proving installation comprises the flexure motor 2 be fixed in frame, flexure linear guides counterweight 3 and is fixed in the rotating shaft of flexure motor 2, rotating shaft drives flexing connector stationary fixture 4 to swing the flexure realizing connector and optical cable 12 junction, flexure linear guides counterweight 3, for being wound around tested optical cable 12 and giving optical cable 12 certain pulling force, bends one end of the extraction optical cable 12 of the corresponding flexing connector stationary fixture 4 in position of linear guides counterweight 3.Concrete, when carrying out flexure test, optical cable 12 is wrapped on flexure linear guides counterweight 3, the position of adjustment flexure linear guides counterweight 3, makes optical cable 12 tensioning and the pulling force making it give optical cable 12 is appropriate, in the flexing connector stationary fixture 4 that rotating shaft connector being installed on flexure motor 2 connects, open flexure motor 2 switch, flexure motor 2 is rotated, drives flexing connector stationary fixture 4 to swing, carry out flexure test.

Reverse proving installation and comprise the torsion motor 5 be fixed in frame, reverse linear guides counterweight 6, for changing the commutating tooth wheels in the direction of the rotating shaft reversing motor 5, the torsion shaft 9 be connected with commutating tooth wheels, torsion shaft 9 is connected with twist connector stationary fixture 13, torsion shaft 9 drives twist connector stationary fixture 13 to reverse to realize the torsion of connector and optical cable 12 junction, reverse linear guides counterweight 6 for being wound around tested optical cable 12 and giving optical cable 12 certain pulling force, reverse one end of the extraction optical cable 12 of the corresponding twist connector stationary fixture 13 in position of linear guides counterweight 6.Concrete, when carrying out torsion test, be wrapped in by optical cable 12 and reverse on linear guides counterweight 6, the position of linear guides counterweight 6 is reversed in adjustment, make optical cable 12 tensioning and the pulling force making it give optical cable 12 is appropriate, connector is installed in the twist connector stationary fixture 13 that torsion shaft 9 connects, opens and reverse motor 5 switch, torsion motor 5 is rotated, commutating tooth wheels are driven to rotate, and then drive torsion shaft 9 to rotate, finally drive twist connector stationary fixture 13 to reverse, carry out torsion test.

Torsion test and flexure test can be carried out respectively to the connector at optical cable 12 two ends during test simultaneously, test rear conversion direction to bend and twisting test the connector at the two ends of optical cable 12 respectively again, one-step installation product can carry out two tests, article one, the two ends of optical cable 12 can be tested simultaneously, save the test duration greatly, improve detection efficiency.

Flexure linear guides counterweight 3 comprises flexure linear guides and flexure counterweight, and flexure counterweight can move along flexure linear guides, and flexure counterweight is for being wound around optical cable 12.Flexure counterweight is the pulling force of mobile adjustment to optical cable 12 on linear guides, and the shape of flexure counterweight is cylindrical or Round Wheel, is convenient to optical cable 12 and is wound around, not fragile optical cable 12.

Reverse linear guides counterweight 6 comprise torsion linear guides and reverse counterweight, reversing counterweight can move along torsion linear guides, and torsion counterweight is for being wound around optical cable 12.Reverse counterweight mobile adjustment pulling force to optical cable 12 on linear guides, the shape reversing counterweight is cylindrical or Round Wheel, is convenient to optical cable 12 and is wound around, not fragile optical cable 12.

In addition, a kind of integral type test connector reverses and the testing equipment of flexure also comprises the torsion electric machine controller of control and driving torsion motor 5 and reverses motor driver, and control and driving bend flexure electric machine controller and the flexure motor driver of motor 2.Controller can pre-set programs be tested the optical cable 12 of same model and connector, unified testing standard, good product consistency stable performance.

As shown in Figure 4, commutating tooth wheels comprise the first cone gear 7 being connected to the rotating shaft reversing motor 5, and the second cone gear 8, first cone gear 7 being connected to torsion shaft 9 drives the second cone gear 8 to rotate, and torsion shaft 9 is orthogonal with the rotating shaft reversing motor 5.Reversed the direction of the rotating shaft of motor 5 by the adjustment of commutating tooth wheels, be convenient to the layout of equipment, improve the stability of equipment and beautify the outward appearance of equipment.

As shown in Figure 3, the flexing connector stationary fixture 4 of flexure proving installation is fixed in the rotating shaft of flexure motor 2 near one end of optical cable 12, flexing connector stationary fixture 4 rotates near one end of optical cable 12 around flexing connector stationary fixture 4.Make flexure position be the junction of connector and optical cable 12, under the prerequisite ensureing stability, when making the rotating shaft of flexure motor 2 rotate equal angular, deflection degree is maximum as far as possible, and the efficiency of flexure motor 2 is improved.

Reversing motor 5 is stepper motor.Flexure motor 2 is stepper motor, and electric machine controller is controllor for step-by-step motor, and motor driver is stepper motor driver.Low cost, cost is lower.Stepper motor can adopt the stepper motor of 57HS513 model

Frame is casing 1, and reverse motor 5 and flexure motor 2, it is inner that electric machine controller and motor driver are all installed on casing 1.Be convenient to device layout, motor 5 and flexure motor 2 are reversed in protection, reduce noise, dust-proof, and appearance looks elegant.Controllor for step-by-step motor can adopt model to be the controllor for step-by-step motor of AKS-01Z.The model of stepper motor driver is: MD542,

Casing 1 is also provided with display 10, and display 10 shows flexure motor 2 and reverses rotating speed and the working time of motor 5, and display 10 also shows the pulling force of linear guides counterweight.The parameter of convenient operation personal observations equipment setting situation and in time understanding test product, convenient adjustment.

As shown in Figure 5, Figure 6, flexing connector stationary fixture 4 and twist connector stationary fixture 13 are equipped with the groove 11 adapted with connector shape, and connector embeds in flexing connector stationary fixture 4 and twist connector stationary fixture 13 respectively.Be convenient to pick and place connector, protection connector, and extruding injury can not be caused to connector, prevent Insertion Loss.

Last it is noted that these are only the preferred embodiment of the application; be not limited to the application; although with reference to embodiment to present application has been detailed description; for a person skilled in the art; it still can be modified to the technical scheme described in foregoing embodiments; or equivalent replacement is carried out to wherein portion of techniques feature; but within all spirit in the application and principle; any amendment of doing, equivalent replacement, improvement etc., within the protection domain that all should be included in the application.

Claims (10)

1. a testing equipment for the torsion of integral type test connector and flexure, is characterized in that: comprise frame, and described frame is provided with flexure proving installation and reverses proving installation;

The flexing connector stationary fixture that described flexure proving installation comprises the flexure motor be fixed in frame, flexure linear guides counterweight and is fixed in the rotating shaft of described flexure motor, described rotating shaft drives described flexing connector stationary fixture to swing with the flexure realizing connector and optical cable junction, described flexure linear guides counterweight is for being wound around tested optical cable and giving optical cable certain pulling force, and the corresponding described flexing connector stationary fixture in position of described flexure linear guides counterweight draws one end of described optical cable;

Described torsion proving installation comprises the torsion motor be fixed in frame, reverse linear guides counterweight, for changing the commutating tooth wheels in the direction of the rotating shaft of described torsion motor, and the torsion shaft to be connected with described commutating tooth wheels, described torsion shaft is connected with twist connector stationary fixture, described torsion shaft drives described twist connector stationary fixture to reverse with the torsion realizing connector and optical cable junction, described torsion linear guides counterweight is for being wound around tested optical cable and giving optical cable certain pulling force, the corresponding described twist connector stationary fixture in position of described torsion linear guides counterweight draws one end of described optical cable.

2. the testing equipment of a kind of integral type test connector torsion according to claim 1 and flexure, it is characterized in that: described flexure linear guides counterweight comprises flexure linear guides and flexure counterweight, described flexure counterweight can move along described flexure linear guides, and described flexure counterweight is for being wound around described optical cable.

3. the testing equipment of a kind of integral type test connector torsion according to claim 1 and flexure, it is characterized in that: described torsion linear guides counterweight comprises torsion linear guides and reverses counterweight, described torsion counterweight can move along described torsion linear guides, and described torsion counterweight is for being wound around described optical cable.

4. the testing equipment that a kind of integral type test connector according to claim 1 or 2 or 3 reverses and bends, it is characterized in that: also comprise the torsion electric machine controller and torsion motor driver that control and drive described torsion motor, control and drive flexure electric machine controller and the flexure motor driver of described flexure motor.

5. the testing equipment of a kind of integral type test connector torsion according to claim 4 and flexure, it is characterized in that: described commutating tooth wheels comprise the first cone gear of the rotating shaft being connected to described torsion motor, be connected to the second cone gear of described torsion shaft, described first cone gear drives the second cone gear to rotate, and the rotating shaft of described torsion shaft and described torsion motor is orthogonal.

6. the testing equipment of a kind of integral type test connector torsion according to claim 4 and flexure, it is characterized in that: described flexing connector stationary fixture is fixed in the rotating shaft of described flexure motor near one end of described optical cable, described flexing connector stationary fixture rotates near one end of described optical cable around described flexing connector stationary fixture.

7. the testing equipment of a kind of integral type test connector torsion according to claim 4 and flexure, it is characterized in that: described torsion motor is stepper motor, described flexure motor is stepper motor, described electric machine controller is controllor for step-by-step motor, and described motor driver is stepper motor driver.

8. the testing equipment of a kind of integral type test connector torsion according to claim 4 and flexure, it is characterized in that: described frame is casing, described torsion motor and described flexure motor, described electric machine controller and described motor driver are all installed on described box house.

9. the testing equipment of a kind of integral type test connector torsion according to claim 8 and flexure, it is characterized in that: described casing is also provided with display, described display shows rotating speed and the working time of described flexure motor and described torsion motor, and described display also shows the pulling force of described linear guides counterweight.

10. the testing equipment of a kind of integral type test connector torsion according to claim 1 and flexure, it is characterized in that: described flexing connector stationary fixture and described twist connector stationary fixture are equipped with the groove adapted with connector shape, described connector embeds in described flexing connector stationary fixture and described twist connector stationary fixture respectively.