CN104516056A - Detachable integrated structure of MT optical fiber assembly - Google Patents

Abstract

The invention discloses a detachable integrated structure of an MT (mobile terminal) optical fiber assembly. The detachable integrated structure comprises a module and the MT optical fiber assembly arranged in a mounting slot of the module, wherein a slot body of which the diameter is greater than that of the mounting slot is arranged in the middle of the mounting slot; the MT optical fiber assembly comprises a deformation piece arranged on the optical fiber and a mounting head clamped at the end part of the optical fiber; a first hook which is matched with the slot body and is used for fixing the MT optical fiber assembly in the mounting slot is arranged at the lower end of the deformation piece; the MT optical fiber assembly is matched with the slot body through the first hook of the deformation piece, so that the MT optical fiber assembly is stably clamped in the module; during detaching, a clamping tool such as forceps is used for clamping the upper end of the deformation piece, so that the whole deformation piece is deformed, and the first hook of the deformation piece leaves the slot body and is upwards lifted with effort so as to realize quick detaching of the MT optical fiber assembly.

Description

MT optical fiber component loading and unloading type integrated morphology

Technical field

The invention belongs to field of connectors, be specifically related to a kind of MT optical fiber component loading and unloading type integrated morphology.

Background technology

At present, the electrical connection of every profession and trade electronic equipment is progressively to modular future development, and optoelectronic device is also progressively to Fast Installation, for ease of maintenaince change with the aspect such as replacing, and this proposes new requirement to the installation and removal of the MT optical fiber contact of connector; MT optical fiber contact in convention connectors, the general screw that adopts fixes, in unloading process, easily damage optical fiber.

Summary of the invention

For above-mentioned deficiency of the prior art, MT optical fiber component loading and unloading type integrated morphology provided by the invention can realize the mounting or dismounting of MT optical fiber component rapidly.

In order to reach foregoing invention object, the technical scheme that MT optical fiber component loading and unloading type integrated morphology of the present invention adopts is: comprise module and be arranged on the MT optical fiber component in the mounting groove of module; It is characterized in that: in the middle part of mounting groove, be provided with the cell body that a diameter is greater than mounting groove diameter; MT optical fiber component comprises the deformable member be arranged on optical fiber and the mounting head being installed on optical fiber end; The lower end of deformable member is provided with to coordinate with cell body and MT optical fiber component is fixed on first in mounting groove links up with.

Beneficial aspects of the present invention is: MT optical fiber component is acted on cooperatively interacting of cell body by the first hook of deformable member, MT optical fiber component stably can be installed in module; During dismounting, the clamping devices such as tweezers can be adopted to clamp the upper end of deformable member, whole deformable member is deformed, thus make first of deformable member the hook exit cell body, more firmly upwards carry the quick-detachment that just can realize MT optical fiber component.

Adopt above-mentioned loading and unloading type integrated morphology can make the repeated multiple times quick unloading in the module of MT optical fiber component, and MT optical fiber component not easy damaged, meet Fast Installation and the unloading requirement of connector MT optical fiber component in maintenance process; Thus make to change, maintenance cost significantly reduces.

Accompanying drawing explanation

Fig. 1 is the structural representation of MT optical fiber component loading and unloading type integrated morphology;

Fig. 2 is the semisectional view of MT optical fiber component loading and unloading type integrated morphology;

Fig. 3 is the structural representation of MT optical fiber component;

Fig. 4 is the vertical view of front mounting plate;

Fig. 5 is the vertical view of rear installing plate.

Wherein, 1, MT optical fiber component; 11, optical fiber; 12, the second hook; 13, deformable member; 14, spring; 15, mounting head; 16, the first hook; 2, rear installing plate; 21, cell body; 3, front mounting plate; 31, mounting groove; 4, web member.

Embodiment

Below the specific embodiment of the present invention is described; so that those skilled in the art understand the present invention; but should be clear; the invention is not restricted to the scope of embodiment; to those skilled in the art; as long as various change to limit and in the spirit and scope of the present invention determined, these changes are apparent, and all innovation and creation utilizing the present invention to conceive are all at the row of protection in appended claim.

The semisectional view of MT optical fiber component loading and unloading type integrated morphology is shown with reference to figure 2, Fig. 2; As shown in Figure 2, this MT optical fiber component 1 loading and unloading type integrated morphology comprises module and is arranged on the MT optical fiber component 1 in the mounting groove 31 of module; The cell body 21 that a diameter is greater than mounting groove 31 diameter is provided with in the middle part of mounting groove 31.

As shown in Figure 3, MT optical fiber component 1 comprises the deformable member 13 be arranged on optical fiber 11 and the mounting head 15 being installed on optical fiber 11 end; The lower end of deformable member 13 is provided with to coordinate with cell body 21 and MT optical fiber component 1 is fixed on first in mounting groove 31 links up with 16.

During use, directly sent into hand by the mounting groove 31 of MT optical fiber component 1 along module, hear that slight " click clatter " namely represents and be in place, now the first hook 16 has entered in the cell body 21 of module.When need repairing unloading MT optical fiber component 1 time, the upper end of deformable member 13 only need be clamped with clamping devices such as tweezers, whole deformable member 13 is deformed, thus makes first of deformable member 13 the hook 16 exit cell body 21, more firmly upwards carry the quick-detachment that just can realize MT optical fiber component 1.

As shown in Figure 2, in one embodiment of the invention, the optical fiber 11 between deformable member 13 and mounting head 15 is set with spring 14.MT optical fiber component 1 is arranged on after in module, spring 14 is in compressive state, when need repairing unloading MT optical fiber component 1 time, as long as deformable member 13 lower end first hook 16 exit cell body 21 after, MT optical fiber component 1 can exit module under spring force automatically.During design, advantageous version part 13 lower end inside surface is provided with a deep-slotted chip breaker, and spring 14 upper end is positioned at deep-slotted chip breaker.

As shown in Figure 1, whether having been moved in cell body 21 for the ease of observing the first hook 16, cell body 21 can be disposed through in whole module.

As depicted in figs. 1 and 2, be also provided with MT optical fiber component 1 in the upper end of deformable member 13 and clamp when putting in place, limit the second hook 12 that it continues motion.The clamping of the clamping device such as tweezers when the second hook 12 herein can also be convenient to dismantle.

As shown in Figure 1, Figure 2, shown in Fig. 4 and Fig. 5, in one embodiment of the invention, the module rear installing plate 2 that can comprise front mounting plate 3 and be connected as one by web member 4 and front mounting plate 3; Cell body 21 is arranged on rear installing plate 2.

Preferred web member 4 is screw, and after being separated front mounting plate 3 and rear installing plate 2, screw can partly rest on front mounting plate 3, avoids the problem that dismounting rear connectors 4 is easily lost.

In sum, this loading and unloading type integrated morphology can make the repeated multiple times quick unloading in the module of MT optical fiber component, and MT optical fiber component 1 not easy damaged, meet Fast Installation and the unloading requirement of connector MT optical fiber component 1 in maintenance process; Thus make to change, maintenance cost significantly reduces.

Although describe in detail the specific embodiment of the present invention by reference to the accompanying drawings, should not be construed as the restriction of the protection domain to this patent.In the scope described by claims, the various amendment that those skilled in the art can make without creative work and distortion still belong to the protection domain of this patent.

Claims (7)

1. a MT optical fiber component loading and unloading type integrated morphology, comprises module and is arranged on the MT optical fiber component in the mounting groove of described module; It is characterized in that: in the middle part of described mounting groove, be provided with the cell body that a diameter is greater than described mounting groove diameter; Described MT optical fiber component comprises the deformable member be arranged on optical fiber and the mounting head being installed on optical fiber end; The lower end of described deformable member is provided with to coordinate with described cell body and described MT optical fiber component is fixed on first in described mounting groove links up with.

2. MT optical fiber component loading and unloading type integrated morphology according to claim 1, is characterized in that: the optical fiber between described deformable member and mounting head is set with spring.

3. MT optical fiber component loading and unloading type integrated morphology according to claim 2, is characterized in that: described deformable member lower end inside surface is provided with a deep-slotted chip breaker, and described spring upper end is positioned at deep-slotted chip breaker.

4. MT optical fiber component loading and unloading type integrated morphology according to claim 1 and 2, is characterized in that: described cell body is through described module.

5. MT optical fiber component loading and unloading type integrated morphology according to claim 1 and 2, is characterized in that: the upper end of described deformable member is also provided with MT optical fiber component and clamps when putting in place, limits the second hook that it continues motion.

6. MT optical fiber component loading and unloading type integrated morphology according to claim 4, is characterized in that: the rear installing plate that described module is comprised front mounting plate and connected as one by web member and front mounting plate; Described cell body is arranged in the rear on installing plate.

7. MT optical fiber component loading and unloading type integrated morphology according to claim 6, is characterized in that: described web member is screw.