CN209560164U - XFP optical module with anti-collision structure - Google Patents

Abstract

The utility model belongs to XFP optical module field, especially with the XFP optical module of anti-collision structure, for there is the crashworthiness of XFP optical module poor, it is easily damaged after being hit, the problem of product quality poor problem, now propose following scheme, it includes pedestal and optical mode block main body, optical mode block main body is mounted on the surface of pedestal, cabinet is welded on the roof of pedestal, multiple lift spans are equidistantly offered on the roof of cabinet, it is lifting column that movable sleeve, which is connected to vertically disposed, in lift span, movable sleeve is connected to horizontally disposed lifter plate on the inner sidewall of cabinet, the bottom wall of lifter plate and the inner bottom wall of cabinet are equidistantly connected with multiple springs, the bottom end of lifting column extends to the inside of cabinet and is welded on the roof of lifter plate, the top of lifting column extends to the top of cabinet and is bonded on the bottom wall of optical mode block main body, this reality It is functional with Novel crashproof, it is not easy to damage because of shock, product quality is higher.

Description

XFP optical module with anti-collision structure

Technical field

The utility model relates to XFP optical module technical fields, more particularly to the XFP optical module with anti-collision structure.

Background technique

Optical module is made of opto-electronic device, functional circuit and optical interface etc., and the effect of optical module is photoelectric conversion, is sent End converts electrical signals into optical signal, and after being transmitted by optical fiber, optical signal is converted into electric signal again by receiving end.XFP optical module Inevitably will receive shock during use, the crashworthiness of existing XFP optical module is poor, it is easily damaged after being hit, Product quality is poor, thus it is proposed that a kind of XFP optical module with anti-collision structure.

Utility model content

The utility model proposes the XFP optical module with anti-collision structure, solve the crashworthiness of existing XFP optical module It is poor, it is easily damaged after being hit, the poor problem of product quality.

To achieve the goals above, the utility model adopts the technical scheme that

XFP optical module with anti-collision structure, including pedestal and optical mode block main body, the optical mode block main body are mounted on described The surface of pedestal is welded with cabinet on the roof of the pedestal, equidistantly offers multiple lift spans on the roof of the cabinet, It is lifting column that movable sleeve, which is connected to vertically disposed, in lift span, and movable sleeve is connected to horizontally disposed liter on the inner sidewall of the cabinet Plate drops, and the bottom wall of the lifter plate and the inner bottom wall of the cabinet are equidistantly connected with multiple springs, and the bottom end of the lifting column is prolonged It extends to the inside of cabinet and is welded on the roof of the lifter plate, the top of the lifting column extends to the top of cabinet and glues It connecing on the bottom wall of optical mode block main body, the pedestal, which is located on the roof of cabinet two sides, is hinged with the connecting rod being obliquely installed, Horizontally disposed first buffer board is bonded on the roof of the optical mode block main body, first buffer board is located at optical mode block main body Vertically disposed second buffer board is slidably connected on the bottom wall of two sides, it is slow that the top of the connecting rod is hinged on described second Punching is on the side wall of optical mode block main body.

Preferably, it is bonded with horizontally disposed first rubber slab on the roof of first buffer board, two described second Vertically disposed second rubber slab is bonded on the side wall that buffer board is located remotely from each other.

Preferably, the bottom wall quadrangle of the pedestal is bonded with sucker.

Preferably, two sliding slots being symmetrical set are offered on the bottom wall of first buffer board, sliding is set in sliding slot It is equipped with sliding block, second buffer board is welded on the bottom end of sliding block.

Preferably, optical interface is provided on the front end face of the optical mode block main body.

In the utility model, pass through cabinet, spring, lifter plate, lifting column, connecting rod, the first buffer board, the second buffer board With the mating reaction of sucker, the impact force that XFP optical module is subject to can effectively be buffered, thus prevent XFP optical module because It hits and damages, promote the product quality of XFP optical module.

The utility model crashworthiness is good, is not easy to damage because of shock, product quality is higher.

Detailed description of the invention

Fig. 1 be the utility model proposes the XFP optical module with anti-collision structure structural schematic diagram.

Fig. 2 be the utility model proposes the XFP optical module with anti-collision structure part A partial enlarged view.

Figure label: 1 pedestal, 2 suckers, 3 cabinets, 4 lifter plates, 5 connecting rods, 6 first buffer boards, 7 optical mode block main bodies, 8 First rubber slab, 9 second buffer boards, 10 second rubber slabs, 11 springs, 12 lifting columns.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-2, with the XFP optical module of anti-collision structure, including pedestal 1 and optical mode block main body 7, optical mode block main body 7 It is mounted on the surface of pedestal 1, cabinet 3 is welded on the roof of pedestal 1, equidistantly offers multiple liftings on the roof of cabinet 3 Hole, it is lifting column 12 that movable sleeve, which is connected to vertically disposed, in lift span, and movable sleeve is connected to horizontally disposed on the inner sidewall of cabinet 3 Lifter plate 4, the bottom wall of lifter plate 4 and the inner bottom wall of cabinet 3 are equidistantly connected with multiple springs 11, and the bottom end of lifting column 12 extends to It the inside of cabinet 3 and is welded on the roof of lifter plate 4, the top of lifting column 12 extends to the top of cabinet 3 and is bonded in light On the bottom wall of module bodies 7, pedestal 1, which is located on the roof of 3 two sides of cabinet, is hinged with the connecting rod 5 being obliquely installed, optical module Horizontally disposed first buffer board 6 is bonded on the roof of main body 7, the first buffer board 6 is located at the bottom wall of 7 two sides of optical mode block main body On slidably connect vertically disposed second buffer board 9, the top of connecting rod 5 is hinged on the second buffer board 9 close to optical module On the side wall of main body 7.

Horizontally disposed first rubber slab 8 is bonded on the roof of first buffer board 6, two the second buffer boards 9 are mutually remote From side wall on be bonded with vertically disposed second rubber slab 10, the bottom wall quadrangle of pedestal 1 is bonded with sucker 2, and first is slow Two sliding slots being symmetrical set are offered on the bottom wall of punching 6, sliding is provided with sliding block, the welding of the second buffer board 9 in sliding slot Optical interface is provided on the bottom end of sliding block, the front end face of optical mode block main body 7.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on the orientation or positional relationship shown in the drawings, be only for Convenient for description the utility model and simplify description, rather than the equipment of indication or suggestion meaning or element must have specifically Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

Embodiment: adsorbing desktop by sucker 2, can be fixed on the table by pedestal 1, when optical mode block main body 7 will be by To when shock from upper, by the first rubber slab 8 and the first buffer board 6 receive first on come impact force, avoid Optical mode block main body 7 directly by the impact force from upper, by first rubber slab 8 can on come impact force carry out Preliminary buffering, when by it is upper come impact force be transferred to optical mode block main body 7 when, drive 12 He of lifting column of optical mode block main body 7 can be made Lifter plate 4 declines, and spring 11 can be made to compress, and is acted on by the elastic potential energy of spring 11, and spring 11 can be made constantly flexible and fast Fast return, to make lifter plate 4, lifting column 12 and optical mode block main body 7 constantly lifting and rapid return, thus to optical mode block main body 7 impact force from upper is effectively buffered, and when optical mode block main body 7 will be by shock from side, is passed through Second rubber slab 10 and the second buffer board 9 receive the impact force from side first, avoid optical mode block main body 7 directly by Impact force from side, by the second rubber slab 10 can to by side come impact force tentatively buffered, when by side Face and the impact force come can make the second buffer board 10 close to optical mode block main body 7, can make to connect when being transferred to optical mode block main body 7 The top of bar 5 can make the second buffer board 10 drive the first buffer board 6, optical mode block main body 7, lifting column close to optical mode block main body 7 12 and lifter plate 4 rise, spring 11 can be made to stretch, acted on by the elastic potential energy of spring 11, spring 11 can be made constantly flexible And rapid return, the first buffer board 6, optical mode block main body 7, lifting column 12 and lifter plate 4 constantly lifting and rapid return can be made, To make the top of connecting rod 5 drive the continuous horizontal displacement of the second buffer board 9 and return, thus to optical mode block main body 7 by side And come impact force effectively buffered, the utility model crashworthiness is good, be not easy to damage because of shock, product quality compared with It is high.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (5)

1. the XFP optical module with anti-collision structure, including pedestal (1) and optical mode block main body (7), which is characterized in that the optical mode Block main body (7) is mounted on the surface of the pedestal (1), is welded with cabinet (3), the cabinet on the roof of the pedestal (1) (3) multiple lift spans are equidistantly offered on roof, it is lifting column (12) that movable sleeve, which is connected to vertically disposed, in lift span, described Movable sleeve is connected to horizontally disposed lifter plate (4) on the inner sidewall of cabinet (3), the bottom wall and the cabinet of the lifter plate (4) (3) inner bottom wall is equidistantly connected with multiple springs (11), and the bottom end of the lifting column (12) extends to inside and the weldering of cabinet (3) It connects on the roof of the lifter plate (4), the top of the lifting column (12) extends to the top of cabinet (3) and is bonded in optical mode On the bottom wall of block main body (7), the pedestal (1), which is located on the roof of cabinet (3) two sides, is hinged with the connecting rod being obliquely installed (5), horizontally disposed first buffer board (6), first buffer board (6) are bonded on the roof of the optical mode block main body (7) Vertically disposed second buffer board (9), the connecting rod are slidably connected on the bottom wall of optical mode block main body (7) two sides (5) top is hinged on second buffer board (9) on the side wall of optical mode block main body (7).

2. the XFP optical module according to claim 1 with anti-collision structure, which is characterized in that first buffer board (6) Roof on be bonded with horizontally disposed first rubber slab (8), on the side wall that two second buffer boards (9) are located remotely from each other It is bonded with vertically disposed second rubber slab (10).

3. the XFP optical module according to claim 1 with anti-collision structure, which is characterized in that the bottom wall of the pedestal (1) Quadrangle is bonded with sucker (2).

4. the XFP optical module according to claim 1 with anti-collision structure, which is characterized in that first buffer board (6) Bottom wall on offer two sliding slots being symmetrical set, sliding is provided with sliding block, the second buffer board (9) welding in sliding slot In the bottom end of sliding block.

5. the XFP optical module according to claim 1 with anti-collision structure, which is characterized in that the optical mode block main body (7) Front end face on be provided with optical interface.