CN212597211U - Automatic detection device for optical fiber end face - Google Patents

Abstract

The utility model provides an automatic checkout device of optic fibre terminal surface, includes belt transmission A, belt transmission A's transmission line's left end is equipped with left rail brackets, and the right-hand member is equipped with right rail brackets, be equipped with the guide rail on left side rail brackets and the right rail brackets, be equipped with the sleeve pipe on the spout of guide rail, be equipped with the fixture block on the right rail brackets, belt transmission A side is equipped with the detection device support, be equipped with detection device on the detection device support, one side of belt transmission A is equipped with the mounting panel, be equipped with the telescopic link on the mounting panel terminal surface, the flexible end of telescopic link is equipped with the push pedal, belt transmission A's opposite side is equipped with belt transmission B. The utility model has the characteristics of reduce the labour cost, improve work efficiency.

Description

Automatic detection device for optical fiber end face

Technical Field

The utility model relates to an optical fiber detection technical field especially relates to an automatic checkout device of fiber end face.

Background

The optical fiber connector is the most used passive optical device in the optical fiber communication system, and most of the optical fiber connectors are composed of three parts: two fiber splices and a coupler. Two optical fiber connectors are arranged at the tail ends of the two optical fibers; the coupler acts as an alignment sleeve. In addition, the coupler is provided with metal or nonmetal flanges, so that the connector is convenient to install and fix, the ceramic ferrule of the optical fiber adapter has high requirements on smoothness during production, the components are small in size, large in quantity and high in requirements, the optical fiber end face is required to be operated and detected one by using instruments by workers in the detection process, more labor cost is required to be consumed, and the overall efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned problem that exists among the prior art, the utility model provides an automatic checkout device of fiber end face has the characteristics of simplified operation process, reduces labour's cost, improves work efficiency.

In order to achieve the above object, the utility model provides a following technical scheme:

an automatic detection device for an optical fiber end face comprises a belt transmission device A, wherein a left guide rail support is arranged at the left end of a transmission line of the belt transmission device A, a right guide rail support is arranged at the right end of the transmission line of the belt transmission device A, guide rails are arranged on the left guide rail support and the right guide rail support, a sleeve is arranged on a chute of the guide rails, the sleeve is vertically placed on the chute of the guide rails, a fixture block is arranged on the right guide rail support, the sleeve and the fixture block are positioned on the same straight line on the horizontal position, the top of the sleeve is flush with the bottom of the fixture block, the direction of the guide rails is consistent with the direction of the transmission line of the belt transmission device A and is positioned right above the belt transmission device A, a detection device support is arranged on the side face of the belt transmission device A, the detection device support is positioned between, detection device aims at the sleeve pipe on the guide rail, detection device's minimum is higher than the sleeve pipe, one side of belt drive A is equipped with the mounting panel, the mounting panel sets up between detection device support and right guide rail support, be equipped with the telescopic link on the mounting panel terminal surface, the telescopic link level sets up and is perpendicular with belt drive A's transmission route, the flexible end of telescopic link is equipped with the push pedal, the bottom surface of push pedal flushes with belt drive A's surface, belt drive A's opposite side is equipped with belt drive B, belt drive B level sets up, belt drive B's transmission route is perpendicular just to the push pedal with belt drive A's transmission route, belt drive B's input is close to belt drive A.

The utility model discloses in: the internal diameter of sleeve pipe first half is greater than the internal diameter of the latter half, be equipped with the notch on the sleeve pipe, the notch runs through sheathed tube lateral wall, the direction and the length of notch are unanimous with sheathed tube direction and length, the width of the first half of notch is greater than fiber connector's width, highly is less than fiber connector's height, the latter half of notch is greater than fiber width and is less than fiber connector's width.

The utility model discloses in: the distance between the detection device and the sleeve in the vertical direction is 3 cm-5 cm.

The utility model discloses in: the motor, the detection device and the telescopic rod are electrically connected with the controller.

The utility model discloses in: the belt transmission device A, the left guide rail support, the right guide rail support, the detection device support, the belt transmission device B and the controller are arranged on the base.

The utility model discloses in: the output end of the belt transmission device A is provided with a collecting box A, and the output end of the belt transmission device B is provided with a collecting box B.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model provides a waste steam recovery device of an oxygen discharging door of a deaerator, which is characterized in that a waste gas collector is arranged on a steam discharging branch pipe of a high-pressure deaerator to perform relevant treatment on harmful gas so as to achieve the purpose of protecting the environment; the heat is transported to the heat exchanger with low heat loss by adopting a method that the heat preservation box is arranged outside the part, between the heat exchanger and the high-pressure deaerator, of the high-pressure deaerator exhaust pipe and the first demineralized water inlet pipe, and the length of the pipeline in the heat preservation box is increased by arranging the pipeline in the heat preservation box into a reciprocating bending shape, so that the aims of higher heat utilization rate and energy conservation compared with the prior art are fulfilled.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of A;

FIG. 3 is a physical view of the sleeve structure shown in FIG. 1;

FIG. 4 is a schematic view of the mating of the ferrule and the fiber optic connector;

in the figure: 1-a base; 2-belt drive unit A; 3-left guide rail bracket; 4-right guide rail bracket; 5, a guide rail; 6-detection device support; 7-a detection device; 8, mounting a plate; 9, a telescopic rod; 10, a push plate; 11-belt drive B; 12-a controller; 13-collection box a; 14-collection box B; 31-a fixture block; 51-a sleeve; 52-notches.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It should be noted that when an element is referred to as being "disposed," it can be directly on another element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element using some sort of connection or intervening elements may also be present. As used herein, the terms "one side," "the other side," "the left end," "the right end," and the like are for illustrative purposes only and do not represent a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Fig. 1-4 are schematic views of a preferred embodiment of the present invention.

An automatic detection device for optical fiber end faces comprises a belt transmission device A2, wherein a left end of a transmission route of a belt transmission device A2 is provided with a left guide rail bracket 3, a right end of the transmission route is provided with a right guide rail bracket 4, a guide rail 5 is arranged on the left guide rail bracket 3 and the right guide rail bracket 4, a sleeve 51 is arranged on a sliding groove of the guide rail 5, the sleeve 51 is vertically placed on the sliding groove of the guide rail 5, a clamping block 31 is arranged on the right guide rail bracket 4, the sleeve 51 and the clamping block 31 are positioned on the same straight line on the horizontal position, the top of the sleeve 51 is flush with the bottom of the clamping block 31, the direction of the guide rail 5 is consistent with the direction of the transmission route of a2 and is positioned right above the belt transmission device A2, a detection device support 6 is arranged on the side surface of the belt transmission device A2, the detection device support 6 is positioned between the left, the detection device bracket 6 is provided with a detection device 7, the detection device 7 is aligned with the sleeve 51 on the guide rail 5, the lowest position of the detection device 7 is higher than the sleeve 51, one side of the belt transmission device A is provided with a mounting plate 8, the mounting plate 8 is arranged between the detection device bracket 6 and the right guide rail bracket 4, the end surface of the mounting plate 8 is provided with a telescopic rod 9, the telescopic rod 9 is horizontally arranged and is vertical to the transmission line of the belt transmission device A2, the telescopic end of the telescopic rod 9 is provided with a push plate 10, the bottom surface of the push plate 10 is flush with the surface of a belt transmission device A2, the other side of the belt transmission device A2 is provided with a belt transmission device B11, the belt drive device B11 is horizontally arranged, the transmission route of the belt drive device B11 is perpendicular to the transmission route of the belt drive device A2 and is opposite to the push plate 10, and the input end of the belt drive device B11 is close to the belt drive device A2.

In this embodiment: the internal diameter of the upper half of the sleeve 51 is greater than that of the lower half, the sleeve 51 is provided with a notch 52, the notch 52 penetrates through the side wall of the sleeve 51, the direction and the length of the notch 52 are consistent with those of the sleeve 51, the width of the upper half of the notch 52 is greater than that of the optical fiber connector, the height of the notch is less than that of the optical fiber connector, and the lower half of the notch 52 is greater than that of the optical fiber and less than that of the optical fiber connector.

In this embodiment: the distance between the detection device 7 and the sleeve 51 in the vertical direction is 3 cm-5 cm.

In this embodiment: the motor 14, the detection device 7 and the telescopic rod 9 are electrically connected with a controller 15.

In this embodiment: the belt transmission device A2, the left guide rail bracket 3, the right guide rail bracket 4, the detection device bracket 6, the belt transmission device B11 and the controller 15 are arranged on the base 1.

In this embodiment: the output end of the belt transmission device A2 is provided with a collection box A16, and the output end of the belt transmission device B is provided with a collection box B17.

In the normal production process, an operator puts the optical fiber connector in the sleeve 51 through the notch 52 on the sleeve 51 as shown in fig. 4, then puts the sleeve 51 on the guide rail 5, and faces the notch of the sleeve 51 away from the block 31, the lower half part of the optical fiber is coiled on the belt transmission device a2, the belt transmission device a2 drives the optical fiber to pass through the guide rail bracket 4 after the detection of the detection device 7, because the top of the optical fiber connector is higher than the top of the sleeve 51, the top of the sleeve 51 is flush with the bottom of the block 31, when the optical fiber connector contacts the block 31, the optical fiber connector falls from the notch 52 onto the belt transmission device a2, if the detection is qualified, the optical fiber falls into the collection box a, if the detection is unqualified, the controller 12 controls the telescopic rod 9 to extend, and drives the push plate 10 to push the unqualified product before moving to the push plate 10 to the belt, fall into the collection box B.

The above examples merely represent a practical way of implementing the present invention, which is described in more detail and in greater detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. The utility model provides an automatic checkout device of optic fibre terminal surface, includes belt drive A (2), its characterized in that: the left end of the transmission line of the belt transmission device A (2) is provided with a left guide rail bracket (3), the right end of the transmission line is provided with a right guide rail bracket (4), the left guide rail bracket (3) and the right guide rail bracket (4) are provided with guide rails (5), a sliding groove of the guide rails (5) is provided with a sleeve (51), the right guide rail bracket (4) is provided with a fixture block (31), the sleeve (51) and the fixture block (31) are positioned on the same straight line on the horizontal position, the side surface of the belt transmission device A (2) is provided with a detection device bracket (6), the detection device bracket (6) is positioned between the left guide rail bracket (3) and the right guide rail bracket (4), the detection device (7) is arranged on the detection device bracket (6), the detection device (7) is aligned to the sleeve (51) on the guide rails (5), one side of the belt transmission device A, mounting panel (8) set up between detection device support (6) and right guide rail bracket (4), be equipped with telescopic link (9) on mounting panel (8) terminal surface, telescopic link (9) level sets up, the flexible end of telescopic link (9) is equipped with push pedal (10), the opposite side of belt drive A (2) is equipped with belt drive B (11), the input of belt drive B (11) just is near belt drive A (2) to push pedal (10).

2. An apparatus for automatically inspecting an end face of an optical fiber according to claim 1, wherein: the sleeve pipe (51) has a plurality of, the internal diameter of sleeve pipe (51) upper half is greater than the internal diameter of the lower half, be equipped with notch (52) on the sleeve pipe (51), notch (52) run through the lateral wall of sleeve pipe (51) and the last bottom surface and the lower bottom surface of sleeve pipe (51).

3. An apparatus for automatically inspecting an end face of an optical fiber according to claim 1 or 2, wherein: the distance between the detection device (7) and the sleeve (51) in the vertical direction is 3-5 cm.

4. An apparatus for automatically inspecting an end face of an optical fiber according to claim 1, wherein: the belt transmission device A (2), the belt transmission device B (11), the detection device (7) and the telescopic rod (9) are electrically connected with the controller (12).

5. An apparatus for automatically inspecting an end face of an optical fiber according to claim 1, wherein: the belt transmission device A (2), the left guide rail support (3), the right guide rail support (4), the detection device support (6), the belt transmission device B (11) and the controller (12) are arranged on the base (1).

6. An apparatus for automatically inspecting an end face of an optical fiber according to claim 1, wherein: the output end of the belt transmission device A (2) is provided with a collecting box A (13), and the output end of the belt transmission device B is provided with a collecting box B (14).

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