CN205280978U - Optical collimator with light signal transform processing function - Google Patents

Abstract

The utility model discloses an optical collimator with light signal transform processing function, including rubber sealing ring, tail optical fiber, light signal processing mainboard, self -focusing lens, rubber sealing ring installs at the telescopic tail end of optical path transmission, and light path converting pot head dress is in the telescopic the place ahead outer end of optical path transmission, the tail optical fiber is installed the optical path transmission sleeve second half section, light signal processing mainboard connection the tail optical fiber, self -focusing lens installs in the inside cavity of light path converting end. Beneficial effect lies in: can according to the inner material of the component used with light signal conscientious transform processing in the inside transmission course of component, still lengthened life when having improved sensitivity.

Description

A kind of optical fiber collimator with converting optical signals process function

Technical field

This utility model belongs to optical signal transmission apparatus field, is specifically related to a kind of optical fiber collimator with converting optical signals process function.

Background technology

Fiber optic passive device is the important devices in optical fiber telecommunications system. This kind of device is that the certain energy consuming optical signal is to realize the functions such as the connection of optical signal, energy wave splitting/composing, wavelength-division multiplex/demultiplexing, light path converting, energy attenuation, reverse isolation. Optical passive component is the general designation with above-mentioned components and parts. Fiber optic passive device status in fiber optic communication systems is more and more higher, and the development of device is also increasing on the impact of system. And the optical fiber collimator as one of the significant components determining optical passive component performance parameter is also affected by increasing concern in recent years. When optical fiber collimator uses in optical element, in order to adapt to the material within different optical element, it is necessary to changed by signal, to strengthen sensitivity and extension device service life of equipment, but general collimator does not also reach this requirement.

Utility model content

The purpose of this utility model is that provides a kind of optical fiber collimator with converting optical signals process function to solve the problems referred to above.

This utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of optical fiber collimator with converting optical signals process function, including rubber seal ring, tail optical fiber, optical signal prosessing mainboard, GRIN Lens, described rubber seal ring is arranged on the tail end of optic path sleeve, light path converting end is sleeved on the outer end, front of described optic path sleeve, described tail optical fiber is arranged on the described optic path sleeve second half section, described optical signal prosessing mainboard connects described tail optical fiber, and described GRIN Lens is arranged in described light path converting end internal cavity.

In said structure, extraneous optical fiber is passed into described optic path sleeve from described rubber seal ring, and signal, after described optical signal prosessing mainboard carries out conversion process, enters described tail optical fiber, finally enter described light path converting end, carry out spreading out of after break-in through described GRIN Lens.

In order to improve the result of use of application optical element further, the compression of described rubber seal ring is embedded in inside the tail end of described optic path sleeve, and described light path converting end and described optic path sleeve are engaged each other by screw thread.

In order to improve the result of use of application optical element further, described tail optical fiber is fixed on proper alignment in the restraint device of described optic path sleeve inner, and described optical signal prosessing mainboard is connected by holding wire with described tail optical fiber.

In order to improve the result of use of application optical element further, described GRIN Lens coordinates installation by outside picture frame with the inner chamber of described light path converting end.

Have the beneficial effects that: according to the internal material of the element applied by optical signal conscientious conversion process in the transmitting procedure of element internal, while improve sensitivity, can also extend service life.

Accompanying drawing explanation

Fig. 1 is the front view of a kind of optical fiber collimator with converting optical signals process function described in the utility model;

Fig. 2 is the interior views of a kind of optical fiber collimator with converting optical signals process function described in the utility model.

1, rubber seal ring; 2, optic path sleeve; 3, light path converting end; 4, tail optical fiber; 5, optical signal prosessing mainboard; 6, GRIN Lens.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As Figure 1-Figure 2, a kind of optical fiber collimator with converting optical signals process function, including rubber seal ring 1, tail optical fiber 4, optical signal prosessing mainboard 5, GRIN Lens 6, rubber seal ring 1 is arranged on the tail end of optic path sleeve 2, light path converting end 3 is sleeved on the outer end, front of optic path sleeve 2, tail optical fiber 4 is arranged on optic path sleeve 2 second half section, optical signal prosessing mainboard 5 connects tail optical fiber 4, optical signal is processed, in order to transmit optical signal, GRIN Lens 6 is arranged in light path converting end 3 internal cavity, light path is converged.

In said structure, extraneous optical fiber is passed into optic path sleeve 2 from rubber seal ring 1, and signal, after optical signal prosessing mainboard 5 carries out conversion process, enters tail optical fiber 4, finally enters light path converting end 3, spread out of after GRIN Lens 6 carries out break-in.

In order to improve the result of use of application optical element further, rubber seal ring 1 compression is embedded in inside the tail end of optic path sleeve 2, light path converting end 3 and optic path sleeve 2 are engaged each other by screw thread, tail optical fiber 4 is fixed in the restraint device within optic path sleeve 2 proper alignment, optical signal prosessing mainboard 5 is connected by holding wire with tail optical fiber 4, and GRIN Lens 6 coordinates installation by outside picture frame with the inner chamber of light path converting end 3.

Of the present utility model ultimate principle, principal character and advantage have more than been shown and described. Skilled person will appreciate that of the industry; this utility model is not restricted to the described embodiments; described in above-described embodiment and description is that principle of the present utility model is described; under the premise without departing from this utility model spirit and scope; this utility model also has various changes and modifications, and these changes and improvements both fall within the scope of claimed this utility model. This utility model claims scope and is defined by appending claims and effect thing thereof.

Claims (4)

1. an optical fiber collimator with converting optical signals process function, it is characterized in that: include rubber seal ring, tail optical fiber, optical signal prosessing mainboard, GRIN Lens, described rubber seal ring is arranged on the tail end of optic path sleeve, light path converting end is sleeved on the outer end, front of described optic path sleeve, described tail optical fiber is arranged on the described optic path sleeve second half section, described optical signal prosessing mainboard connects described tail optical fiber, and described GRIN Lens is arranged in described light path converting end internal cavity.

2. a kind of optical fiber collimator with converting optical signals process function according to claim 1, it is characterized in that: the compression of described rubber seal ring is embedded in inside the tail end of described optic path sleeve, and described light path converting end and described optic path sleeve are engaged each other by screw thread.

3. a kind of optical fiber collimator with converting optical signals process function according to claim 1, it is characterized in that: described tail optical fiber is fixed on proper alignment in the restraint device of described optic path sleeve inner, and described optical signal prosessing mainboard is connected by holding wire with described tail optical fiber.

4. a kind of optical fiber collimator with converting optical signals process function according to claim 1, it is characterised in that: described GRIN Lens coordinates installation by outside picture frame with the inner chamber of described light path converting end.