CN204925449U - Low -cost optical collimator - Google Patents

Abstract

The utility model provides an optical collimator, optical fiber head, lens have and be located the optical fiber head and lens between focus the standard component, the medial surface of optical fiber head is the plane and becomes a contained angle with the main shaft, the medial surface of lens is the plane and becomes a contained angle with the main shaft, and this contained angle equals with the first side end face of aforesaid optical fiber head contained angle, focus the second side end face of standard component and the medial surface of this optical fiber head and hug closely, should focus the first side end face of standard component and the medial surface of these lens and hug closely, the second side end face that should focus the standard component is just parallel for the plane with first side end face to the thickness of both ends interfacial equals the intercept of lens, the light path that should focus the standard component through the part be by with optical fiber head, lens in at least one the same printing opacity material make.

Description

A kind of optical fiber collimator of low cost

Technical field

The utility model relates to fiber optic communication field, is specifically related to making and the design of fiber plant; More particularly, the utility model relates to a kind of optical fiber collimator and manufacture method thereof of low cost.

Background technology

Existing optical fiber collimator, remains with clearance between lens and optical fiber head, and for making fiber end face drop in lens focus, during assembling, the thickness in each gap needs adjustment, compares and takes a lot of work.

Particularly, Fig. 1 to Fig. 3 schematically shows the optical fiber collimator assemble method according to prior art.As shown in Figure 1 to Figure 3, according in the optical fiber collimator assemble method of prior art, first prepare lens 1 and be attached sleeve pipe 5 (as shown in Figure 1) in lens 1 external stability; Subsequently, the optical fiber head 3 sidewall being coated with ultraviolet glue 4 loads the openend (as shown in Figure 2) of sleeve pipe 5; Now, due to the reason of the manufacturing tolerance of lens 1, the Center Length of lens 1 (sphere centre of such as spherical lens to the length of relative planar central, or the length between the center of two of gradient lens opposite planar) is distinct for each lens produced; Now, as indicated by the arrows in fig. 3, need to input alignment light to optical fiber head 3, and checked from the only no collimation of lens 1 outgoing by instrument or human eye while regulating the distance D0 between lens 1 and optical fiber head 3 (namely to be moved back in sleeve pipe 5 by optical fiber head 3 relative to lens 1 or draw) outward and determine the location of optical fiber head 3 in sleeve pipe 5.Specifically, when from the optical alignment of lens 1 outgoing, can determine that the optical fiber head 3 under this state is in appropriate location; Now, by ultraviolet glue 4 irradiating ultraviolet light, optical fiber head 3 is pasted by ultraviolet glue 4 and is fixed to sleeve pipe 5.

In the prior art, be the adjustment location of optical fiber head 3 in sleeve pipe 5, generally need employing five to tie up regulating device, must disposable adjustment XYZ tri-axle and up and down, inclination angle five, two, left and right ties up and puts in place.

Can find out, optical fiber collimator assemble method according to prior art not only needs the utility appliance such as external source light source, and the mode needing by manual calibration, under the checkout facility of such as microscope and so on, by the size of the clearance between operating personnel's manual adjustments lens and optical fiber head, so that optical fiber head can be aimed at mutually with lens, thus the light that external source light source is sent becomes parallel light emergence after lens.

In order to solve the packaging efficiency that prior art exists not high, need extra utility appliance and produce the variety of problems of alignment error owing to needing artificial adjustment, utility model people, in the Chinese patent application of the numbering 201410356622.8 of on 07 24th, 2014, discloses the high and optical fiber collimator assemble method that Adjustment precision is high of packaging efficiency after a kind of improvement and corresponding optical fiber collimator structure.

According to the content of above-mentioned patented claim, propose: first, prepare the second side end face be plane with the first side end face and parallel and thickness equal lens intercept focus standard component.Subsequently, by lens, focus standard component and optical fiber head is close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, by lens, focuses standard component and to be connected with optical fiber head and to fix.Preferably, the first side focusing standard component is fixed to the connecting end surface of lens by the first printing opacity glue, and the second side focusing standard component is fixed to optical fiber head by the second printing opacity glue.

Optical fiber collimator assemble method after above-mentioned improvement simplifies operation, decrease employing five simultaneously ties up the production cost that regulating device causes as additional aids.But have also been introduced new problem simultaneously, that is, owing to needing to consider to focus standard component and the first printing opacity glue, the second printing opacity glue causes the interface light reflection that increases, in order to ensure the light percent of pass of optical fiber collimator, the refractive index of each light path element need be mated, make raw-material choosing become difficulty.Meanwhile, the expense of the aspect such as storage, Operational preparation flow process is also brought to increase.

Utility model content

Technical problem to be solved in the utility model is the problem such as cost of raw material rising existed for above-mentioned background technology, a kind of optical fiber collimator and manufacture method thereof of low cost are provided, the light percent of pass of optical fiber collimator can be ensured, keep packaging efficiency high and the advantage that Adjustment precision is high simultaneously.

In order to realize above-mentioned technical purpose, according to first aspect of the present utility model, provide a kind of optical fiber collimator, it comprises: optical fiber head, lens and focus standard component; Wherein, the inner side end of optical fiber head is plane and has angle with main shaft; The inner side end of lens is plane and has angle with main shaft, and this angle is equal with aforesaid optical fiber head first side end face angle; The second side end face focusing standard component is plane with the first side end face and parallel, and the thickness between both ends of the surface equals the intercept of lens, the inner side end of this second side end face and this optical fiber head of focusing standard component is close to, and the inner side end of this first side end face and these lens of focusing standard component is close to; This light path focusing standard component is make by with at least one the identical light transmissive material in optical fiber head, lens by part.

According to second aspect of the present utility model, provide a kind of optical fiber collimator, it comprises: optical fiber head, lens, focus standard component and the first printing opacity glue, the second printing opacity glue; Wherein, the inner side end of optical fiber head is plane and has angle with main shaft; The inner side end of lens is plane and has angle with main shaft, and this angle is equal with aforesaid optical fiber head first side end face angle; The second side end face focusing standard component is plane with the first side end face and parallel, and the thickness between both ends of the surface equals the intercept of lens, the inner side end of this second side end face and this optical fiber head of focusing standard component is close to, and the inner side end of this first side end face and these lens of focusing standard component is close to; This first printing opacity glue is filled uniformly and is focused between the first side end face of standard component and the inner side end of these lens described in being solidificated in; This second printing opacity glue is filled uniformly and is focused between the second side end face of standard component and the inner side end of this optical fiber head described in being solidificated in; This light path focusing standard component is make by with at least one the identical light transmissive material in optical fiber head, lens by part.

Preferably, the refractive index of this first printing opacity glue equals the refractive index of these lens.

Preferably, the refractive index of this second printing opacity glue equals the refractive index of this optical fiber head.

According to the third aspect of the present utility model, provide a kind of optical fiber collimator, it comprises: optical fiber head, lens, focus standard component and printing opacity glue; Wherein, the inner side end of optical fiber head is plane and has angle with main shaft; The inner side end of lens is plane and has angle with main shaft, and this angle is equal with aforesaid optical fiber head first side end face angle; The second side end face focusing standard component is plane with the first side end face and parallel, and the thickness between both ends of the surface equals the intercept of lens, the inner side end of this second side end face and this optical fiber head of focusing standard component is close to, and the inner side end of this first side end face and these lens of focusing standard component is close to; This printing opacity glue fill uniformly and to focus described in being solidificated between the first side end face of standard component and the inner side end of these lens, described in focus between the second side end face of standard component and the inner side end of this optical fiber head; This light path focusing standard component is make by with at least one the identical light transmissive material in optical fiber head, lens by part.

Preferably, the refractive index of this printing opacity glue is more than or equal to the refractive index of optical fiber head and is less than or equal to the refractive index of lens.

Preferably, the refractive index of this printing opacity glue equals the refractive index focusing standard component.

Preferably, this focuses standard component is be made up of the light transmissive material identical with optical fiber head, and the refractive index of this printing opacity glue equals the refractive index of these lens.

Preferably, this focuses standard component is be made up of the light transmissive material identical with lens, and the refractive index of this printing opacity glue equals the refractive index of this optical fiber head.

According to fourth aspect of the present utility model, provide a kind of manufacture method of optical fiber collimator, comprise step: manufacture inner side end and be plane and the optical fiber head had angle with main shaft; Manufacture inner side end and be plane and the lens becoming one and aforesaid optical fiber head angle equal angles with main shaft; With with at least one the identical light transmissive material in optical fiber head, lens manufacture the second side end face be plane with the first side end face and parallel and thickness equal lens intercept focus standard component; By lens, focus standard component and optical fiber head is close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, by lens, focuses standard component and to be connected with optical fiber head and to fix.

Preferably, also comprise step: before preparation focuses standard component, with the intercept of optical method for measuring lens to be assembled.

Preferably, also comprise step: bonding and fixing lens, focus standard component and optical fiber head sidewall outside, internal diameter is equaled lens, to focus the sleeve of maximum outside diameter in standard component and optical fiber head bonding and fixing.

Preferably, also step is comprised: with glue, lens, the sidewall that focuses in standard component and optical fiber head one are first solidified this glue with internal surface of sleeve pipe adhesion; By lens, focus standard component and optical fiber head is close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, by lens, focuses standard component and to be connected with optical fiber head and to fix.

Preferably, this profile focusing standard component is right cylinder, oblique circular cylinder body, hexagonal prism, four prisms cylinder or tri-prismoid.

Preferably, the angle of this side end face and main shaft equals 90 degree, 86 degree, 84 degree, 82 degree or 78 degree.

Preferably, these lens are spherical lens, gradient lens or non-spherical lens.

Preferably, also step is comprised: at least one plated film on the surface in the inner side end focusing the first side end face of standard component, the second side end face, the inner side end of optical fiber head, lens.

Preferably, the refractive index of this first printing opacity glue equals the refractive index of these lens.Preferably, the refractive index of this second printing opacity glue equals the refractive index of this optical fiber head.

The utility model adopts the light transmissive material manufacture identical with at least one in optical fiber head, lens to focus standard component, alleviates the cost of the aspects such as starting material are chosen, stored in a warehouse, Operational preparation flow process.Further, same printing opacity glue is adopted to fill uniformly and between the end face focusing standard component and lens, optical fiber head described in being solidificated in.Thus, provide a kind of optical fiber collimator and manufacture method thereof of low cost, the light percent of pass of optical fiber collimator can be ensured, keep packaging efficiency high and the advantage that Adjustment precision is high simultaneously.

Accompanying drawing explanation

By reference to the accompanying drawings, and by reference to detailed description below, will more easily there is more complete understanding to the utility model and more easily understand its adjoint advantage and feature, wherein:

Fig. 1 to Fig. 3 schematically shows the optical fiber collimator assemble method according to prior art.

Fig. 4 to Fig. 6 schematically shows each step according to optical fiber collimator manufacture method of the present utility model.

Fig. 7 schematically shows the optical fiber collimator according to the utility model preferred embodiment.

It should be noted that, accompanying drawing is for illustration of the utility model, and unrestricted the utility model.Note, represent that the accompanying drawing of structure may not be draw in proportion.Further, in accompanying drawing, identical or similar element indicates identical or similar label.

Embodiment

In order to make content of the present utility model clearly with understandable, below in conjunction with specific embodiments and the drawings, content of the present utility model is described in detail.

The embodiment > of < the utility model manufacture method

Fig. 4 to Fig. 6 schematically shows each step of the optical fiber collimator assemble method according to the utility model first preferred embodiment.

First, manufacture inner side end with a kind of light transmissive material (such as quartz glass) and be plane and the optical fiber head 3 had angle with main shaft; And manufacture inner side end with the light transmissive material (such as SF11) that another kind of refractive index is higher and be plane and the lens 1 becoming one and aforesaid optical fiber head angle equal angles with main shaft.

Then, with at least one the identical light transmissive material in optical fiber head 3, lens 1 manufacture the second side end face be plane with the first side end face and parallel and thickness equal lens intercept focus standard component 2.

Subsequently, by lens, focus standard component and optical fiber head is close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, by lens, focuses standard component and to be connected with optical fiber head and to fix.

Preferably, after producing lens 1, its intercept is measured so that determine thickness when manufacture focuses standard component.

Thered is provided a kind ofly measure in the method for intercept of the present utility model, (sphere centre of the spherical lens such as, shown in Fig. 5 is to the length of relative planar central to need the Center Length D1 of the lens 1 prepared by measuring.

After this, calculate the intercept D2 made between lens 1 needed for lens 1 outgoing collimated light beam and optical fiber head 3 according to the Center Length of the lens 1 measured and the index meter of lens 1, and select thickness to equal calculated intercept D2 focus standard component 2 (as shown in Figure 6);

In a particular embodiment, intercept D2 can be calculated according to following instruction:

In peace adhesion teacher " applied optics " in book, the 42nd page-43 pages, the 74th page-75 pages illustrate the focal length computing method that spherical lens and an end face are the lens of plane.

According to the general knowledge in this area, after obtaining focal length, deduct the distance of optical center of lens to side end face, just can obtain the intercept of lens in this side.

When the refractive index that known n1 is lens 1, n2 is the refractive index focusing standard component 2, and D1 is the Center Length of lens 1, and R is the radius of lens 1 front end sphere.According to above instruction, the intercept D2 determining lens 1 can be calculated.

In the method for other provided measurement intercepts of the present utility model, also can adopt the intercept D2 of the measurement lens of the optical meanss such as known parallel light focusing method, directional light collimation method, two times of intercept methods.

Subsequently, be close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, successively by lens 1, focus standard component 2 and to be connected with optical fiber head 3 and to fix.(as shown in Figure 4).

The first glue (such as, the first ultraviolet glue 41) wherein preferably can be utilized further the first side focusing standard component 2 to be fixed to the inner face of lens 1 opposed optical fibers head 3.Equally preferably can utilize the second glue (such as, the second ultraviolet glue 42) that the second side focusing standard component 2 is fixed to optical fiber head 3 further.The fixing of various piece can be carried out by first applying the mode of carrying out UV-irradiation afterwards.

The material focusing standard component 2 can be the transparent glass identical with optical fiber head 3, also can be the light transmissive material SF11 identical with lens 1.

In an alternate embodiment, focus standard component 2 at least light path by part be make by with at least one the identical light transmissive material in optical fiber head, lens.

Now, when calculating intercept D2, the refractive index of light transmissive material should be suitable for, obtain the intercept in light transmissive material.

Optionally, the both sides focusing standard component 2 can not gluing, focuses standard component 2 and is directly fixed by being clipped between lens 1 and optical fiber head 3.

In an alternative embodiment, lens 1 with focus surface that standard component 2 contacts and optical fiber head 3 and focus the surface that standard component 2 contacts and preferably can have film plating layer, to reduce the effect reflected, thus increase light utilization efficiency.Optionally, at least one plated film on the surface in the inner side end focusing the first side end face of standard component, the second side end face, the inner side end of optical fiber head, lens.

Therefore, according in the optical fiber collimator assemble method of the utility model first preferred embodiment, as long as measure the Center Length of lens, by calculating required gap length, choose there is the thickness corresponding with required gap length focus standard component, be directly placed between lens and optical fiber head and focus standard component, and need not again by regulating clearance manually, and directly just can make aiming at of optical fiber head and lens, thus make can send directional light from lens.In other words, the utility model utilize there is the thickness calculated focus standard component, change into the directly fixing method of grouping after survey calculation by needing the method adjusted one by one each optical fiber collimator in prior art; Thus, the high and optical fiber collimator assemble method that Adjustment precision is high of a kind of packaging efficiency and corresponding optical fiber collimator structure is provided.

Simultaneously, for the optical fiber collimator assemble method according to the utility model first preferred embodiment, operating personnel are not needed manually to regulate light, human cost can be saved thus, also peripheral hardware light source and other external ancillary equipments can be set simultaneously again, greatly can save financial cost thus.Adopt the light transmissive material manufacture identical with at least one in optical fiber head, lens to focus standard component, alleviate the cost of the aspects such as starting material are chosen, stored in a warehouse, Operational preparation flow process.Thus, provide a kind of optical fiber collimator and manufacture method thereof of low cost, the light percent of pass of optical fiber collimator can be ensured, keep packaging efficiency high and the advantage that Adjustment precision is high simultaneously.

In the optical fiber collimator assemble method according to the utility model first preferred embodiment described with reference to figure 4 to Fig. 6, describe lens, focus the situation that standard component is directly connected with optical fiber head.But the utility model is obviously applicable to optical fiber head, focuses standard component, have the situation (with reference to figure 7) of a sleeve pipe 43 outside lens.

Thus, optical fiber collimator assemble method according to the utility model first preferred embodiment obviously can preferably increase following step again: bonding and fixing lens, focus standard component and optical fiber head sidewall outside, internal diameter is equaled lens, to focus the sleeve of maximum outside diameter in standard component and optical fiber head bonding and fixing.

Also following number of assembling steps can be preferably revised as: with glue, lens, the sidewall that focuses in standard component and optical fiber head one are first solidified this glue with internal surface of sleeve pipe adhesion; By lens, focus standard component and optical fiber head is close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, by lens, focuses standard component and to be connected with optical fiber head and to fix.

In fact, lens or optical fiber head or focus standard component and can fix with sleeve pipe in advance separately, or lens or optical fiber head or focus after standard component fits together is fixed with outer tube again, or do not use sleeve pipe.

And the further improvement according to optical fiber collimator of the present utility model is also applicable to this manufacture method.

Therefore, the utility model provides a kind of assemble method of optical fiber collimator: first, prepare the second side end face be plane with the first side end face and parallel and thickness equal lens intercept focus standard component; Subsequently, by lens, focus standard component and optical fiber head is close to according to the inner side end of the second side end face and optical fiber head that focus standard component, the mode that the inner side end of the first side end face and lens that focus standard component is close to, by lens, focuses standard component and to be connected with optical fiber head and to fix.

In the utility model, can with the intercept of optical method for measuring lens to be assembled, also can scioptics length and in conjunction with lens refractive index and focus standard component light path to calculate lens intercept by the index meter of part.

In the utility model, lens, focus outside standard component, optical fiber head and can have a sleeve pipe, also can not have sleeve pipe only three be connected and fixed.In the embodiment having sleeve pipe, lens, focus standard component, optical fiber head can be assembled with any possible order and sleeve pipe.

The embodiment 1> of < the utility model optical fiber collimator

The utility model relates to the optical fiber collimator relevant to above-mentioned manufacture method, as shown in Fig. 4 and Fig. 7.Optical fiber collimator according to the utility model embodiment comprises: lens 1, focus standard component 2, optical fiber head 3 and an optional sleeve pipe 5; Wherein, lens 1, focus the sidewall of at least one in standard component 2, optical fiber head 3 and be fixedly connected with the inwall of sleeve pipe 5.

Wherein, optical fiber head 3 manufactures inner side end with a kind of light transmissive material (such as quartz glass, refractive index 1.4440) and is plane and has angle with main shaft; Lens 1 manufacture inner side end with the light transmissive material (such as the optical resin of refractive index 1.65) that another kind of refractive index is higher and are plane and become one and aforesaid optical fiber head angle equal angles with main shaft.Focus standard component 2 to manufacture with at least one the identical light transmissive material (optical resin of quartz glass or refractive index 1.65) in optical fiber head 3, lens 1, and the second side end face is plane with the first side end face and parallel and thickness equals lens intercept.The inner side end of the second side end face and this optical fiber head 3 that focus standard component 2 is close to, and the inner side end of this first side end face and this lens 1 of focusing standard component 2 is close to.

Now, the thickness focusing standard component 2 makes the inner side end of its second side end face and optical fiber head 3 be positioned on the focal plane of lens 1.

Preferably, focus the first side of standard component 2 by the first printing opacity glue 41 (such as, the H-62 glue of refractive index 1.60) be fixed to the inner face of lens 1 opposed optical fibers head 3, and the second side focusing standard component 2 is fixed to optical fiber head 3 by the second printing opacity glue 42 (such as, the B-001 of refractive index 1.52).

More preferably, the refractive index of this first printing opacity glue 41 equals the refractive index 1.4440 of these lens 1.Preferably, the refractive index of this second printing opacity glue 42 equals the refractive index 1.65 of this optical fiber head 3.

Preferably, the material focusing standard component 2 can be the transparent glass identical with optical fiber head 3, refractive index 1.4440; Also can be the optical resin of refractive index 1.65 identical with lens 1.

Equally, in an alternate embodiment, focus standard component 2 at least light path by part be light transmissive material (optical resin of quartz glass 1.4440 or refractive index 1.65) manufacture.Now, when calculating intercept D2, the refractive index (quartz glass 1.4440 or 1.65) of light transmissive material should be suitable for respectively, obtain the intercept in light transmissive material.

Shown optical fiber collimator can realize the technique effect achieved by the optical fiber collimator assemble method of the utility model first preferred embodiment equally.

Other embodiment > of < the utility model optical fiber collimator

The utility model relates to the optical fiber collimator relevant to above-mentioned manufacture method, as shown in Fig. 4 and Fig. 7.Optical fiber collimator according to the utility model embodiment comprises: lens 1, focus standard component 2, optical fiber head 3 and an optional sleeve pipe 5; Wherein, lens 1, focus the sidewall of at least one in standard component 2, optical fiber head 3 and be fixedly connected with the inwall of sleeve pipe 5.

Wherein, optical fiber head 3 manufactures inner side end with a kind of light transmissive material (such as quartz glass, refractive index 1.4440) and is plane and has angle with main shaft; Lens 1 manufacture inner side end with the light transmissive material (such as the optical resin of refractive index 1.60) that another kind of refractive index is higher and are plane and become one and aforesaid optical fiber head angle equal angles with main shaft.Focus standard component 2 to manufacture with at least one the identical light transmissive material (optical resin of quartz glass or refractive index 1.65) in optical fiber head 3, lens 1, and the second side end face is plane with the first side end face and parallel and thickness equals lens intercept.The inner side end of the second side end face and this optical fiber head 3 that focus standard component 2 is close to, and the inner side end of this first side end face and this lens 1 of focusing standard component 2 is close to.The angle of side end face and main shaft can be vertical or become 86 degree, 84 degree, 82 degree or 78 degree.

Now, the thickness focusing standard component 2 makes the inner side end of its second side end face and optical fiber head 3 be positioned on the focal plane of lens 1.

Same printing opacity glue 41,42 is filled uniformly and to focus described in being solidificated between the first side end face of standard component 2 and the inner side end of this lens 1, described in focus between the second side end face of standard component 2 and the inner side end of this optical fiber head 3.

In an embodiment of the present utility model, printing opacity glue 41,42 is BP-042 of refractive index 1.53.In another embodiment, printing opacity glue 41,42 is CPE-001 of refractive index 1.56.Therefore, the refractive index of printing opacity glue is more than or equal to the refractive index of optical fiber head and is less than or equal to the refractive index of lens.

In an embodiment of the present utility model, the material focusing standard component 2 is and a kind of light transmissive material of optical fiber head 3, the quartz glass of refractive index 1.4440.Now, printing opacity glue 41,42 can be the H-62 (identical with lens 1) of refractive index 1.60.Preferably, printing opacity glue 41,42 can be refractive index 1.4440 (identical with focusing standard component 2)

In another embodiment of the present utility model, the material focusing standard component 2 is and a kind of light transmissive material of lens 1, the optical resin of refractive index 1.60.Now, printing opacity glue 41,42 can be refractive index 1.4440 (identical with optical fiber head 3).Preferably, printing opacity glue 41,42 can be the H-62 (identical with focusing standard component 2) of refractive index 1.60

Be appreciated that the utility model is equally applicable to lens with focus the situation that face that standard component is connected is vertical plane.Now, the length of lens refers to refer to: length in the heart in two opposite faces of gradient lens.

In the utility model, the profile focusing standard component can be right cylinder, oblique circular cylinder body, hexagonal prism, four prisms cylinder or tri-prismoid.Lens can be spherical lens, gradient lens or non-spherical lens.

In addition, the situation that the external diameter that Fig. 7 shows lens 1 mates with the external diameter of optical fiber head 3, but in fact, do not having in sleeved situation, the external diameter of lens 1 can mate with the external diameter of optical fiber head 3 and also can not mate.

In the utility model, can with the intercept of optical method for measuring lens to be assembled, also can scioptics length and in conjunction with lens refractive index and focus standard component light path to calculate lens intercept by the index meter of part.

In the utility model, lens, focus outside standard component, optical fiber head and can have a sleeve pipe, also can not have sleeve pipe only three be connected and fixed.In the embodiment having sleeve pipe, lens, focus standard component, optical fiber head can be assembled with any possible order and sleeve pipe.

And optical fiber head 3 can be the optical fiber head of single fiber, it also can be the optical fiber head of many optical fiber.

Lens 1 with focus surface that standard component 2 contacts and optical fiber head 3 and focus the surface that standard component 2 contacts and preferably can have film plating layer, to reduce the effect reflected, thus increase light utilization efficiency.Optionally, at least one plated film on the surface in the inner side end focusing the first side end face of standard component, the second side end face, the inner side end of optical fiber head, lens.In the technical scheme of plated film, its loss is 0.0174db.

In the utility model, the refractive index of optical fiber head refers to the refractive index of the Laser emission part of optical fiber head.In known optical fiber head, refer to the refractive index of the optical fiber inserting optical fiber head central capillary.More specifically, the refractive index of the fibre core of optical fiber is referred to.Such as, the material of optical fiber head is quartz, and its refractive index is 1.4440.In the utility model, the light transmissive material that selective refraction rate is higher answered by lens.Namely refractive index is more than or equal to the material of optical fiber head.Such as, a preferred embodiment, select lens to be refractive indexes be 1.7447 SF11.

In the utility model, optical fiber head 3, focus and to fill between standard component 2 and lens 1 and to have cured uniform printing opacity glue 41,42, the refractive index of this printing opacity glue is more than or equal to the refractive index of optical fiber head 3 and is less than or equal to the refractive index of lens 1.

Such as, in one embodiment, the refractive index of printing opacity glue is 1.65, and the refractive index of optical fiber head is 1.45, and the refractive index of lens is 1.65, and loss is now 0.0181db.In another embodiment, the refractive index of printing opacity glue is 1.64, and the refractive index of optical fiber head is 1.45, and the refractive index of lens is 1.65, and loss now is also 0.0165db.In a further embodiment, the refractive index of printing opacity glue is 1.60, and the refractive index of optical fiber head is 1.45, and the refractive index of lens is 1.65, and loss is now 0.0115db.In a further embodiment, the refractive index of printing opacity glue is 1.55, and the refractive index of optical fiber head is 1.45, and the refractive index of lens is 1.65, and loss is now 0.00091db.

In another embodiment of the present utility model, the refractive index of printing opacity glue is 1.48, and the refractive index of optical fiber head is 1.48, and the refractive index of lens is 1.69, and loss is now 0.0191db.In another embodiment, the refractive index of printing opacity glue is 1.49, and the refractive index of optical fiber head is 1.48, and the refractive index of lens is 1.69, and loss is now 0.0173db.In a further embodiment, the refractive index of printing opacity glue is 1.48, and the refractive index of optical fiber head is 1.57, and the refractive index of lens is 1.69, and loss is now 0.0057db.In a further embodiment, the refractive index of printing opacity glue is 1.65, and the refractive index of optical fiber head is 1.48, and the refractive index of lens is 1.69, and loss is now 0.0135db.

In another embodiment of the present utility model, this light path focusing standard component is that light transmissive material is made by part.In certain embodiments, this focuses the optical resin that standard component is refractive index 1.65, and in further embodiments, this focuses the glass that standard component is refractive index 1.58.

Printing opacity glue H-62 is two palaces energy base acrylate monomers, printing opacity glue B-001 is benzyl methyl base acrylate, can obtain in Hangzhou Dan Wei Science and Technology Ltd. (http://china.guidechem.com/trade/pdetail2149587.html).

In addition, it should be noted that, unless stated otherwise or point out, otherwise the term " first " in instructions, " second ", " the 3rd " etc. describe only for distinguishing each assembly, element, step etc. in instructions, instead of for representing logical relation between each assembly, element, step or ordinal relation etc.

Be understandable that, although the utility model with preferred embodiment disclose as above, but above-described embodiment and be not used to limit the utility model.For any those of ordinary skill in the art, do not departing under technical solutions of the utility model ambit, the technology contents of above-mentioned announcement all can be utilized to make many possible variations and modification to technical solutions of the utility model, or be revised as the Equivalent embodiments of equivalent variations.Therefore, every content not departing from technical solutions of the utility model, according to technical spirit of the present utility model to any simple modification made for any of the above embodiments, equivalent variations and modification, all still belongs in the scope of technical solutions of the utility model protection.

Claims (15)

1. an optical fiber collimator, has:

Optical fiber head, the inner side end of this optical fiber head is plane and has angle with main shaft;

Lens, the inner side end of these lens is plane and has angle with main shaft, and this angle is equal with aforesaid optical fiber head first side end face angle;

And standard component is focused between optical fiber head and lens, the inner side end of this second side end face and this optical fiber head of focusing standard component is close to, and the inner side end of this first side end face and these lens of focusing standard component is close to; This second side end face focusing standard component is plane with the first side end face and parallel, and the thickness between both ends of the surface equals the intercept of lens;

It is characterized in that, this light path focusing standard component is make by with at least one the identical light transmissive material in optical fiber head, lens by part.

2. optical fiber collimator according to claim 1, it is characterized in that, described focusing to be filled between the first side end face of standard component and the inner side end of these lens and to have cured uniform first printing opacity glue, described in focus and to fill between the second side end face of standard component and the inner side end of this optical fiber head and to have cured uniform second printing opacity glue.

3. optical fiber collimator according to claim 2, is characterized in that, the refractive index of described first printing opacity glue equals the refractive index of these lens.

4. optical fiber collimator according to claim 2, is characterized in that, the refractive index of described second printing opacity glue equals the refractive index of this optical fiber head.

5. optical fiber collimator according to claim 2, it is characterized in that, describedly focus between the first side end face of standard component and the inner side end of these lens, focus between the second side end face of standard component and the inner side end of this optical fiber head, fill and have cured the printing opacity glue of same.

6. optical fiber collimator according to claim 5, is characterized in that, the refractive index of described printing opacity glue is more than or equal to the refractive index of optical fiber head and is less than or equal to the refractive index of lens.

7. optical fiber collimator according to claim 6, is characterized in that, the refractive index of described printing opacity glue equals the refractive index focusing standard component.

8. optical fiber collimator according to claim 6, is characterized in that, described in focus standard component be made up of the light transmissive material identical with optical fiber head, the refractive index of described printing opacity glue equals the refractive index of these lens.

9. optical fiber collimator according to claim 6, is characterized in that, described in focus standard component be made up of the light transmissive material identical with lens, the refractive index of described printing opacity glue equals the refractive index of this optical fiber head.

10., according to the arbitrary described optical fiber collimator of claim 1 to 9, it is characterized in that, the intercept of described lens is light path focuses in the light transmissive material of standard component intercept at this.

11., according to the arbitrary described optical fiber collimator of claim 1 to 9, is characterized in that,

Described optical fiber collimator also has sleeve pipe, described optical fiber head, to focus in standard component, lens at least one sidewall and internal surface of sleeve pipe with gluing company and solidifies.

12., according to the arbitrary described optical fiber collimator of claim 1 to 9, is characterized in that, described in focus standard component profile be right cylinder, oblique circular cylinder body, hexagonal prism, four prisms cylinder or tri-prismoid.

13. according to the arbitrary described optical fiber collimator of claim 1 to 9, and it is characterized in that, the angle of wherein said side end face and main shaft equals 90 degree, 86 degree, 84 degree, 82 degree or 78 degree.

14. according to the arbitrary described optical fiber collimator of claim 1 to 9, and it is characterized in that, wherein said lens are spherical lens, gradient lens or non-spherical lens.

15., according to the arbitrary described optical fiber collimator of claim 1 to 9, is characterized in that:

At least one in the inner side end focusing the first side end face of standard component, the second side end face, the inner side end of optical fiber head, lens has plated film on the surface.