CN211937672U - Optical collimator production is with adjusting luminance and solidification equipment - Google Patents

Abstract

The utility model discloses a light modulation and solidification device for producing an optical fiber collimator, wherein a light modulation alignment mechanism and a glue dispensing mechanism are jointly fixed on a base, so that the optical fiber collimator after light modulation is finished does not need to be moved, and can be directly entered into a glue solidification process, thereby avoiding the deviation of the distance and the angle between an optical fiber tail fiber and a focusing lens in the transfer process, improving the production efficiency and being beneficial to improving the product yield; through mutually supporting of the movable block of Y axle drive arrangement drive and Z axle drive module again, can carry out accurate automated control to the moving path of gluing the rifle, saved the labour, and get rid of the interference of artificial factor, ensured the accurate nature of curing operation, this utility model is used for collimater preparation technical field.

Description

Optical collimator production is with adjusting luminance and solidification equipment

Technical Field

The utility model relates to a collimator makes technical field, especially relates to an optical collimator production is with adjusting luminance and solidification equipment.

Background

When the optical fiber collimator is produced, the distance and the angle between the optical fiber tail fiber and the focusing lens in the glass tube need to be adjusted, so that the requirement that light emitted from the optical fiber tail fiber is converged into parallel light rays is met, the light loss is reduced, and the curing operation is performed after the adjustment is finished. In the current production, the dimming and curing operations are generally performed separately, and the optical fiber collimator needs to be moved in the process, and the operation is basically completed manually, so the production efficiency is not high, and the good rate of the product cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optical collimator production that light modulation, solidification seamless connection go on is with adjusting luminance and solidification equipment.

The utility model adopts the technical proposal that:

a production of fiber collimator is with adjusting luminance and solidification equipment, includes:

a base;

the feeding mechanism is divided into a mobile platform module and at least one feeding jig arranged on the mobile platform module, the feeding jigs are arranged in parallel, and the mobile platform module is arranged on the base;

the light adjusting and aligning mechanism comprises a light source and a light spot adjusting and controlling mechanism which are respectively positioned at two end sides of the feeding mechanism;

the spot gluing mechanism is arranged on the feeding mechanism and is positioned on the same side as the light spot regulating mechanism, the spot gluing mechanism comprises a spot gluing gun, a supporting portal frame and a spot gluing frame arranged on the supporting portal frame, and a moving block and a Y-axis driving device for driving the moving block to move transversely are arranged on the spot gluing frame;

the moving block is connected with a Z-axis moving module, and the glue dispensing gun is fixed on the Z-axis moving module.

Further conduct the utility model discloses technical scheme's improvement, Z axle removes the module and includes the mounting panel, locates glue mounting, drive on the mounting panel glue the Z axle drive arrangement that the mounting vertically slided is glued to the point, glue the mounting and set up the through-hole that supplies the pole portion punch card of gluing the rifle.

Further conduct the utility model discloses technical scheme's improvement, the surface configuration longitudinal slide rail of mounting panel, the mounting is glued to the point reciprocates along longitudinal slide rail.

Further conduct the utility model discloses technical scheme's improvement, Y axle drive arrangement, Z axle drive arrangement are the cylinder.

Further as an improvement of the technical scheme of the utility model, the longitudinal section of the dispensing frame is L-shaped and is divided into a transverse plate and a vertical plate; the transverse plate is connected with the support door frame, a transverse guide rail is assembled on the surface of one side, away from the transverse plate, of the vertical plate, and the moving block slides left and right along the transverse guide rail.

Further conduct the utility model discloses technical scheme's improvement, both ends set up a baffle respectively about the riser, Y axle drive arrangement fixes the outside at one of them baffle.

Further conduct the utility model discloses technical scheme's improvement, facula regulation and control mechanism includes facula adjustment seat, X axle moving mechanism and facula appearance, X axle moving mechanism divides into fixed part and movable part, the fixed part meets with facula adjustment seat, the top at the movable part is installed to the facula appearance.

Further conduct the utility model discloses technical scheme's improvement, the moving platform module divide into electronic platform, installs manual platform on the electronic platform, manual platform's quantity is unanimous with the quantity of material loading tool.

Further conduct the utility model discloses technical scheme's improvement, electric platform is including installing the rodless cylinder at the base, the slider movement track of rodless cylinder is parallel to each other with the movement track of movable block, the fixed platform board in slider top of rodless cylinder, each manual platform sets up the upper surface at the platform board side by side.

Further conduct the utility model discloses technical scheme's improvement, each manual platform divide into down fixed station and last moving platform, the bottom and the landing slab of fixed station are connected down, the top surface of fixed station is equipped with the track of moving platform slip direction on the regulation down, orbital extending direction is mutually perpendicular with slider direction of motion.

The utility model has the advantages that: according to the dimming and curing device for producing the optical fiber collimator, the dimming alignment mechanism and the glue dispensing mechanism are jointly fixed on the base, so that the optical fiber collimator after dimming is finished does not need to be moved, a glue curing process can be directly entered, the deviation of the distance and the angle between an optical fiber pigtail and a focusing lens in the transferring process is avoided, the production efficiency is improved, and the product yield is improved; and through the mutual matching of the moving block driven by the Y-axis driving device and the Z-axis driving module, the moving path of the dispensing gun can be accurately and automatically controlled, the labor force is saved, the interference of manual factors is eliminated, and the accuracy of the curing operation is ensured.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of another angle according to the embodiment of the present invention.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 and 2, in order to illustrate an embodiment of the present invention, a light modulation and curing device for producing an optical fiber collimator is described, which includes a base 1, a feeding mechanism 2 installed on the base 1, a light modulation alignment mechanism, and a glue dispensing mechanism 4. Specifically, a heating and temperature control probe is arranged in a base 1, a feeding mechanism 2 is divided into a mobile platform module and two feeding jigs 21 arranged on the mobile platform module, the feeding jigs 21 are arranged in parallel, and the mobile platform module is arranged on the base 1; the light adjusting and aligning mechanism comprises a light source 31 and a light spot adjusting and controlling mechanism 32 which are respectively positioned at two end sides of the feeding mechanism 2; the dispensing mechanism 4 is arranged on the feeding mechanism 3 and located on the same side as the light spot regulating mechanism 32, and includes a dispensing gun 41, a supporting gantry 42 and a dispensing frame 43 mounted on the supporting gantry 42, the dispensing frame 43 is provided with a moving block and a Y-axis driving device 44 for driving the moving block to move transversely, the moving block is connected with a Z-axis moving module 45, and the dispensing gun 41 is fixedly arranged on the Z-axis moving module 45. Further, the Y-axis driving device 44 and the Z-axis driving device in this embodiment are both air cylinders.

According to the dimming and curing device for producing the optical fiber collimator, the dimming alignment mechanism and the dispensing mechanism 4 are jointly fixed on the base 1, so that the optical fiber collimator after dimming is finished does not need to move, and can directly enter a dispensing curing process, the deviation of the distance and the angle between an optical fiber tail fiber and a focusing lens in the transferring process is avoided, the production efficiency is improved, and the product yield is improved; and the moving block driven by the Y-axis driving device 44 is matched with the Z-axis driving module, so that the moving path of the dispensing gun 41 can be accurately and automatically controlled, the labor force is saved, the interference of manual factors is eliminated, and the accuracy of the curing operation is ensured.

Specifically, in the present embodiment, the Z-axis moving module 45 includes a mounting plate 451, a dispensing fixing member 452 disposed on the mounting plate 451, and a Z-axis driving device 453 for driving the dispensing fixing member 452 to slide longitudinally, wherein the dispensing fixing member 452 has a through hole for the rod portion of the dispensing gun 41 to pass through. Furthermore, a longitudinal slide rail is arranged on the surface of the mounting plate 451, and the dispensing fixing part 452 moves up and down along the longitudinal slide rail; preferably, a cylinder fixing plate is fixed to the top of the mounting plate 451, and the Z-axis driving unit 453 is disposed at an upper portion of the cylinder fixing plate.

In this embodiment, in order to make the connection between the dispensing frame 43 and the support gantry 42 more stable, the longitudinal section of the dispensing frame 43 is L-shaped and is divided into a horizontal plate and a vertical plate; the bottom surface of the cross plate is connected to the support mast 42 by fasteners. Preferably, in order to better determine the sliding track of the moving block, a transverse guide rail is assembled on the surface of the vertical plate on the side far away from the transverse plate, and the moving block slides leftwards and rightwards along the transverse guide rail. Furthermore, a baffle is arranged at each of the left end and the right end of the vertical plate, and the Y-axis driving device 44 is fixed on the outer side of one of the baffles, so that the moving block is effectively prevented from falling off the transverse guide rail and being damaged.

Specifically, the light spot adjusting mechanism 32 includes a light spot adjusting base 321, an X-axis moving mechanism 322 and a light spot instrument 323, the X-axis moving mechanism 322 includes a fixed portion and a movable portion, the fixed portion is connected to the light spot adjusting base 321, and the light spot instrument 323 is installed above the movable portion. In this embodiment, it is further preferable that, in order to further secure the installation of the spot meter 323, the spot meter 323 is first placed on the base to be fixed in position, and then the base is fixed on the movable portion.

Further, in the present embodiment, the mobile platform module is divided into an electric platform 221 and a manual platform 222 installed on the electric platform 221; the number of the manual platforms 222 is the same as that of the feeding jigs 21, and the manual platforms correspond to the feeding jigs one to one. More specifically, the electric platform of the present embodiment includes a rodless cylinder 2211 installed on the base 1, a moving track of a slider of the rodless cylinder 2211 and a moving track of a moving block are parallel to each other, a platform plate 2212 is fixed above the slider of the rodless cylinder 2211, and the manual platforms 222 are juxtaposed on an upper surface of the platform plate 2212. While in certain embodiments, rodless cylinder 2211 may be replaced with other electric slip mechanisms.

In this embodiment, each manual stage 222 is divided into a lower fixed stage and an upper movable stage, the bottom of the lower fixed stage is connected to the stage plate, the top surface of the lower fixed stage is provided with a rail defining the sliding direction of the upper movable stage, and the extending direction of the rail is perpendicular to the moving direction of the slider. The position of the upper mobile station is changed by operating a manual lever.

Furthermore, the front end of the feeding jig 21 of this embodiment is provided with heating connection blocks, each heating connection block is provided with a glass tube groove for placing a glass tube into the glass tube, a first pressing block for pressing and fixing the glass tube is arranged beside each glass tube groove, a second pressing block is arranged at an interval on one side of the first pressing block close to the rear end of the feeding jig 21, and the second pressing block is used for fixing the optical fiber. A heat transfer structure is connected below the heating connecting piece, and the heat transfer structure in the embodiment adopts a copper block. Preferably, each feeding mechanism 2 is provided with a microswitch 5.

In the actual operation process, the feeding jig 21 with the optical fiber collimator is firstly placed on the station on one side, the station is called as the first station, the first pressing block is closed, the second pressing block is opened, the micro switch 5 acts, and timing preheating is started. After the fiber is preheated to the set time, the electric platform acts to pull the fiber pigtail backwards to adjust the position corresponding to the set light spot value. The Y-axis drive unit 44 and the Z-axis drive unit 453 are adjusted in this order, and the dispensing gun 41 is moved to a set position, and then first dispensing is started.

After the first dispensing, the Z-axis driving device 453 resets and the electric platform moves to push the fiber pigtail forward a short distance. The Z-axis driving device 453 starts to operate, and moves the dispensing gun 41 down to a set position to start the second dispensing. After the second dispensing is completed, the Y-axis driving device 44 and the Z-axis driving device 453 are both reset, and the electric stage is simultaneously operated to adjust the fiber pigtail to the set value for the last time, and then the positions of the focusing lens and the optical fiber in the glass tube are fixed after the glue for dispensing is heated and cured.

Furthermore, before dispensing, the optical fiber pigtail can be adjusted to a set position, so that the curing link can be performed after one dispensing operation. Moreover, during the dispensing operation, two heating curing adhesives can be simultaneously applied to the optical fiber tail fiber, wherein one of the heating curing adhesives is an ultraviolet curing adhesive; the optical fiber pigtail is adjusted to the set value for the last time, after the glue dispensing operation is carried out by utilizing the ultraviolet curing glue, the ultraviolet light source can be used for curing the ultraviolet glue firstly so as to temporarily fix the positions of the focusing lens and the optical fiber pigtail in the glass tube, then the feeding jig 21 is taken down and placed on a specific heater to cure the heating curing glue, the production of the finished product of the optical fiber collimator is realized at one time, and the production efficiency is improved.

It should be further noted that during dispensing, the gun head of the dispensing gun 41 may be aligned over the fiber pigtail for dispensing, or the gun head of the dispensing gun 41 may be extended to the side of the fiber pigtail for dispensing laterally, and the two dispensing manners may be selected and determined according to actual situations.

Naturally, the invention is not limited to the above-described embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the invention, and such equivalent modifications or substitutions are included in the scope of the claims of the present application.

Claims (10)

1. The utility model provides an optical collimator production is with adjusting luminance and solidification equipment which characterized in that includes:

a base;

the feeding mechanism is divided into a mobile platform module and at least one feeding jig arranged on the mobile platform module, the feeding jigs are arranged in parallel, and the mobile platform module is arranged on the base;

the light adjusting and aligning mechanism comprises a light source and a light spot adjusting and controlling mechanism which are respectively positioned at two end sides of the feeding mechanism;

the spot gluing mechanism is arranged on the feeding mechanism and is positioned on the same side as the light spot regulating mechanism, the spot gluing mechanism comprises a spot gluing gun, a supporting portal frame and a spot gluing frame arranged on the supporting portal frame, and a moving block and a Y-axis driving device for driving the moving block to move transversely are arranged on the spot gluing frame;

the moving block is connected with a Z-axis moving module, and the glue dispensing gun is fixed on the Z-axis moving module.

2. The dimming and curing device for producing an optical fiber collimator according to claim 1, wherein: the Z-axis moving module comprises a mounting plate, a dispensing fixing piece and a driving device, wherein the dispensing fixing piece and the driving device are arranged on the mounting plate, the dispensing fixing piece longitudinally slides, and a through hole for the rod part of the dispensing gun to penetrate is formed in the dispensing fixing piece.

3. The dimming and curing device for producing an optical fiber collimator according to claim 2, wherein: the surface of the mounting plate is provided with a longitudinal slide rail, and the dispensing fixing piece moves up and down along the longitudinal slide rail.

4. The dimming and curing device for producing an optical fiber collimator according to claim 2, wherein: and the Y-axis driving device and the Z-axis driving device are both cylinders.

5. The dimming and curing device for producing an optical fiber collimator according to claim 1, wherein: the longitudinal section of the dispensing frame is L-shaped and is divided into a transverse plate and a vertical plate; the transverse plate is connected with the support door frame, a transverse guide rail is assembled on the surface of one side, away from the transverse plate, of the vertical plate, and the moving block slides left and right along the transverse guide rail.

6. The dimming and curing device for producing optical fiber collimators according to claim 5, wherein: a baffle is arranged at each of the left end and the right end of the vertical plate, and the Y-axis driving device is fixed on the outer side of one baffle.

7. The dimming and curing device for producing an optical fiber collimator according to claim 1, wherein: the light spot regulating and controlling mechanism comprises a light spot regulating seat, an X-axis moving mechanism and a light spot instrument, wherein the X-axis moving mechanism is divided into a fixed part and a movable part, the fixed part is connected with the light spot regulating seat, and the light spot instrument is installed above the movable part.

8. The dimming and curing device for producing an optical fiber collimator according to claim 1, wherein: the mobile platform module is divided into an electric platform and manual platforms installed on the electric platform, and the number of the manual platforms is consistent with that of the feeding jigs.

9. The dimming and curing device for producing optical fiber collimators according to claim 8, wherein: the electric platform comprises a rodless cylinder arranged on the base, the movement track of a sliding block of the rodless cylinder is parallel to the movement track of a moving block, a platform plate is fixed above the sliding block of the rodless cylinder, and the manual platforms are arranged on the upper surface of the platform plate in parallel.

10. The dimming and curing device for producing optical fiber collimators according to claim 9, wherein: each manual platform divide into down fixed station and last moving platform, the bottom and the landing slab of fixed station are connected down, the top surface of fixed station is equipped with the track of moving platform sliding direction on the regulation down, orbital extending direction is mutually perpendicular with the slider direction of motion.

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