CN204471182U - A kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure - Google Patents

Abstract

The utility model provides a kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure, and ceramic insertion core is connected on rotary cylinder, and lock pin tremie pipe is installed on a mounting board and corresponding with rotary cylinder; Installing plate opposite side is also provided with the servo motor connecting Y-axis shaft coupling, and Y-axis shaft coupling connects a swing arm, and the end of swing arm is provided with material loading gas pawl and blanking gas pawl, and material loading gas pawl is connected with ejector beam.Ceramic insertion core enters rotary cylinder through lock pin tremie pipe, afterwards rotary cylinder half-twist, makes ceramic insertion core be positioned horizontally in rotary cylinder; Then swing arm rotates, and when material loading gas pawl and rotary cylinder are positioned at same plane, swing arm stops operating, then material ejection cylinder action, and ceramic insertion core ejects and enters material loading gas pawl by material ejection cylinder.The utility model structure is simple, automaticity is high, saves manpower and materials.

Description

A kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure

Technical field

The utility model relates to ceramic insertion core inside diameter grinder, particularly relates to a kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure.

Background technology

Optical fiber ceramic lock pin is the high accuracy circular cylinder special cermacis element in a kind of optical fiber connector plug, and there is a micropore at its center, and aperture, out of roundness error are 0.5 micron, accurately locate for Fiber connection.The central bore requirement on machining accuracy of this type of optical fiber ceramic lock pin is very high, and require also very high to the plant equipment of processing, ceramic insertion core will penetrate steel wire when endoporus grinds; Blank of cored ceramics to be ground is fixed on fixture; By the passing through micropores mistake of steel wire from blank of cored ceramics being stained with lapping liquid; Order about fixture to rotate, steel wire is back and forth twitched, and is ground by micropore, obtain the ceramic insertion core of required micropore by the abrasive grain of accelerated motion in abrasive fluid.

Traditional ceramic insertion core inside diameter grinder material loading, blanking adopt manual operation, not only troublesome poeration, and efficiency is low, wastes time and energy, and also there is certain potential safety hazard.

Utility model content

The purpose of this utility model is the defect overcoming prior art, provide a kind of structure simple, without the need to manual operation, the ceramic insertion core inside diameter grinder of automation loading and unloading can be realized.

The utility model is achieved in that a kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure, it is characterized in that, comprise installing plate, the material ejection cylinder being fixedly assemblied in described installing plate side, rotary cylinder, lock pin tremie pipe and ceramic insertion core, described ceramic insertion core is connected on described rotary cylinder, and described lock pin tremie pipe to be fixedly mounted on described installing plate and corresponding with described rotary cylinder; Described installing plate opposite side is also provided with the servo motor connecting Y-axis shaft coupling, and described Y-axis shaft coupling connects a swing arm, and the end of described swing arm is provided with material loading gas pawl and blanking gas pawl, and described material loading gas pawl is connected with ejector beam.

Further, described ceramic insertion core is connected with described rotary cylinder by a locating dowel, and described locating dowel upper surface is provided with groove, and described ceramic insertion core is fixed in described groove.

Further, described locating dowel upper surface also arranges one for the material blocking rod of ceramic insertion core described in block.

Further, be provided with sleeve in described ejector beam, be arranged on material pushing needle in described sleeve and spring, described spring one end is fixed on described sleeve bottom.

The utility model provides a kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure, comprise installing plate, the material ejection cylinder being fixedly assemblied in described installing plate side, rotary cylinder, lock pin tremie pipe and ceramic insertion core, described ceramic insertion core is connected on described rotary cylinder, and described lock pin tremie pipe to be fixedly mounted on described installing plate and corresponding with described rotary cylinder; Described installing plate opposite side is also provided with the servo motor connecting Y-axis shaft coupling, and described Y-axis shaft coupling connects a swing arm, and the end of described swing arm is provided with material loading gas pawl and blanking gas pawl, and described material loading gas pawl is connected with ejector beam.Described ceramic insertion core enters described rotary cylinder through described lock pin tremie pipe, afterwards rotary cylinder half-twist, makes ceramic insertion core be positioned horizontally in rotary cylinder, then swing arm rotates, when material loading gas pawl and rotary cylinder are positioned at same plane, swing arm stops operating, then material ejection cylinder action, ceramic insertion core ejects and enters material loading gas pawl by material ejection cylinder, simultaneously, another end face of ceramic insertion core withstands ejector beam, ceramic insertion core is kept to rest on the center of material loading gas pawl, then material loading gas pawl clamps ceramic insertion core, material ejection cylinder is return, swing arm rotates, when the material that material loading gas pawl is clamped is concentric with main shaft, swing arm stops operating, the pneumatic chuck of main shaft is opened, material loading gas pawl is opened, ceramic insertion core heads in main shaft chuck by ejector beam, chuck realizes automatically being clamped by ceramic insertion core, complete material loading, the utility model structure is simple, automaticity is high, save manpower and materials.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The ceramic insertion core inside diameter grinder partial schematic diagram with novel loading and unloading structure that Fig. 1 provides for the utility model embodiment;

The knockout pin arrangement schematic diagram that Fig. 2 provides for the utility model embodiment;

Another angle partial schematic diagram of the ceramic insertion core inside diameter grinder with novel loading and unloading structure that Fig. 3 provides for the utility model embodiment.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

As Fig. 1-Fig. 3, the utility model embodiment provides a kind of ceramic insertion core inside diameter grinder with novel loading and unloading structure, comprise installing plate 11, the material ejection cylinder 12 being fixedly assemblied in described installing plate 11 side, rotary cylinder 13, lock pin tremie pipe 14 and ceramic insertion core 15, described ceramic insertion core 15 is connected on described rotary cylinder 13, and described lock pin tremie pipe 14 to be fixedly mounted on described installing plate 11 and corresponding with described rotary cylinder 13; Described installing plate 11 opposite side is also provided with the servo motor 17 connecting Y-axis shaft coupling 16, described Y-axis shaft coupling 16 connects a swing arm 18, the end of described swing arm 18 is provided with material loading gas pawl 21 and blanking gas pawl 22, and described material loading gas pawl 21 is connected with ejector beam 23.Described ceramic insertion core 15 enters described rotary cylinder 13 through described lock pin tremie pipe 14, afterwards rotary cylinder 13 half-twist, makes ceramic insertion core 15 be positioned horizontally in rotary cylinder 13, then swing arm 18 rotates, when material loading gas pawl 21 is positioned at same plane with rotary cylinder 13, swing arm 18 stops operating, then material ejection cylinder 12 action, ceramic insertion core 15 ejects and enters material loading gas pawl 21 by material ejection cylinder 12, simultaneously, another end face of ceramic insertion core 15 withstands ejector beam 23, ceramic insertion core 15 is kept to rest on the center of material loading gas pawl 21, then material loading gas pawl 21 clamps ceramic insertion core 15, material ejection cylinder 13 is return, swing arm 18 rotates, when the material that material loading gas pawl 21 is clamped is concentric with main shaft, swing arm 18 stops operating, the pneumatic chuck of main shaft is opened, material loading gas pawl 21 is opened, ceramic insertion core 15 heads in main shaft chuck by ejector beam 23, chuck realizes automatically being clamped by ceramic insertion core 15, complete material loading, the utility model structure is simple, automaticity is high, save manpower and materials.

In embody rule, as shown in Figure 1, Figure 2, described ceramic insertion core 15 is connected with described rotary cylinder 13 by a locating dowel 24, and described locating dowel 24 upper surface is provided with groove, and groove is V-type groove, and described ceramic insertion core 15 is fixed in described groove.Further, described locating dowel 24 upper surface also arranges one for the material blocking rod 25 of ceramic insertion core described in block 15, and material blocking rod 25 is in L-type.

Further, as Fig. 3, be provided with sleeve 26 in described ejector beam 23, be arranged on material pushing needle 27 in described sleeve 26 and spring 28, described spring 28 one end is fixed on bottom described sleeve 26, it should be noted that, in an initial condition, the thimble on material ejection cylinder 12 is not fully compressed at maximum travel limit inner spring 28.

It should be added that, as in Fig. 1, X-axis does rectilinear motion, and line slideway leads, and uses synchronous belt device to do transmission, and use servomotor to do power, servomotor has the advantage of accurate positioning; Y-axis rotates, and servo motor and rotating shaft link together by the utility model shaft coupling, like this to ensure accuracy and the uniformity of location.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. one kind has the ceramic insertion core inside diameter grinder of novel loading and unloading structure, it is characterized in that, comprise installing plate, the material ejection cylinder being fixedly assemblied in described installing plate side, rotary cylinder, lock pin tremie pipe and ceramic insertion core, described ceramic insertion core is connected on described rotary cylinder, and described lock pin tremie pipe to be fixedly mounted on described installing plate and corresponding with described rotary cylinder; Described installing plate opposite side is also provided with the servo motor connecting Y-axis shaft coupling, and described Y-axis shaft coupling connects a swing arm, and the end of described swing arm is provided with material loading gas pawl and blanking gas pawl, and described material loading gas pawl is connected with ejector beam.

2. there is the ceramic insertion core inside diameter grinder of novel loading and unloading structure as claimed in claim 1, it is characterized in that: described ceramic insertion core is connected with described rotary cylinder by a locating dowel, described locating dowel upper surface is provided with groove, and described ceramic insertion core is fixed in described groove.

3. there is the ceramic insertion core inside diameter grinder of novel loading and unloading structure as claimed in claim 2, it is characterized in that: described locating dowel upper surface also arranges one for the material blocking rod of ceramic insertion core described in block.

4. there is the ceramic insertion core inside diameter grinder of novel loading and unloading structure as claimed in claim 1, it is characterized in that: be provided with sleeve in described ejector beam, be arranged on material pushing needle in described sleeve and spring, described spring one end is fixed on described sleeve bottom.