CN204449780U - Numerical control edge stone equipment and edge cubic meter of stone method thereof - Google Patents

Abstract

The utility model relates to gem processing field, discloses a kind of numerical control edge stone equipment and edge cubic meter of stone method thereof.Numerical control described in the utility model edge stone equipment, comprises support, travelling carriage, workbench and edge stone mould on horizontal X axle and Y-axis; Described travelling carriage is positioned at described frame upper surface; Described workbench is positioned at the upper surface of described travelling carriage; Described edge stone mould is positioned at above described workbench; Described workbench upper bottom portion is also provided with rotatable main shaft.It has working (machining) efficiency, feature that precision is high, and can also process specific position, and the stone implement after simultaneously inlaying also not easily drops.

Description

Numerical control edge stone equipment and edge cubic meter of stone method thereof

Technical field

The utility model relates to gem processing field, particularly relates to a kind of numerical control edge stone equipment and edge cubic meter of stone method thereof.

Background technology

Existing embedding technique is generally traditional-handwork and inlays or unit inlaying one by one, and the former is labor intensive and time both, and efficiency is low, can not realize standardized production; Although the latter instead of manual operation, also there is efficiency low not high with precision, inlaying of a large amount of jewel and inlaying of specific position (entering curved surface, R face) can not be adapted to.The defect that the jewel after inlaying easily drops also is there is both above-mentioned.

Utility model content

The object of the utility model embodiment is: provide a kind of numerical control to inlay stone equipment, and it has working (machining) efficiency, feature that precision is high, and can also process specific position, and the stone implement after simultaneously inlaying also not easily drops.

A kind of numerical control edge stone equipment that the utility model embodiment provides, comprises support, travelling carriage, workbench and edge stone mould on horizontal X axle and Y-axis; Described travelling carriage is positioned at described frame upper surface; Described workbench is positioned at the upper surface of described travelling carriage; Described edge stone mould is positioned at above described workbench; Described workbench upper bottom portion is also provided with rotatable main shaft.

Optionally, the groove for blocking stone implement to be inlayed is provided with bottom described edge stone mould.

Optionally, the gradient of the inwall of described groove is consistent with the tangent plane gradient that stone implement inlayed by band.

Therefore, the technical scheme of application the utility model embodiment, adopt special edge stone mould, combine the travelling carriage that can move left and right again, thus automation complete in the jewel on various mobile phone periphery, bullion and zircon mosaic technology, it utilizes CNC to control, and is applicable to many jewels and inlays in order, accurately.Meanwhile, for the processing of Irregular Boundary Surface (entering curved surface, R face), only need by rotatable main shaft, thus will moving to the best for processing work and inlay position on workbench be positioned at, thus complete accurate embedding stone operation.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms a application's part, does not form improper restriction of the present utility model, in the accompanying drawings:

The structural representation of a kind of numerical control edge stone equipment that Fig. 1 provides for the utility model embodiment 1;

Another structural representation of a kind of numerical control edge stone equipment that Fig. 2 provides for the utility model embodiment 1;

The structural representation inlaying stone mould in stone equipment is inlayed in a kind of numerical control that Fig. 3 provides for the utility model embodiment 1.

Detailed description of the invention

Describe the utility model in detail below in conjunction with accompanying drawing and specific embodiment, be used for explaining the utility model in this illustrative examples of the present utility model and explanation, but not as to restriction of the present utility model.

Embodiment 1:

As depicted in figs. 1 and 2, numerical control edge stone equipment described in the utility model, comprise support 1, travelling carriage 2, workbench 3 and edge stone mould 4, wherein support 1 is positioned at the bottom of whole equipment, described travelling carriage 2 is positioned at the upper surface of described support 1, it can move in the X-axis of horizontal plane and Y-axis, and object is that meeting multiple stone implement (jewel) inlays on workpiece to be processed 7.Described workbench 3 is as the platform of carrying work to be processed, it is positioned at the upper surface of described travelling carriage 2, that travelling carriage 2 when moving in X-axis or Y-axis at that time, the workbench 3 on it is then driven to move together, thus the stone implement (jewel) making the Shi Weikong of the workpiece to be processed be arranged on described workbench 3 aim at described edge stone mould 4 to block, thus stone implement (jewel) is inlayed accurately in Shi Weikong, thus complete and inlay.If also needed inlaying of stone implement (jewel) in a row or in column, then only need travelling carriage to move interface according to the distance preset in X-axis or Y-axis and completed successively and inlay.

Simultaneously, in order to meet inlaying of stone implement (jewel) of specific position further, then be provided with rotatable main shaft 5 in the bottom of described workbench 3, the rotation of described main shaft 5, thus make the movement of workbench 3 on Z axis, thus workpiece to be processed is completed entering the rotation on curved surface or R face, thus described edge stone mould 4 is coordinated to complete the operation of edge stone.

As shown in Figure 3, the bottom of described edge stone mould 4 is provided with the groove 6 for blocking stone implement to be inlayed, and this groove 6 designs according to the shape at the top for the treatment of embedding stone implement, and object is to make the stone implement snapped in described groove 6 coordinate consistent with groove 6.Therefore, in order to reach this object, the gradient of the inwall of described groove 6 is consistent with the tangent plane gradient of stone implement to be inlayed.

Adopt the edge cubic meter of stone method of numerical control edge stone equipment described in the present embodiment, concrete steps are as follows:

(1) on workpiece to be machined correspondence position, accomplish fluently the Shi Weikong of customization; This hole, stone position is used for treating that embedding stone implement (jewel) embeds in it, and it can be single, also can be multiple, in a row or in column.

(2) workpiece accomplishing fluently Shi Weikong is positioned on described workbench; The position in this hole, stone position be positioned at immediately below stone implement (jewel) that described edge stone mould 4 blocks within it;

(3) described edge stone mould 4 moves both vertically, and is delivered to by stone implement (jewel) to carry out paw in hole, described stone position and inlay; The pawl number of paw can be 2,3,4 even 5,6, is decided according to the actual requirements.

If the inlaying of single stone implement, then above three steps can complete; If inlaying of multiple stone implement, then also need to carry out following operation:

(4) described travelling carriage 2 moves to next hole, stone position to be processed, then next hole, stone position to be processed is just in time positioned at again immediately below described edge stone mould 4, until all to inlay stone complete hole, all stone positions.

Embodiment 2:

The present embodiment is different from embodiment 1 to be entered to be: adopt numerical control to inlay the stone implement mosaic technology of stone equipment to special surface, its different step is only:

It is rotated by main shaft 6 that described travelling carriage moves to next hole, stone position to be processed, its angle rotated is determined according to predetermined angle, if hole, single stone position need be inlayed, then a step can complete, if hole, multiple stone position need be inlayed, then main shaft 6 completes successively according to predetermined angle, until all inlayed.

Above the technical scheme that the utility model embodiment provides is described in detail, apply specific case herein to set forth the principle of the utility model embodiment and embodiment, the explanation of above embodiment is only applicable to the principle helping to understand the utility model embodiment; Meanwhile, for one of ordinary skill in the art, according to the utility model embodiment, detailed description of the invention and range of application all will change, and in sum, this description should not be construed as restriction of the present utility model.

Claims (3)

1. a numerical control edge stone equipment, is characterized in that:

Comprise support, the travelling carriage of movement on horizontal X axle and Y-axis, workbench and edge stone mould;

Described travelling carriage is positioned at described frame upper surface;

Described workbench is positioned at the upper surface of described travelling carriage;

Described edge stone mould is positioned at above described workbench;

Rotatable main shaft is also provided with bottom described workbench.

2. numerical control edge stone equipment according to claim 1, is characterized in that:

The groove for blocking stone implement to be inlayed is provided with bottom described edge stone mould.

3. numerical control edge stone equipment according to claim 2, is characterized in that:

The gradient of the inwall of described groove is consistent with the tangent plane gradient that stone implement inlayed by band.