CS254834B1 - Device for preparation of polycrystalline diamond core sleeves by centering and grinding - Google Patents

Abstract

The solution relates to engineering and grinding technology. It solves a device for preparing sleeves of polycrystalline diamond cores of dies for grinding, the essence of which is that it consists of a support plate with a column in which a guide and clamping prism is formed. The retractable column moves in the guide prism and an optical part is arranged on it. The device is constructed so that the axis of the clamping pin holder coincides with the axis of the centering target in the optical part and in any position the coincidence of these two parts is ensured. This provides a condition for precise centering and gluing of sleeves of die cores.

Description

The invention relates to a device for preparing polycrystalline diamond core cores by centering and gluing them for grinding, comprising an optical part, a carrier plate with a handling part and auxiliary elements.

Currently, polycrystalline diamond core cores are machined by grinding. The starting blanks are flat cylindrical surrogates, which are partially deformed due to previous sintering. The grinding process itself can be divided into three basic parts: grinding of faces, centering of cores to clamping pins * gluing and grinding of core circuits. When machining the faces, both the cemented carbide sleeve and the hard diamond polycrystalline are grinded in the center of the sleeve. Centering and bonding of the die cores are still one of the most complicated and complicated operations and the centering devices used so far are not very accurate and reliable. The core circumferences are machined in such a way that the centered and glued core of the die is circumferentially ground. In this operation, only the cemented carbide sleeve is ground. Approximately one half of the time required for the overall machining of the polycrystalline die core is currently spent on face grinding, the remaining half on centering, gluing and peripheral grinding.

According to the current process, the die cores are ground separately, i.e., clamping one piece at a time. It can be expected that a certain acceleration in the processing of polycrystalline cores can occur if several pieces are grinded simultaneously in one clamping, both when grinding their circuits. In the latter case, that is to say, in the case of the grinding operation of the core circuits, the situation is more complicated due to the need to solve a completely new way of centering the polycrystalline cores into columns.

These disadvantages are overcome by a device for preparing polycrystalline diamond core sleeves by centering them and gluing them for grinding, consisting of an optical part, a carrier plate with a handling part and auxiliary elements according to the invention, characterized in that the column is fixed to the carrier plate. The guide prism is fitted with a retractable post with an optical part consisting of a support plate, on which are attached permanent magnets 2 254 834, in the gap of which is located the centering target and also consists of a manipulation holder firmly connected to ferromagnetic support plate, eyepiece and lighting The clamp prism is formed in the post in which the holder with the clamping pin is mounted.

Unlike the previously used centering fixtures, where only one core was manually centered and glued to the clamping pin, it is now possible in a simple and fast way to center and glue the column of more pieces more precisely and faster than in the old method. The design of this device ensures that mechanical and optical accuracy cannot be impaired even by long-term operation. The device takes full advantage of the optical centering method and, in addition, the optical and mechanical inaccuracies are of the same order.

In the accompanying drawing, FIG. 1 is a perspective view of a construction of a device for preparing polycrystalline diamond core cores for grinding.

The device according to the invention consists of a support plate 11 with a column 2, in which a guide and clamping prism is formed, an extension column 3 which moves in the guide prism and is pushed to the upper position by a recessed spring. On the telescopic post 3 is mounted an optical part consisting of two permanent magnets 4, a carrier plate 5, a centering disc 6, manipulation holders 7 β carrying plates, eyepiece 8 and a light bulb 9. The telescopic post 3 is pushed into the guide prism by a flat spring 10 through the bearing 11. The holder with the clamping pin 12 is held in the prism of the column 2 by means of a spring 13.

The device is adjusted such that the axis of the holder of the clamping pin 12 coincides with the axis of the centering disc 6 in the optical part. The guide prism ensures that, even when the optical part is moved to the stop, into the lower position, the aligned alignment of the centering disc 6 with the axis of the holder pin 12 is still reliably ensured, which is actually a necessary condition for bonding. On this device it is possible to carry out separate bonding individual

254 834 dies or it is possible to carry out gluing in several pieces, ie gluing into columns. Hold the degreased polysilicon diamond core in the tweezers and insert it into the permanent magnet space 4 under the centering disc 6 so that the polycrystalline is as close as possible to the center of the circular cutout of the carrier plate 7. Then grasp the carrier plate holders 7 into the index finger and thumb. while observing in the optic eyepiece 8, center the core on the centering disc 6. The polycrystalline diamond core sleeve is held on the support plate by a magnetic force which ensures a stable position of the centered core and allows easy and quick handling. After centering on the lycryetallic diamond core, an adhesive is applied to the front face in the fixture of the attached holder with the clamping pin 12. Then push down the slide post 3 to the lower position so that the polycrystalline diamond core touches the holder of the clamping pin 12. After some delay, which is given by the handling strength of the adhesive, release the pressure, so that the slide post 3 spontaneously reaches its upper position. In this way, the first die is glued. When gluing further dies into the bundle, we proceed in the same way repeatedly, with the only difference that the adhesive always coats the upper face of the polycrystalline diamond core.

Claims (1)

Device for preparing polycrystalline diamond core cores by centering and gluing them to a grinding, consisting of an optical part, a carrier plate with a handling part and ancillary elements _, characterized in that a column (2) is fixed to the carrier plate (1) in which guide prism a retractable post (3) with an optical part consisting of a support plate (5), on which permanent magnets (4) are mounted, in the gap of which a centering disc (6) is located and further comprising a manipulation holder (7) firmly connected with a ferromagnetic carrier plate, an eyepiece (8) and a lighting bulb (9), a column (2) having a clamping prism in which a holder with a clamping pin (12) is mounted.