RU176560U1 - DEVICE FOR PROCESSING CALIBRATED BALLS - Google Patents

Abstract

A device for processing calibrated balls relates to the field of surface treatment of articles of spherical shape and can be used in the jewelry industry for processing calibrated balls from semiprecious and ornamental materials, including mammoth tusk. A device for processing calibrated balls can improve the quality of processing of calibrated balls due to the fact that the utility model contains an internal clamp made with a truncated end protrusion with a ribbed coating, and an external clamp made with a truncated end protrusion with a flat coating. The inner clamp and the outer clamp are located coaxially to each other, between them there is a profile disc mounted on the shaft. 2 of FIG.

Description

The utility model relates to the field of surface treatment of spherical shaped products and can be used in the jewelry industry for processing calibrated balls from semiprecious and ornamental materials, including mammoth ivory.

The closest analogue of the proposed solution for the totality of essential features is patent RU 2294823, 03/10/2007 “Device for processing balls from semiprecious stones”, where on the base are mounted a profile grinding wheel, a circular ball feed unit and a ball transportation unit in the working area. A hopper is provided for automatically loading the balls into the transportation unit in the working area. The latter is made in the form of a separator with pockets, which is mounted in the housing with the possibility of independent rotation. The circular ball feed unit is made in the form of two drive rollers coaxially located on both sides of the separator, having independent rotation from each other.

This machine has a drawback, namely, low speed and a small number of workpieces, which negatively affects the quality of processing balls.

The task to which the claimed utility model is directed is to create a device that provides the necessary quality for processing calibrated balls made of semiprecious and ornamental material, including a mammoth tusk.

The technical result of the proposed utility model is achieved due to the fact that inside the housing there is an internal clamp made with a truncated end protrusion having a ribbed coating, and an external clamp made with a truncated end protrusion having a flat coating. The inner clamp and the outer clamp are located coaxially to each other, between them there is a profile disc mounted on the shaft. At the end of the profile disc there is a recess in which calibrated balls are directly placed. Balls are placed between the inner clamp and the outer clamp directly on the profile disk. The profile disc and clamps are located at a distance from each other, which allows dust not to accumulate between the profile disc and clamps. Cleaning takes place along with the remaining water through the discharge hatch. During the rotation of the profile disk, the movement of which is set by the shaft, the balls begin to freely rotate on the profile disk, while the trajectory of their movement is limited by clamps. Thus, the balls are processed not only by the profile disk, but also by the ribbed surface of the truncated end protrusion of the inner clip. Due to the fact that the truncated end protrusion of the outer clip is made flat, there is no excessive deformation of the calibrated ball, which eliminates the appearance of roughness, unevenness and burrs on the surface. The number of ball hits on truncated end protrusions of the clamps is also reduced, which reduces the risk of ball destruction.

The claimed utility model is illustrated in FIG. 1 and FIG. 2, where: a profile disk (1), a calibrated ball (2), a shaft (3), an internal clip (4), an external clip (5), a feed hatch (6), an unloading hatch (7), a housing (8)

The inventive utility model was demonstrated in a prototype, which allowed to process 35 calibrated balls at the same time. For processing, calibrated balls (2) are poured through the feed hatch (6) into the housing (8), where they are placed on the profile disk (1), between the inner clamp (4) and the outer clamp (5). The clamps (4, 5) are tightened at a sufficient distance to each other manually using the clamp adjustment knob (not shown in Fig. 1 and Fig. 2). Water is added to the housing (8) through the feed hatch (6) and the profile disk (1) is activated by means of the shaft (3). Shaft (3) can be connected to any mechanism specifying rotational motion, or work in manual mode. Processing is carried out for three minutes. At the end of the treatment, the inner clamp (4) and the outer clamp (5) are loosened, the treated balls are unloaded through the discharge hatch (7), which is located at the bottom of the housing. Simultaneously with unloading the balls, the device cleans itself due to the fact that the used water washes away the accumulated dust between the profile disk (1) and clamps (4, 5).

At the end of the treatment, balls with a smooth surface were obtained, without roughness, burrs and chips, and there were no destroyed balls.

When using the claimed utility model, the quality of the processed calibrated balls in a relatively short period of time is significantly improved.

Claims (3)

1. A device for processing calibrated balls made of semiprecious and ornamental materials, comprising a housing with a profile disc placed inside it rotatably, mounted on a shaft, characterized in that it is provided with the inner spacing arranged coaxially with each other, with the possibility of adjusting the distance between them, internal and external clamps, between which the said profile disc is placed, having a recess for accommodating calibrated balls with the restriction of their movement by clamps, the inner clamp made with a truncated end protrusion having a ribbed coating, and the outer clip with a truncated end protrusion having a flat coating, while the body is made with loading and unloading hatches of balls located, respectively, on the top and bottom of the body, providing water supply to the body before start processing after loading balls. 2. The device according to claim 1, characterized in that it is configured to manually adjust the distance between the inner and outer clamps. 3. The device according to claim 1, characterized in that the profile disk and said clamps are located from each other at a distance that provides the ability to clean the device during processing.

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