RU2078661C1 - Chamber for explosive treatment of materials - Google Patents

Abstract

FIELD: plastic working of materials, in particular, production of supersolid synthetic substances, for instance, ultra-dispersed diamonds. SUBSTANCE: chamber has housing with central part, cover and bottom, stand for material to be treated. Cover and bottom are provided with axially aligned central openings. Stand is positioned in upper part of cover opening and bottom has radial openings connected with its central opening. Cover may be made elongate and formed as thick-walled tube partially disposed in central part of housing. Radial openings in bottom are made inclined. Chamber is provided with conical baffle for deviating products of explosion. Baffle is mounted in central opening of bottom. EFFECT: increased efficiency, enhanced reliability in operation and improved quality of treated product. 6 cl, 1 dwg

Description

 The invention relates to the processing of materials by pressure, in particular a shock wave, and can be used in the processing of explosive materials to produce superhard synthetic substances, for example ultrafine diamonds (UDD).

 Known chamber for explosive processing of metals (AS USSR N 616731), containing a cylindrical body with a screen fixed inside it and adjoining the bottom and cover.

 Also known chamber for explosive processing of metals by AS USSR N 875706, selected as a prototype, containing a housing consisting of a central part made in the form of cylinders concentrically mounted with a gap and adjacent bottoms and a cover fixed by a lock, the inner cylinder being installed freely and with a gap relative to the cover, and at the ends the outer cylinder is made covering the ends of the inner cylinder protrusions, centering the latter along the axis. At the bottom there is a reinforced object table for placing the workpiece on it. The disadvantages of both the analogue and the prototype include limited operational capabilities, since in cameras of this type, after each explosion, the camera must be opened to extract the processed material and clean its internal cavity.

 Thus, the task is to create a chamber for explosive processing of materials with wide operational capabilities due to increased productivity of the chamber. The technical result in solving this problem will be expressed in repeated use of the camera without opening it.

 This is achieved due to the fact that in the chamber for explosive processing of materials containing a housing consisting of a central part, a cover and a bottom, and an object table for installing the processed material on it, according to the invention, the cover and the bottom are provided with central holes located coaxially with this subject table is placed in the upper part of the opening of the cover, and the bottom is provided with radial holes made paired with its Central hole. In addition, the cover is made of an elongated shape in the form of a thick-walled pipe, partially located in the central part of the body, and the radial holes of the bottom are made inclined. In addition, the camera can be equipped with a divider of explosion products, which is made in the form of a cone and is installed in the central hole of the bottom.

 A comparative analysis of the invention with the prototype shows that the inventive chamber differs from the known one in that new features have appeared in it, associated with increasing the productivity of the chamber for explosive processing of materials. Thus, the claimed invention meets the criterion of "novelty."

 The causal relationship between the technical result and the means to achieve it is due to the fact that thanks to the invention it was possible to create an open chamber in which the processed material is removed from the chamber without opening it.

 The drawing shows a variant of the chamber for explosive processing of materials in the secondary processing of energy materials to produce ultrafine diamonds (UDD). The chamber contains a housing consisting of the central part 1 of the cover 2 and the bottom 3. In the cover 2 there is an object (ice) table 4 on which an explosive charge (BB) 5 is installed with a detonator capsule (CD) 6 enclosed in an ice shell 7 The cover 2 has an elongated part 8 included in the central part 1 of the housing, and a cylindrical hole 9, which is made coaxial hole 10 of the bottom 3. In this bottom there are several radial holes 11, paired with the hole 10, and a divider 12 mounted coaxially to the hole 9 covers 2.

 The device operates as follows.

 When the detonator capsule 6 is activated, explosive (phase) transformation of the explosive charge 5 occurs, the ice platform 4 and the ice shell 7 are installed in the cover 2. The expanding explosion products, partially cooled at the initial time after the explosion due to the presence of the ice shell 7 and ice object table 4, rush down the cylindrical hole 9 and, reaching the divider 12, through the hole 10 fall into the radial holes 11. Then the practically cooled PV passing through the radial holes 11 fall into the container EASURES-collectors (not shown) mounted on the camera side.

 After the described cycle, the camera is ready for operation again, as there is no need to open it to extract the PV and clean it. Everything happens automatically.

 The problem is solved. The camera can be used repeatedly with high performance. The durability of the chamber depends only on the characteristics of the material of the nodes of the chamber, capable of withstanding a certain number of explosive cycles.

Claims (6)

 1. A chamber for explosive processing of materials, comprising a housing consisting of a central part, a lid and a bottom, and an object table for installing the material to be processed on it, characterized in that the lid and the bottom are provided with central holes arranged coaxially, the object table placed in the upper part of the opening of the cover, and the bottom is provided with radial holes made paired with its Central hole.  2. The camera according to claim 1, characterized in that the lid is made of elongated shape in the form of a thick-walled pipe, partially located in the central part of the housing.  3. The chamber according to claim 1, characterized in that in it the radial holes of the bottom are made inclined.  4. The camera under item 1, characterized in that it is equipped with a divider of the explosion products.  5. The camera according to claim 4, characterized in that in it the divider is made in the form of a cone.  6. The chamber according to claim 4, characterized in that in it the divider is installed in the central hole of the bottom.