RU2279349C2 - High-pressure press - Google Patents

Abstract

FIELD: mechanical engineering; production of the high-pressure press.

SUBSTANCE: the invention is pertaining to the field of mechanical engineering, in particular, to the high-pressure press for compression of the containers with the radioactive contents. The press contains the top die movable in respect to the low die. Cross-section of the top die is made only slightly smaller, than the cross-section of the low die, which is closing at least on the single areas the container. In addition to the first operational position the press has the capability to adjust at least one more operational position with the modified cross-section of the top die and with the matched to it modified cross-section of the low die for compression of the various containers. There is a possibility to use the modified cross-sections of the top die and the low die in the second operational position due usage of the matched with the top die and also with the low die detachable forming component. As a result the invention allows to eliminate the operation of reloading, and also to minimize the possible expenses coupled with the handling of the wastes and ensures the minimal possible irradiation of workers.

EFFECT: the invention allows to exclude the operation of reloading, to minimize the possible expenses for the handling of the wastes, ensures the minimal possible irradiation of workers.

12 cl, 1 dwg

Description

The invention relates to a high-pressure press for compressing a container with radioactive contents by means of a punch moving relative to the matrix, the cross section of which is made only slightly smaller than the matrix cross section, covering at least in some parts of the container.

A large amount of waste is generated in nuclear installations, which, due to their origin, can be more or less contaminated. These radioactive contaminated waste should be provided with proper disposal. Since the total available disposal volume is limited, it is advisable that the radioactive contaminated waste be pressed to the minimum possible volume.

Along with other methods of reducing the volume of radioactive contaminated waste, it is envisaged, for example, to pack the latter into containers, the so-called deformable cylinders. These containers can then be compressed together with their radioactive contents. A high pressure press can be used to compress the containers. In such a high-pressure press, a high pressure of about 200 bar is usually applied to the container by means of a punch, the container being fixed in the die. Pressed in this way deformable cylinders, the so-called tablets or press products, are then placed in the appropriate packaging kits for burial and, after closing, are stored in the appropriate repository or intermediate storage.

However, in practice, the use of such a high-pressure press encounters the difficulty that radioactive contaminated waste from the containers into which they are collected must first be loaded into a container suitable for compression. This additional work step is time consuming and, in addition, immensely endangers the exposure of the workers concerned.

Therefore, the object of the invention is to provide a high-pressure press for compressing a container with radioactive contents, which eliminates the overload operation. This ensures, in particular, the achievement of the minimum possible costs associated with the handling of waste, as well as the minimum possible exposure of workers.

This problem is solved in accordance with the invention due to the fact that in addition to the first working position on the high-pressure press, at least one more working position with a changed punch cross-section, as well as a cross-section of the die matched to the changed punch cross-section for compression of various containers.

In this case, the invention proceeds from the consideration that by adapting the cross section of the punch and die to different containers, the radioactive waste can be compressed in the same containers into which they were collected. This avoids the additional costs necessary in accordance with the prior art associated with the handling of radioactive contaminated waste during its transshipment into containers suitable for compression. However, personnel exposure can also be significantly reduced. Thanks to the adjustable working positions of the high-pressure press, various containers can be compressed without large losses of time and the cost of retooling on the same high-pressure press.

A particularly preferred embodiment of the high pressure press is achieved in that the sections have an adjustable area. Therefore, it is possible to compress containers of various sizes, for example deformable cylinders with different diameters.

Another preferred embodiment is achieved in that the sections have an adjustable geometry. Due to this, it is also possible to compress containers with different geometric shapes in a high-pressure press, for example containers with a round and square forming surface.

Another particularly expedient improvement of the high-pressure press is created due to the fact that the changed sections in the second working position are achieved due to the shaped element coordinated with the punch and the matrix. Thus, the change in the cross sections of the punch and the matrix can be carried out exclusively due to the shaped element. The shape and dimensions of the punch, as well as the matrix, remain unchanged.

Another particularly preferred embodiment of the high-pressure press is achieved in that the corresponding shaped element is mounted to move on the punch and on the die. This makes it possible to quickly adapt the cross sections of the punch and die to various sizes and shapes of containers. In this case, the shaped element for the punch can, for example, be rotated so that different sections act respectively on different containers. In turn, to adapt to the cross section of the punch and to adapt to the appropriate shape and size of the container, the shaped element for the matrix can be rotated and installed in such a way that various recesses are used.

Another particularly suitable embodiment of the high-pressure press is realized due to the fact that in order to achieve a different working position, the corresponding shaped element can be fixed as necessary on the punch and / or die. Due to this, it is possible to fix the shaped element on the punch and / or die only when it is necessary to compress a container that deviates from the shapes and / or sizes of standard containers.

Moreover, it turned out to be especially practical that the corresponding shaped element is replaceable. Thanks to this, high flexibility is achieved, since within a short time it is possible to adapt a high-pressure press to almost all possible shapes and sizes of containers.

Another particularly practical embodiment is achieved in that the shaped element coordinated with the punch is made as a punch sleeve, and the shaped element coordinated with the matrix is made as a matrix sleeve. Thanks to this, a change in the cross sections of the punch and die is achieved in a particularly simple and effective way. The use of punch sleeves with different external sizes and matrices of the matrix matched with them allows compressing containers of various sizes in a high-pressure press. The ability to match the punch with two or more corresponding sleeves, as well as the matrix with two or more corresponding sleeves, provides compression in a certain interval of almost all possible container sizes, which results in a significant expansion of the flexibility range. Due to the fact that the sleeves during compression of the containers cover the entire loaded area of the punch and die, only the sleeves should be made as wearing elements and made of a material that can withstand significant loads when pressed in a high pressure press. The punch and die are not particularly loaded at the time of pressing and therefore can be made, for example, of ordinary steel. This means a significant cost advantage and the simple possibility of replacing wearing parts.

A more detailed embodiment of the invention is illustrated by means of the drawing, which shows a high-pressure press 1 for sealing a container 2 with radioactive contents in the working position. It includes a punch 4 and a die 6. The high-pressure press 1 is located vertically, the punch 4 being located above the die 6. Alternatively, the high-pressure press 1 can also be inclined or horizontal.

The punch 4 and the matrix 6 are mounted on two columns 8 and move in the direction of compression indicated by arrow x . To avoid waste and dirt getting into the high-pressure press 1, the punch 4 and the die 6 are interconnected by a bellows 10. In the shown working position, the die 6 is in the lowered position and covers the container 2 located on the base plate 12. The punch 4 with the head located on it 14 is in the abutment position of the container 2.

To seal the container 2, the punch 4 is moved due to the high pressure of approximately 200 bar in the compression direction, while the container 2 is compressed into a so-called mold or tablet.

To ensure the movement of the punch 4 in the compression direction, the cross section 16 of the punch 4 is made only slightly smaller than the cross section 18 of the matrix 6. Since the matrix 6 covers the container 2 at least partially, the shape and size of the container 2 compressed by the high pressure press depends on the shape and the size of the cross section 18 of the matrix 6, and therefore also on the shape and size of the cross section 16 of the punch 4.

But in order to be able to seal, for example, a container 2 with various sizes by means of a high-pressure press 1, the punch 4 is provided with a sleeve 20, which can be put on the punch 4 or fixed on it. This allows you to change the effective cross section 16 of the punch 4. The matrix 6 is consistent with the sleeve 22, which changes the cross section 18 similar to section 16. Thanks to the use of the pockets 20 of the punch with different outer sizes and the corresponding sleeve 22 of the matrix, it is possible to compress containers 2 with different sizes in the press 1 high pressure. Can also be used selectively several located one on top of the other sleeve 20 of the punch and several located one in the other sleeve 22 of the matrix.

Claims (12)

1. A high pressure press (1) for compressing the container (2) with the radioactive contents by means of a punch (4) movable relative to the matrix (6), the section (16) of which is made only slightly smaller than the section (18) of the matrix (6), which closes at least in certain areas of the container (2), and in addition to the first working position, the high-pressure press (1) has the ability to configure at least one more working position with a modified cross-section (16) of the punch (4), as well as section (1) consistent with the modified section (16) of the punch (4) 8) matrices (6) for compressing various containers (2), characterized in that the modified sections (16,18) have the ability to be installed in the second working position due to the interchangeable shaped element coordinated with the punch, as well as with the matrix. 2. Press (1) according to claim 1, characterized in that the cross-sections (16.18) have an adjustable area. 3. Press (1) according to claim 1 or 2, characterized in that the sections (16, 18) have an adjustable geometry. 4. Press (1) according to claim 1 or 2, characterized in that the corresponding shaped element is mounted with the possibility of movement on the punch (4) or on the matrix (6). 5. Press (1) according to claim 3, characterized in that the corresponding shaped element is mounted with the possibility of movement on the punch (4) and on the matrix (6). 6. Press (1) according to any one of claims 1, 2, 5, characterized in that in order to achieve another working position, the corresponding shaped element can be fixed as necessary on the punch (4) and / or matrix (6). 7. Press (1) according to claim 3, characterized in that in order to achieve another working position, the corresponding shaped element can be fixed as necessary on the punch (4) and / or matrix (6). 8. Press (1) according to claim 4, characterized in that in order to achieve another working position, the corresponding shaped element can be fixed as necessary on the punch (4) and / or matrix (6). 9. Press (1) according to any one of claims 1, 2, 5, 7, 8, characterized in that the shaped element coordinated with the punch (4) is made as a punch sleeve (20), and the shaped element coordinated with the matrix (6) - as the sleeve (22) of the matrix. 10. Press (1) according to claim 3, characterized in that the shaped element coordinated with the punch (4) is made as a punch sleeve (20), and the shaped element coordinated with the matrix (6) is made as a matrix sleeve (22). 11. Press (1) according to claim 4, characterized in that the shaped element coordinated with the punch (4) is made as a punch sleeve (20), and the shaped element coordinated with the matrix (6) is made as a matrix sleeve (22). 12. Press (1) according to claim 6, characterized in that the shaped element coordinated with the punch (4) is made as a punch sleeve (20), and the shaped element coordinated with the matrix (6) is made as a matrix sleeve (22).