RU116265U1 - INTERNAL PROTECTIVE SHELL OF THE BUILDING OF NPP REACTOR - Google Patents

Abstract

 1. The inner protective shell of the building of the reactor of a nuclear power plant, consisting of several tiers, each of which is a metal structure in the form of a large-sized thin-walled cylindrical shell, characterized in that the thin-walled cylindrical shell of each tier is made in the form of a set of separate blocks constructed in a closed assembly-enlargement sites, while the blocks are equipped with means for docking them at the construction site in the design position, embedded products, fittings, tight penetrations and, channel formers, as well as additional elements for joining the blocks in the design position with the formation of a finished metal structure. ! 2. The shell according to claim 1, characterized in that the openings for the transport gateway are made in separate blocks for supplying the necessary equipment and the passage of personnel to the shell.

Description

The utility model relates to the field of nuclear power industry and can be used in the construction of a protective shell of a nuclear power plant building.

To assess the novelty and technical level of a utility model, we consider a number of well-known technical means of a similar purpose, characterized by a combination of features similar to a utility model.

The protective shell of the NPP building is a technical tool consisting of a large-sized thin-walled cylindrical shell, reinforcing cage, pipelines of channeling systems of the prestressing system, designed to prevent the release of unacceptable quantities of radioactive substances from the nuclear reactor into the environment even in the event of an accident.

Significant difficulties are the installation of such a design in the design position. There are special devices for this. So, for example, a device is known for lifting large-sized thin-walled cylindrical shells, including a lifting beam and an associated lifting mechanism. This device is characterized by the fact that the lifting beam is made in the form of a volumetric body, in shape in terms of the corresponding shape in terms of the shell to be lifted, and attached to it or to the structure supporting the shell, see RF patent No. 103100. In this device, the volumetric body can be made in the form of a ring covering the ring to be lifted; the ring can be connected to the hook of the lifting mechanism through a combination of guy wires attached to the ring at several points; guy wires can be attached to the ring at several equally spaced points; braces can be equipped with lanyards; the device can be equipped with an additional upper ring connected to the lifting mechanism, while guy wires are thrown over the blocks of the upper ring and attached to the lower ring at two points; the upper ring can be connected to the lower ring by means of a system of three pulley cables, each of which alternately passes through several blocks mounted on the upper and lower rings.

A disadvantage of such similar designs of large-sized thin-walled cylindrical shells is the difficulty in achieving high quality manufacturing of the structure and installation work carried out directly at the construction site, low efficiency of use of lifting equipment, the need for special lifting equipment to ensure that there is no deformation of the structure when lifting it, a large amount of work produced at height, increasing the overall construction time of the structure

The objective of the utility model is to reduce labor costs to achieve high quality construction and installation, reduce the amount of work at height, increase the efficiency of use of lifting equipment, reduce the overall construction time of the structure.

The essence of the utility model is expressed in the following set of essential features, sufficient to achieve the above technical result provided by the utility model.

The inner protective shell of the NPP reactor building, consisting of several tiers, each of which is a metal structure in the form of a large-sized thin-walled cylindrical shell, characterized in that the thin-walled cylindrical shell of each tier is made as a set of separate blocks constructed in a closed assembly and enlargement area, at the same time, the blocks are equipped with means for their docking at the construction site in the design position, embedded products, fittings, airtight passages kami kanaloobrazovatelyami, as well as fixing elements for docking block design position to form the finished metal.

This is the totality of essential features that provides a technical result in all cases to which the requested amount of legal protection applies.

The claimed technical solution is also characterized by a number of additional optional features, namely:

- openings for a transport gateway are made in separate blocks for supplying the necessary equipment and personnel passage into the shell;

The applicant has not identified sources containing information about technical solutions, the combination of features of which coincide with the combination of distinctive features of the claimed utility model.

Due to the implementation of the distinguishing features of the utility model, a technical result is achieved that the bulk of the metal structures are assembled indoors, and therefore weather conditions do not affect the performance of the work and the quality of the work increases, while monitoring compliance is greatly facilitated work performance technologies and quality control of work performance. In addition, the volume of work at altitude is significantly reduced and the overall construction time is reduced.

The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a general view of one tier of the claimed device assembly; - docking of elements of adjacent blocks of the same tier.

The inner protective shell of the NPP reactor building consists of several tiers, each of which is a metal structure in the form of a large-sized thin-walled cylindrical shell 1, which is made in the form of a set of separate blocks 2, constructed in a closed assembly and enlargement area. Blocks 2 are equipped with means 3 for their joining at the construction site in the design position, embedded products 4, fittings, airtight penetrations, channel formers 5, as well as additional elements 6 for joining the blocks in the design position with the formation of the finished metal structure. In separate blocks 2, holes 7 are made for the transport gateway for supplying the necessary equipment and personnel passage into the shell.

The device operates as follows.

Blocks 2 are assembled under normal conditions of a closed assembly and enlarging site and equipped with means 3 for joining them at the construction site in the design position, embedded products 4, fittings, airtight penetrations for the input and output of special media inside the shell (not shown in the drawings), channel generators 5. Then the blocks are transported to the construction site, installed with the help of lifting mechanisms in the design position, in which adjacent blocks 2 are joined by means of 3, and with the help of additional elements 6, a valves, channel formers in which steel ropes are placed for covering the building of the NPP, with the formation of the finished metal structure 1, into which concrete is then laid.

The possibility of industrial application of the claimed technical solution is confirmed by the known and described in the application means and methods by which it is possible to implement the claimed utility model in the form described in the utility model formula. The claimed device can be implemented industrially using well-known technical means and technologies when lifting the shells of columns of reactors of chemical enterprises, reactor vessels of nuclear power plants, etc.

Claims (2)

1. The inner protective shell of the building of the NPP reactor, consisting of several tiers, each of which is a metal structure in the form of a large-sized thin-walled cylindrical shell, characterized in that the thin-walled cylindrical shell of each tier is made as a set of separate blocks constructed in a closed assembly-enlargement sites, while the blocks are equipped with means for their docking at the construction site in the design position, embedded products, fittings, tight penetrations and, channel formers, as well as additional elements for joining the blocks in the design position with the formation of a finished metal structure. 2. The shell according to claim 1, characterized in that the openings for the transport gateway are made in separate blocks for supplying the necessary equipment and the passage of personnel to the shell.