RU87184U1 - SPACE OF PHYSICAL PROTECTION OF IT-SYSTEMS "SECURITY MODULE" - Google Patents

Abstract

1. The physical protection room of IT systems, including a rigid base on which a power metal frame is installed, containing walls and a ceiling, which are made of racks and beams with internal and external thermally insulating screens and a metal protective shield from electromagnetic radiation fixed to them, characterized in that the racks and beams of the frame are made of pipes of rectangular cross-section, on the inner and outer faces of which along their entire length thermally insulating linings of fire-resistant material are fixed, while additional mounting plates are also attached to the external overlays from the outside, also made of fire-resistant material, the frame elements are larger in width, the internal and external heat-insulating screens are made of fire-resistant plates, while external fire-resistant plates are attached to the mounting plates, and internal fire-resistant plates are attached to the internal plates, and between the external and internal fire-resistant boards there are mineral wool heat-insulating boards. ! 2. The physical protection room of IT systems according to claim 1, characterized in that the inner and outer plates are made in the form of strips of a width equal to the width of the rack and / or beam, and the mounting plates are made of a width of 1.1-2.0 width racks and / or beams. ! 3. The physical protection room of IT systems according to claim 1, characterized in that the thermally insulating linings, as well as the internal and external fire-resistant boards, are made of Promatect-H material. ! 4. The physical protection room of IT systems according to claim 1, characterized in that the external plates, additional mounting plates and external thermally insulating plates are made of 10-30 mm thick. ! 5. Room physical

Description

The utility model relates to collapsible-type building constructions intended for comprehensive physical protection of hardware and telecommunication equipment located in a room.

A protective technological room is known (EP 1804565, class N05K 9/00, EV 1/94, E04F 13/08, EN 1/12, 04/07/2007), including a rigid base on which a power metal frame is installed. A grounded metal protective shield against electromagnetic radiation and a thermally insulating shield are fixed on the frame. The power frame is made of prefabricated panels (walls, floor and ceiling), to which are mounted on the inside with a through fastening (screws and bolts) a thermal insulating screen based on mineral filler.

However, due to the assembly technology of the known protective room, an increased installation distance (up to 30 cm) from the walls and ceiling is required, which significantly reduces the usable volume of the room itself. In addition, the design is difficult to manufacture and to install.

The objective of the utility model is to simplify the design in manufacturing and during installation and to reduce production costs.

The technical result of the utility model is to minimize the loss of usable volume of the protected space, due to the possibility of assembling the structure from the inside and reducing material consumption.

The task and, as a consequence, the specified technical result are achieved by the fact that in the physical protection room of IT systems, including a rigid base on which a power metal frame is installed, containing walls and a ceiling which are made of racks and beams with internal and external heat-insulating screens fixed to them and a metal shield against electromagnetic radiation, according to a utility model, the struts and frame beams are made of rectangular pipes, on the inner and outer faces of which along their entire length, heat-insulating linings made of flame-retardant material are fixed, while additional mounting plates are attached to the external linings from the outside, also of fire-resistant material, the frame elements exceeding the width, the inner and outer heat-insulating screens are made of fire-resistant plates, while external linings are attached to the mounting plates fire-resistant plates, and to the inner plates - internal fire-resistant plates, and between the external and internal fire-resistant plates there are heat-insulating plates and mineral wool. Internal and external overlays are made in the form of strips with a width equal to the width of the rack and / or beam, and mounting plates are made of a width of 1.1-2.0 of the width of the rack and / or beam. Thermally insulating linings, as well as internal and external fire-resistant boards, it is advisable to perform the material Promatect-H. At the same time, external linings, additional mounting plates and external heat-insulating plates are mainly performed with a thickness of 10-30 mm, and internal linings and internal heat-insulating plates are 6–20 mm thick. As a rule, heat-insulating plates are made of basalt material, and the metal shield against electromagnetic radiation is made of galvanized sheet with a thickness of 1.5-2.5 mm. A metal shield is attached to the insulating shield from the inside. Fastening of internal and external plates to racks and beams, as well as mounting plates to external plates, is carried out using self-tapping screws, on which thermal washers are installed on top. Thermally insulating fire-resistant plates are attached to the internal and mounting plates also with the help of self-tapping screws, on which thermowells are installed on top.

The implementation of the struts and frame beams of rectangular pipes allows to simplify the installation of the physical protection room, due to the fact that it is more convenient to fix thermal insulating linings on the flat surfaces of the pipes, which are necessary to protect the metal structure from overheating. Given that when high temperatures occur, metal structures, having high thermal conductivity, are good heat transmitters. Therefore, to reduce the thermal conductivity of the structure and increase the protection of the room, insulating pads are attached to the beams and racks of the frame from the inside and outside using self-tapping screws. These pads made of Promatect-H material, on the one hand, well protect the structural elements from overheating, and on the other hand it is convenient to attach heat-insulating screens to them, due to the flat surface. The presence of heat-insulating mounting plates made in the form of strips whose width exceeds the width of the uprights and frame beams by 1.1-2.0 widths of the uprights and / or beams ensures reliable connection of the external heat-insulating screen and, therefore, increased protection of metal racks and beams from the external side. Reducing the width of the mounting plates less than 1.1 of the width of the racks will create inconvenience when mounting the frame, and increasing the mounting plate over double the width of the racks is impractical and will lead to unnecessary consumption of material. Mounting plates provide the ability to mount the physical protection room from the inside, allowing this structure to be located in close proximity to the internal walls of the building, thereby minimizing the loss of free space of the safety module. The implementation of strips in the form of strips saves Promatect-H material, while ensuring high protection of the frame from overheating.

The location between the external and internal fire-resistant plates of mineral wool insulation panels will further increase the thermal insulation of the protective room. The use of Promatect-H as material for heat-insulating screens and linings provides high and reliable protection against fire and high temperatures. In this case, the thickness of the Promatect-H 10-30 mm, which allows to withstand higher temperatures and for a longer time, was selected for external thermally insulating plates and overlays, and the thickness of the inner linings and internal thermally insulating plates is sufficient 6-20 mm, because from the inside, the temperature will be lower. To protect against electromagnetic radiation, the implementation of a metal protective shield from a galvanized sheet with a thickness of 1.5-2.5 mm is sufficient, while with a sheet thickness of less than 1.5 mm, the protection will be ineffective, and exceeding the thickness of more than 2.5 mm is impractical. The implementation of racks and beams thermally protected, to which inside of a certain way elements of protective shields are sequentially attached from the inside, collectively perform thermo-insulating and steam-waterproofing functions. The fastening of internal and external plates to racks and beams, as well as mounting plates to external plates and heat-insulating fire-resistant plates using self-tapping screws, on which thermal washers are mounted on top, prevents the creation of "bridges to cold weather, creating increased thermal insulation.

The physical security room of the IT systems “Security Module” is illustrated by the following drawings, where FIG. 1 shows a general view of the security module in a perspective view; figure 2 - fastening of heat-insulating screens and pads to the frame, a cross section, figure 3 is an enlarged section of the mounting element.

The physical security room of the IT systems “Security Module” includes a rigid base 1 on which a power metal frame is installed, containing walls and a ceiling that are assembled from uprights 2 and beams 3. Racks 2 and beams 3 made of rectangular pipes are attached internal heat-insulating screen 4 and external heat-insulating screen 5 in the form of fire-resistant boards made of Promatect-H material. At the same time, a metal protective shield 6 from electromagnetic radiation from a galvanized sheet with a thickness of 1.5-2.5 mm is attached from the inside to the inner screen 4. On the inner faces of the uprights 2 and beams 3 along their entire length, internal thermo-insulating linings 8 made of flame-retardant material Promatect-H are fixed with screws 7, the thickness of which is 6-20 mm, and on the external faces - external thermo-insulating linings 9 also made of flame-retardant Promatect-H, 10-30 mm thick. Mounting plates 10 are also attached externally to the outer plates 9, also of the flame-retardant material Promatect-H. Mounting plates 10 are made in width exceeding the width of the uprights 2 and beams 3. The inner and outer heat-insulating screens 4 and 5 are made of fire-resistant boards made of Promatect-H material. The external fire-resistant plates 11 are attached to the mounting plates 10, and the internal fire-resistant plates 12 are attached to the internal plates 8. Heat-insulating plates 13 made of mineral wool, usually made of basalt material, are located between the external and internal fire-resistant plates 11 and 12. Self-tapping screws 7 with the help of which the insulating elements are attached to the posts 2 and the beams 3 of the frame are equipped with thermal washers from above.

The physical security room of IT-systems “Security module” is mounted as follows.

Along the perimeter of the physical protection room on a rigid base 1, the frame support is assembled, on which the fire door and vestibule box is installed (not shown in Fig.) And proceed to the assembly of the frame. Why, with a step corresponding to the width of the external fire-resistant plate 11, racks 2 are installed on which the inner 8, external 9 and mounting plates 10 are pre-fixed with screws 7. Then, beams 3 of the ceiling are attached to the racks 2 with connecting elements, on which also With the help of self-tapping screws 7, internal 8, external 9 and mounting plates are fixed 10. Between the walls of the building and the racks 2 of the frame, external fire-resistant plates 11 are inserted, which are then fixed with screws 7 from the inside of the room to the mounting plates 10. Between themselves second plate 11 bonded flame retardant filler (Fig. not shown). Next, between the posts 2 of the frame, heat-insulating plates 13 made of mineral wool are installed, which are closed from the inside with internal fire-resistant plates 12 made of Promatect-H material, attaching them with self-tapping screws 7 to the internal heat-insulating plates 8. The assembly procedure for the ceiling is similar. From the inside, a metal protective shield 6 is attached to the formed inner thermally insulating screen 4. All self-tapping screws 7 are equipped with thermowells that ensure the exclusion of “cold bridges”. The physical security room of the IT systems “Security Module” is ready for operation.

Due to the fact that mounting plates 10 are pre-attached to the racks 2 and beams 3, it is possible to assemble the room from the inside, which, in turn, allows you to place this room in close proximity to the external walls of the building, thereby increasing the area of the IT- physical protection room systems without compromising the basic characteristics of the “Security Module”. At the same time, this design can significantly reduce its cost by 11-13 thousand rubles / m ² due to material savings. The ability to install the room from the inside increases the ease of assembly.

The utility model is currently at the design stage. Preparing a prototype.

Claims (9)

1. The physical protection room of IT systems, including a rigid base on which a power metal frame is installed, containing walls and a ceiling, which are made of racks and beams with internal and external thermally insulating screens and a metal protective shield from electromagnetic radiation fixed to them, characterized in that the racks and beams of the frame are made of pipes of rectangular cross-section, on the inner and outer faces of which along their entire length thermally insulating linings of fire-resistant material are fixed, while additional mounting plates are also attached to the external overlays from the outside, also made of fire-resistant material, the frame elements are larger in width, the internal and external heat-insulating screens are made of fire-resistant plates, while external fire-resistant plates are attached to the mounting plates, and internal fire-resistant plates are attached to the internal plates, and between the external and internal fire-resistant boards there are mineral wool heat-insulating boards. 2. The physical protection room of IT systems according to claim 1, characterized in that the inner and outer plates are made in the form of strips of a width equal to the width of the rack and / or beam, and the mounting plates are made of a width of 1.1-2.0 width racks and / or beams. 3. The physical protection room of IT systems according to claim 1, characterized in that the thermally insulating linings, as well as the internal and external fire-resistant boards, are made of Promatect-H material. 4. The physical protection room of IT systems according to claim 1, characterized in that the external plates, additional mounting plates and external thermally insulating plates are made of 10-30 mm thick. 5. The physical protection room of IT systems according to claim 1, characterized in that the inner linings and internal heat-insulating plates are made of 6-20 mm thick. 6. The physical protection room of IT systems according to claim 1, characterized in that the heat-insulating boards are made of basalt material. 7. The physical protection room of IT systems according to claim 1, characterized in that the metal shield against electromagnetic radiation is made of a galvanized sheet with a thickness of 1.5-2.5 mm and is attached to the heat insulating screen from the inside. 8. The physical protection room of IT systems according to claim 1, characterized in that the fastening of the internal and external plates to the racks and beams, as well as mounting plates to the external plates, is carried out using self-tapping screws, on which thermal washers are installed on top. 9. The physical protection room of IT systems according to claim 1, characterized in that the heat-insulating fire-resistant plates are attached to the inner and mounting plates using self-tapping screws, on which thermal washers are mounted on top.