RU2299963C1 - Safe (variants) - Google Patents

Abstract

FIELD: engineering of devices for storing valuables, namely, safes.

SUBSTANCE: safe includes body and door, containing fibrous concrete. Body is made of fibrous concrete in form of monolithic structure and provided with frame contouring the door aperture, made of metallic stripes, positioned on ends of walls of face side of body. Frame contains longitudinal armature elements, positioned in body of fibrous concrete perpendicularly to stripes and rigidly connected thereto by welding, and closed element made of pipes, positioned along contour of door aperture. Metallic stripes of frame are welded to closed element, overlapping it by internal side. Second variant of safe realization includes presence of internal metallic walls. In this case for reinforcing door aperture internal walls and longitudinal armature elements of frame are made with bends on ends. Bends are positioned in parallel to ends of body walls, overlapping each other and are welded together.

EFFECT: decreased metal costs and weight of safe while ensuring required class of resistance to break-in.

2 cl, 3 dwg

Description

The invention relates to devices for storing valuables, namely, safes that can be used in banks, valuables, credit organizations and office premises, as they have increased protection against unauthorized entry with a fairly high degree of fire resistance.

Known safe, the wall of which contains the outer and inner metal layers, between which are several layers of steel reinforcement, welded together and molten metal with high thermal conductivity (RF patent No. 2057881, MKI E 05 G 1/024, 04/10/1996). This design is monolithic and has increased resistance to drilling and burning, that is, it is resistant to breaking, while the design is quite complex and has an increased metal consumption, and hence a high manufacturing cost.

A well-known safe with increased reliability, having a double-walled case and a door with a locking device, between the walls of which there is a filler, including glass-filled concrete elements of solid natural materials, such as gravel, pebbles, granite (RF patent No. 2061167, MKI E 05 G 1/024, 27.05. 1996). The proposed design of the safe has a lower metal consumption compared with the structure discussed above, however, while its metal consumption remains quite high. In addition, glass concrete, despite the presence of a filler made of solid natural materials, has low crack resistance when exposed to dynamic loads, such as shock.

The closest analogue of the present invention is a safe containing a case and a door having double walls, in which are fittings made in the form of a metal mesh or lattice, and fiber concrete with a filler made of metal fiber randomly located in it (RF patent No. 2209287, MKI E 05 G 1/024, 07/27/2003). When using fiber-reinforced concrete, the structure's resistance to dynamic loads (shock) is increased, while this design has a high metal consumption.

An object of the present invention is to reduce the metal consumption of a safe structure while maintaining its resistance to cracking.

The problem is solved in the design of the safe, including the case and the door containing fiber concrete, in which according to the invention the case is made of fiber concrete in the form of a monolithic structure and is equipped with a bordering doorway frame made of metal strips placed on the ends of the walls of the front side of the case containing longitudinal reinforcing bars elements placed in the body of fiber concrete perpendicular to the strips and rigidly connected to them by welding, and a closed element made of pipes, placed along the contour of two the aperture, while the metal strip of the frame is welded to the specified element with an overlap inside.

The case of the safe may contain internal walls formed by the walls of a metal box placed in the case.

In the second embodiment, according to the present invention, the safe includes a housing and a door containing fiber-reinforced concrete, the housing being made of fiber-reinforced concrete in the form of a monolithic structure and containing internal walls formed by the walls of a metal duct placed in the housing, the safe being provided with a bordering doorway made of metal strips placed on the ends of the walls of the front side of the housing, and containing longitudinal reinforcing elements placed in the body of fiber concrete perpendicular to the strips and rigidly connected with by welding, and the inner walls and longitudinal reinforcing elements of the frame are made with bends at the ends located parallel to the ends of the walls overlapping each other and welded together, while the metal strips of the frame are welded to the overlaps of the inner walls from the outside.

In both versions, the safe may contain similar finishes.

The housing may be provided with a protective outer layer made of epoxy material reinforced along the edges of the housing with a mesh of synthetic material and containing pigment.

Fiber concrete may contain colored cement, while the outer surface of the body is polished (without a protective layer or with a protective layer), and the frame is additionally equipped with a frame made from a corner, placed on the outer edges of the front side of the body and welded to the metal stripes of the frame along the contour.

The outer and / or inner surfaces of the safe can be equipped with a finishing layer made of metal foil with a thickness of 0.3-0.5 mm or a thin metal sheet with a thickness of 0.5-1.0 mm.

To ensure the fire resistance of the safe, fiber-reinforced concrete may contain refractory cement, for example, alumina cement, while the safe door is equipped with a temperature-expandable sealant installed along its contour.

The implementation of the safe according to the first and second options allows, while ensuring the required resistance to cracking class, to reduce the metal consumption of the safe compared to the closest analogue by 5-8 times and weight by 10-15%.

The invention is illustrated by an example implementation with reference to the accompanying drawings, which show the following.

Figure 1 - safe, made according to the first embodiment, top view, section.

Figure 2 is the same with a metal foil finish.

Figure 3 - safe made in the second embodiment, a top view, a section.

The safe, as shown in figure 1, includes a housing 1 and a door 2. The housing 1 is made of fiber concrete 3 in the form of a monolithic structure and is equipped with a bordering doorway frame. The frame is made of metal strips 4 located at the ends 5 of the walls of the front side of the housing 1, and contains longitudinal reinforcing elements 6 and closed element 7 made of pipes.

Reinforcing elements 6 are placed in the body of fiber-reinforced concrete 3 perpendicular to the strips 4 and are rigidly connected to them by welding. The closed element 7 is placed along the contour of the doorway, while the metal strip 4 is welded to the element 7 with an overlap inside. The door 2 of the safe is attached to the closed element 7 by means of hinges 8.

The housing 1 may contain internal metal walls 9, made in the form of a box placed in a monolithic structure of fiber concrete 3.

The safe, made according to the second embodiment (figure 3), also includes a housing 1 and a door 2 containing fiber concrete 3, and the housing 1 is made of fiber concrete 3 in the form of a monolithic structure. The safe is equipped with a bordering doorway frame made of metal strips 4 located at the ends 5 of the walls of the front side of the housing 1, and containing longitudinal reinforcing elements 6 placed in the body of fiber concrete 3 perpendicular to the strips 4 and rigidly connected with them by welding. The difference between the second embodiment of the safe and the first option is the mandatory presence of internal metal walls 9 in the structure, while there is no closed element made of pipes 7. In this case, to strengthen the doorway, the internal walls 9 and the longitudinal reinforcing elements 6 of the frame are made with bends 10 , 11 respectively at the ends. Bends 10, 11 are located parallel to the ends 5 of the walls of the housing 1 lap to each other and are welded together. Metal strips 4 frames are welded overlap to the bends 10, 11 of the inner walls 9 from the outside.

The casing 1 is provided with a protective outer layer 12 made of epoxy material, for example, an epoxy putty reinforced with synthetic finishing mesh 13 along the edges of the casing 1. The protective material may contain pigments to give the outer surfaces of the safe the desired color.

The outer and / or inner surfaces of the safe body, made according to the first embodiment, can be equipped with a finishing layer 14 made of a metal foil with a thickness of 0.3-0.5 mm or a thin metal sheet with a thickness of 0.5-1.0 mm (in FIG. .2 shows the outer finishing layer 14, the placement of the inner finishing layer is similar to the placement of the inner metal walls 9, the difference lies only in the thickness of the material).

Obtaining a colored surface of the housing 1 can also be achieved by performing fiber-reinforced concrete 3 based on colored cement. In this case, the outer surface of the housing 1 is polished, and the frame is additionally equipped with a frame 15 made of a corner, placed on the outer ribs of the front side of the housing 1 and welded to the metal stripes 4 of the frame along the contour.

When implemented in the second embodiment, the safe may contain only the outer metal finish layer 14. The sheets of foil in this case are placed on the lateral, upper and lower outer surfaces of the housing 1, while their edges are bent towards its rear surface.

Fiber concrete 3 can be made on the basis of refractory cement, for example, alumina cement having a high content of aluminum dioxide (Al ₂ O ₃ ), while the door 2 is equipped with an intumescent seal 16 installed along its contour.

4 frame is welded from metal strips, reinforcing elements 6 and element 7 made of pipes are welded to it. Metal walls are welded in the form of a duct 9. The resulting structural elements are placed in a collapsible formwork. Then the space between the walls of the formwork and the inner walls 9 is filled with fiber-reinforced concrete 3. If the structure does not contain inner walls 9, use an internal collapsible formwork. After exposure of the fiber-reinforced concrete to a set of strength, the housing 1 is removed from the formwork, the door 2 is installed and finished using one of the above methods.

Tests have shown that a safe made according to the first embodiment of the present invention, without internal metal walls, corresponds to I-II classes of resistance to burglary. The presence of one of the metal walls, even one finishing wall made of foil, makes it possible to increase the resistance of the safe to breaking to class III-IV, since breaking in this case requires the use of two dissimilar tools, for example a jackhammer for fiber concrete and a gas cutter for metal.

The design made according to the present invention according to any of the options contains a minimum amount of metal compared with known analogues, with the same resistance to breaking.

Claims (11)

1. Safe, comprising a housing and a door containing fiber-reinforced concrete, characterized in that the housing is made of fiber-reinforced concrete in the form of a monolithic structure and is equipped with a bordering doorway frame made of metal strips placed on the ends of the walls of the front side of the housing and containing longitudinal reinforcing elements, placed in the body of fiber-reinforced concrete perpendicular to the strips and rigidly connected with them by welding, and a closed element made of pipes, placed along the contour of the doorway, while the metal strips of the frame are Varena on this item overlap the inner side. 2. The safe according to claim 1, characterized in that the housing contains internal walls formed in the form of a metal box placed in the housing. 3. The safe according to claim 1, characterized in that the housing is provided with a protective outer layer made of epoxy material containing pigment and reinforced along the edges of the housing with a mesh of synthetic material. 4. The safe according to claim 1, characterized in that the fiber-reinforced concrete contains colored cement, while the outer surface of the housing is polished, and the frame is additionally equipped with a frame made from a corner, placed on the outer ribs of the front side of the housing and welded to the metal stripes of the frame along the contour . 5. The safe according to claim 1, characterized in that the outer and / or inner surfaces of the body are provided with a finishing layer made of a metal foil 0.3-0.5 mm thick or a thin metal sheet 0.5-1.0 mm thick. 6. The safe according to claim 1, characterized in that the fiber-reinforced concrete contains refractory cement, while the door is equipped with a seal expanding under the influence of temperature, installed along its contour. 7. Safe, comprising a body and a door containing fiber-reinforced concrete, characterized in that the body is made of fiber-reinforced concrete in the form of a monolithic structure and contains internal walls formed in the form of a metal box placed in the case, while the safe is equipped with a bordering doorway frame made of metal strips placed on the ends of the walls of the front side of the housing, and containing longitudinal reinforcing elements placed in the body of fiber concrete perpendicular to the strips and rigidly connected with them by welding, and internally e wall of the housing and the longitudinal reinforcement frame elements made with limb ends extending parallel to the ends walls overlap each other and are welded together, wherein the metal strips are welded frame limb to overlap the inner walls of the outer side. 8. The safe according to claim 7, characterized in that the housing is provided with a protective outer layer made of epoxy material containing pigment and reinforced along the edges of the housing with a mesh of synthetic material. 9. The safe according to claim 7, characterized in that the fiber-reinforced concrete contains colored cement, while the outer surface of the housing is polished, and the frame is additionally equipped with a frame made from a corner, placed on the outer edges of the front side of the housing and welded to the metal stripes of the frame along the contour . 10. The safe according to claim 7, characterized in that the fiber-reinforced concrete contains refractory cement, while the door is equipped with a seal expanding under the influence of temperature, installed along its contour. 11. The safe according to claim 7, characterized in that the outer surfaces of the housing, except for the back, are provided with a finishing layer made of metal foil 0.3-0.5 mm thick or a thin metal sheet 0.5-1.0 mm thick.

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