RU28163U1 - RELIABLE SAFE SAFE - Google Patents

Description

RELIABLE SAFE SAFE

 The utility model relates to fireproof safes for storing valuables and / or banknotes and can find applications in safes of increased reliability for banks.

5 The protective structure of the wall and the door of the safe from tools for making holes is known. To achieve reliable protective properties of the walls, composite structures are used, including hard elements (steel) or ceramics of random, arbitrary shape, arranged in the form of a matrix with uniform distribution (see application GB N 2153406, class E 05G 1/024, publ. 08.21.85) .; The disadvantage of the safe is that the wall in this case has low rigidity and strength, since the filler is poured into the body of the wall.

The use of backfill reduces the resistance of the safe wall to drilling and burning, since the finished wall of the safe is not a monolith.

A well-known wall of a safe has a layer of strong building material, in particular concrete, in which there are randomly located (e elements that resist drilling (see patent EPO N 280852, class E 05 6 1/024, publ. 18.01.88 )

The design of safes is known, in which between thin-walled casings of ra (a filler is placed in the form of monolithic structures formed by cement with various fillers, including randomly located inclusions that provide resistance when passing the drill (see Germany patent N 3600693, lubl.6L7.87) .

The design of safes is known, in which a filler is located between thin-walled sheathing1 in the form of monolithic structures formed by cements with different fillers, including randomly located inclusions,

having resistance when passing a drill, in the form of solid1 natural elements: gravel, pebbles, granite, silicon in a shape close to ": sphere with

V h .-,

0.35-0.4 the distance between the walls (see RF patent N 2061167, class EPSG 1/02, publ. 27.05.96). A well-known high-security safe with a housing, the double walls of which are made with metal casting located in their cavity, drill-resistant bodies from randomly located layers of steel reinforcement connected by welding, while the ends of the reinforcement are connected by welding to the side walls of the housing, the reinforcement of the lower layer is connected by welding with the bottom of the wall housing (method — see RF patent N 2057881, class E05G1 / 024, publ. 10.04.96 - prototype). The advantage of the well-known technical solution in the monolithic structure. The main disadvantage is that reliability capture is achieved by significantly increasing the weight of the safe due to the design of the walls of the body and the use of metal melt and reinforcement as a filler. The high weight of the safe complicates its assembly, transportation, and installation. Another drawback of the safe is the high complexity and complexity of manufacturing without defecting and warping the case after filling the cavity of the double walls of the case with molten metal. The formation of cavities (voids) unfilled with the melt both along the inner surfaces of the body ribs and between the reinforcement layers reduces the rigidity and strength of the structure. This does not exclude the possibility of drilling or burning through the walls of the body with a gas torch or electric welding. A common disadvantage of the known analogues and prototype is the low strength of the body, the outer walls of which are made by the corresponding bending of metal sheets with subsequent welding of the ribs. The case may have a pronounced deformation, roughness and distortions of the walls of the safe, which leads to marriage, the difficulty of eliminating these defects, lengthens the time and cost of manufacturing the safe. Thus, the known designs of safes and their walls do not allow to achieve a technical result consisting in simplicity of design, increased rigidity and strength of the walls of the safe, as well as in increased resistance of the safe wall to drilling and burning. ;;

The present invention solves | the task of creating designs

a safe of optimal weight, simplifying its construction, speed and ease of assembly, reducing scrap and manufacturing costs, increasing the reliability of a structure from breaking by increasing its solidity, rigidity and strength of the edges of the safe body, resistance of the walls of the safe to drilling, burning, the possibility of using additional tools, complicating hacking and unauthorized access to the contents of the safe.

The task is achieved by the fact that in the safe trap containing the casing and the door, made with reinforcement and filler between the double walls to resist drilling and burning, the reinforcement is made in the form of a metal mesh or grill, with the filler made in the form of monolithic structures based on concrete with a filler of metal fiber.

Preferably, in the filler, the metal fiber is made corrugated from high-strength wire with a diameter of 0.8-1.2 millimeters and a length of 30-40 millimeters.

It is preferable to make the reinforcement in the form of a mesh or lattice of high-strength steel bars and mount it between the double walls of the body longitudinally on the pins, which are connected by ends to the surface at least one of the walls of the body.

It is advisable to fix the pins with the ends on the outer surface of the inner wall of the housing.

Preferably, the outer walls of the housing are formed by interconnected corners and metal sheathing sheets fixed to the inner sides of the corners.

It is advisable from the outside of the case, at least in the niches formed by the corners and the sheathing sheets, and to install the facing panels to prevent breaking.

It is advisable to fix the facing lanels in niches and / or on the corners of the body through an adhesive joint.

Preferably, the facing panels are made in the form of smoke generation means for switching on the security system at. burning them

The essence of the invention lies in the fact that the design of the case with corners allows you to use a combination of simple external means (panels) and internal means (from an ordered wire reinforcement in the form of a metal mesh and a corrugated fiber metallic mesh randomly placed in concrete), drilling and burning resistance with an optimal safe weight . The possibility of increasing the uniformity of filling half the double walls of the safe case with solid elements resistant to drilling, significantly increases its reliability from breaking. ,

Thus, the use of an ordered wire reinforcement in the form of a metal mesh and a metal corrugated fiber randomly placed in concrete makes it possible to increase the uniformity of filling the cavity of the double walls of the safe case with solid elements resistant to drilling, which significantly increases its reliability against breaking.

The analysis of the prior art, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed utility model, allows us to establish that the applicant has not found technical solutions that are characterized by signs identical to all the essential features of the claimed utility model. The definition from the list of identified analogues of the prototype, it is ALLOWED to add a set of essential (with respect to the technical result perceived by the applicant) distinctive features in the claimed object, set forth in the useful modrle formula.

Therefore, the claimed utility model meets the requirement of novelty under applicable law.

Figure 1 depicts the proposed safe with increased reliability - view, from the side facing the door; figure 2 shows a safe with increased reliability with

a fragment of the cross section (view DD in figure 1); Fig. 3 shows a safe of increased reliability with a fragment of a longitudinal section (view BB in Fig. 1).

The safe contains a housing 1 and a door 2 having double walls, in which the fittings 3 are made in the form of a metal mesh or grating, and a filler resisting drilling and / or burning.

:1

 The filler is made on the basis of fiber concrete 4 with a filler in the form

randomly located in it metal fiber 5, made of corrugated high-strength wire with a diameter of 0.8-1.2 mm. For

ensure the necessary density of the metal fiber 5 in the fiber concrete 4, it is advisable to have its length in the range from 30 to 40 millimeters.

The outer walls of the casing are formed by corners 6 and cladding sheets 7, fixed on the inner sides of the corners 6 by welding, while on the outside of the casing, at least in the niches formed by the corners 6 and cladding sheets 7, panels 8, for example, made of plastic, are installed. Panels 8 are used from materials that make it possible to use them as anti-hacking tools, fixed directly to the indicated niche (Fig. 2) and / or at the corners 6 (not shown in Fig.) Of the housing, in particular through an adhesive joint. It is advisable to use the panel 8 as a means of smoke generation for switching on the alarm system when they are burned. Smoke generating means allow the alarm system to work with smoke detectors and make it difficult to break in. The inner walls of the housing are formed by the walls of, for example, a metal box 9.

The reinforcement 3 is made, in particular, in the form of a metal mesh or lattice of high-strength steel bars, and is mounted in the cavity of the double walls of the housing, for example, on the pins 10, fixed by the ends on the outer surface of the inner wall of the housing (on the outer surface of the metal weld box 9). It is possible to perform reinforcement 3 in the form of a mesh of metal tapes (not shown in Fig.).

To simplify the manufacture of the safe, the reinforcement 3 is pre-connected by welding to the pins 10 on the metal box 9, which then

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together with the fittings 3 are installed in made of corners b and

cladding sheets 7 frame at a distance from its walls for the formation of double walls of the body of the safe. At the same time, the reinforcement 3, placed in the cavity of the double walls of the body, is poured with fiber concrete 4 with simultaneous vibrational attenuation in the specified cavity. I

In the double walls of the safe enclosure, reinforcement () a 3 in the form of a metal aetka or lattice together with fiber-reinforced concrete 4, including metal corrugated metal fiber with a length of 40 micrometers, form a monolithic structure. The use of various solid form solid elements in wire reinforcement 3 and corrugated metal fiber 5 provides increased resistance of the obtained monolithic structure to drilling along this surface of the safe body.

Due to the fact that in the proposed safe, the reinforcement 3 is located in the double walls of the body, the manufacture of the safe is ordered in an orderly manner and the walls of the safe are resistant to drilling over their entire surface. The implementation of the edges of the casing of high-strength steel corners 6 eliminates distortions and deformation of the surfaces of the walls of the casing of the safe during its manufacture, which ensures uniform distribution ||) of reinforced concrete 4 in the cavity of the walls of the casing with reinforcement Z. without the formation of voids.

Compared with the prototype, the solidity of the safe case is achieved with simple means using available materials and safe technologies, which exclude the possibility of warping and deformation of the case during manufacture. The design of the safe is technological, allows you to quickly and assemble it, not. using additional equipment for high-temperature molten metal, and has an optimal weight for

operation and transportation ..

Because fittings. 3 filled with fiber concrete 4 including bodies (metal fiber 5), resistant to drilling, the wall of the safe is a single unit in the form of a monolith. At the same time, the ordered placement of the reinforcement 3 and the uniform chaotic phase transition / fusion of a smaller metal

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6

fiber 5 in fiber concrete 4 - reduces the possibility of the formation of voids in

double walls when it is washed, which increases .; stiffness and strength

safe.

The proposed safe, made with the use of corners 6, panels, in contrast to the prototype does not have distortions and deformations of the corus after manufacture, which helps to reduce the marriage and the reliability of its work.

The monolithic design of the proposed safe prevents cracking of the safe when using a gas torch or electric welding, since in the place of burning the hole a metal deposit of fiber 5 and reinforcing bars 3 are formed. Thus, in case of burning the outer wall of the safe case, further formation of the hole is prevented by slagging, which increases the wall resistance safe to burning.

The design of the safe provides for the possibility of using additional means that impede the breaking and operation of wapom tools (drills), which prevent significant damage to the metal case of the safe.}

Thus, the proposed technical solution in its implementation allows to achieve a technical result, which consists in simplifying the design, ease of manufacture using accessible grades, increasing the rigidity and strength of the walls of the safe, as well as in increasing the resistance of the walls of the safe to drilling and burning to ensure its optimal weight.

Claims (8)

1. Safe with increased reliability, comprising a housing with a door made with reinforcement and a filler between double walls to resist drilling and / or burning, characterized in that the reinforcement is made in the form of a metal mesh or grill, while the filler is made in the form of monolithic structures based on concrete with a filler of metal fiber.  2. Safe according to 1, characterized in that the metal fiber is made of corrugated high-strength wire with a diameter of 0.8-1.2 mm and a length of 30-40 mm.  3. The safe according to claim 1 or 2, characterized in that the reinforcement is made of high strength steel bars and is mounted longitudinally between the double walls of the casing on the pins fixed by the ends on the corresponding surface of one of the casing walls.  4. The safe according to claim 3, characterized in that the pins are fixed with ends on the outer surface of the inner wall of the housing.  5. A safe according to any one of claims 1 to 4, characterized in that the outer walls of the housing are formed by interconnected corners and metal sheathing sheets fixed to the inner sides of the corners.  6. Safe according to any one of claims 1 to 5, characterized in that on the outside of the housing at least in the niches formed by the corners and cladding sheets, cladding panels are installed as external means of preventing breaking.  7. The safe according to claim 6, characterized in that the facing panels are fixed in niches and / or on the corners of the housing through an adhesive connection. 8. The safe according to claim 6 or 7, characterized in that the cladding panels are smoke generating means for activating the alarm system when they are burned and / or drilling resistance.