RU83094U1 - FIRE RESISTANT SAFE - Google Patents

Abstract

1. A fire-resistant safe, including an external and internal case with a space between them, a hollow door and a fire-resistant filler placed in the space between the mentioned cases and in the door cavity, characterized in that concrete is used as a filler, including the following components in a weight ratio:! White cement 54%! Plaster of construction 5%! Modifier 2.4%! Polypropylene fiber 0.1%! Water 37%! Aluminum powder 1.5%! 2. The fire-resistant safe according to claim 1, characterized in that the fiber length of the polypropylene fiber does not exceed 12 mm. ! 3. The fire-resistant safe according to claim 1, characterized in that PAP-1 powder according to GOST-5494-95 is used as aluminum powder. ! 4. The fire-resistant safe according to claim 1, characterized in that PAP-2 powder according to GOST-5494-95 is used as aluminum powder. ! 5. The fire-resistant safe according to claim 1, characterized in that CEM II A-L / 52.5 N. cement is used as white cement! 6. The fire-resistant safe according to claim 1, characterized in that the modifier MB-10-01 according to TU 5743-073-46854090-88 is used as a modifier.

Description

This utility model relates to safes and fireproof cabinets, namely to the design of a fireproof safe.

A known design of a safe, structurally including at least an outer case, an inner case, a door with a cavity, as well as a fire-resistant filler placed between the inner and outer case and in the cavity of the safe door - patent EP 1746238 (A3), E05G 1/024 publ. 01/24/2007. The disadvantage of this housing design is its high cost and considerable labor costs for manufacturing, due to the fact that the fire-resistant filler has a multilayer structure. This technical solution is selected as a prototype of this utility model.

The objective of this utility model is to increase the manufacturability of production and reduce the cost of safe while maintaining fire-resistant properties.

This goal is achieved by using cement-based concrete as a fire-resistant filler with additives introduced into its composition and filling the mass of safe structure elements with technological mass through the technological holes provided in the body and door of the safe.

Achievable technical result when using the claimed utility model consists in reducing the cost and increasing the manufacturability of a fire-resistant safe by filling the cavity between the inner and outer cases of the safe and the hollow door with liquid concrete through special technological holes.

In accordance with the claimed utility model, the concrete used as the refractory filler of the safe includes the following components in a weight ratio:

White cement - СЕМ II A-L / 52.5 N - 54%

Plaster of construction - 5%

Modifier MB-10-01 TU 5743-073-46854090-88 - 2.4%

Polypropylene fiber with a fiber length of 12 mm - 0.1%

Water - 37%

Aluminum powder (PAP-1 or PAP-2 GOST-5494-95) - 1.5%.

To ensure the best adhesive properties of the composition and ensure uniformity of the filled mass, the concrete preparation technology includes the following steps:

The formation of a dry mixture including mixing cement, gypsum, fiber and a modifier for 4-5 minutes.

Adding water to the resulting dry mixture and further mixing to a homogeneous mass for 4-5 minutes.

Adding aluminum powder to the resulting liquid mass and mixing for 2-3 minutes.

Mixing of the mixture in each case is carried out using an industrial mixer with a speed of 600-700 rpm.

The presence of each of the above components of the composition is explained by its effect on the properties of the final mass:

Cement - is used as a cementitious material and gives strength to concrete.

Building gypsum is also an astringent that contributes to the faster hardening of concrete, and also helps to retain the moisture that it gives off when heated, which ultimately helps to increase fire resistance.

Modifier - used for the fastest hardening and gives plastic properties to concrete.

Polypropylene fiber - is a reinforcing element and is included in the composition to increase the strength of concrete.

Aluminum powder - is used as a blowing agent, providing a uniform distribution of gas pores, which gives the hardened composition lightness and additional fire resistance.

The above design feature, including homogeneous concrete, eliminates the laborious operation of forming a multilayer structure of each of the walls and doors of the safe, as is the case in the prototype according to EP 1746238.

Thus, the case of a fire-resistant safe described in this application is an easy-to-manufacture design that provides a high level of resistance to temperature effects, while maintaining a high-quality appearance and low manufacturing costs.

In addition to the above, the enclosure design can be used in safes of various dimensions, without significant costs for the development of design and technological documentation.

Claims (6)

1. A fire-resistant safe, including an external and internal case with a space between them, a hollow door and a fire-resistant filler placed in the space between the mentioned cases and in the door cavity, characterized in that concrete is used as a filler, including the following components in a weight ratio: White cement 54% Plaster of construction 5% Modifier 2.4% Polypropylene fiber 0.1% Water 37% Aluminum powder 1.5% 2. The fire-resistant safe according to claim 1, characterized in that the fiber length of the polypropylene fiber does not exceed 12 mm. 3. The fire-resistant safe according to claim 1, characterized in that PAP-1 powder according to GOST-5494-95 is used as aluminum powder. 4. The fire-resistant safe according to claim 1, characterized in that PAP-2 powder according to GOST-5494-95 is used as aluminum powder. 5. The fire-resistant safe according to claim 1, characterized in that CEM II A-L / 52.5 N. cement is used as white cement. 6. The fire-resistant safe according to claim 1, characterized in that the modifier MB-10-01 according to TU 5743-073-46854090-88 is used as a modifier.