RU83261U1 - MODULAR HEATING ITEM - Google Patents

Abstract

1. A modular heating point, including upper and lower floors in the form of rigid frames made of longitudinal and transverse bent metal profiles interconnected by vertical corner posts, between which wall panels are located, flooring, characterized in that galvanized profiled sheet is located on the outside of the walls with a polymer coating, the middle layer is made of fireproof mineral wool insulation in vapor barrier, laid inside a wooden frame of timber, on the inner side of the walls there are claddings Meth Panel. ! 2. The modular heating point according to claim 1, characterized in that the beam is applied with dimensions of 50 × 100 mm in cross section. ! 3. The modular heating point according to claim 1, characterized in that on the inner side of the walls of the living room there are MDF facing panels, and plastic is located on the inner side of the walls of the bathroom. ! 4. The modular heating point according to claim 1, characterized in that the rigid frames of the longitudinal and transverse bent metal profiles are provided with an anti-corrosion coating. ! 5. The modular heating point according to claim 1, characterized in that as a mineral wool insulation use URSA M-11-100 mm in vapor barrier. ! 6. The modular heating point according to claim 1, characterized in that the wooden beam is impregnated with a flame retardant. ! 7. The modular heating point according to claim 1, characterized in that the flooring is composed of a 40 mm floorboard on which a plywood layer is laid on which linoleum is laid. ! 8. The modular heating point according to claim 1, characterized in that on the walls there are PVC double-chamber windows, pivoting and folding, with metal shutters 1000 × 1000 mm in size. ! 9. The modular heating point according to claim 1, excellent

Description

The utility model relates to the field of construction and can be used in the manufacture of mobile buildings and structures for various purposes.

Known "Boxing" RU 40359 [1], including a base, wall panels connected to each other and the base, containing metal structures and corrugated sheets, is equipped with quadrilateral profiles with power beams with eyes in the upper part, while the metal structures of wall panels and the base are attached to power beams . The box is provided with a roof, the joints of metal parts are welded, visors are located on the wall panels, and a drain is made at the base of the box to drain the liquid.

A disadvantage of the known design is the narrow scope associated with the lack of the possibility of a long stay of personnel in boxing.

Closest to the claimed technical solution is “Block container” RU 6003 [2], including upper and lower floors in the form of rigid frames from longitudinal and transverse bent metal profiles interconnected by vertical corner posts, between which are wall panels, flooring .

A disadvantage of the known design is the low thermal insulation of the side surfaces, low resistance to external influences, a narrow scope.

Low thermal insulation due to the use of materials with high thermal conductivity. Low resistance to external influences due to the lack of a protective coating on the outside of the unit. The narrow scope is due to the lack of the possibility of a long stay of personnel in a block container.

The technical result of the proposed utility model is to increase the thermal insulation of the side surfaces, increase resistance to external influences, expand the scope.

The technical result is achieved by the fact that on the outer side of the walls there is a galvanized profiled sheet with a polymer coating, the middle layer is made of fireproof mineral wool insulation in vapor barrier, laid inside the wooden frame of the timber on the inner side of the walls of the living room facing panels.

The proposed modular heating point is depicted in figure 1 (side view) and figure 2 (top view with a slit), where:

1 - upper floor;

2 - lower overlap;

3 - vertical corner posts;

4 - wall panels;

5 - flooring.

A cross section of the wall is shown in figure 3, where:

6 - galvanized profiled sheet with a polymer coating;

7 - fireproof mineral wool insulation;

8 - vapor barrier;

9 - frame of timber;

10 - facing panel.

The presence of mineral wool insulation increases the thermal insulation of the side surfaces, since mineral wool insulation has a low thermal conductivity. The use of a galvanized profiled sheet with a polymer coating on the outside of the walls increases resistance to external influences, including weather, since the presence of a zinc coating together with a polymer coating on the profiled sheet reliably protects the latter from aggressive influences. The presence of a wooden frame made of timber allows you to securely fix the mineral wool insulation plates to prevent displacement in any direction along the wall. The presence on the inner side of the walls of the living room of facing panels allows you to expand the scope of the product, for example, allowing personnel working in the open air to heat inside the product.

The beam can be used with dimensions of 50 × 100 mm in cross section. The use of such a size of the beam allows you to dock standard insulation modules with external and internal flat panels.

The presence on the inner side of the walls of the living room of MDF panels, and on the walls of the bathroom of the plastic allows personnel to carry out sanitary and hygienic procedures without reducing the life of the product. The availability of production of sanitary and hygienic procedures allows us to expand the scope of the product due to the possibility of round-the-clock personnel being at the heating point.

Rigid frames made of longitudinal and transverse bent metal profiles can be provided with an anti-corrosion coating. Corrosion-resistant coating of rigid frames additionally increases resistance to external, for example, atmospheric influences.

As mineral wool insulation, URSA M-11-100 mm is used in vapor barrier, which has high thermal insulation characteristics and is protected from moisture accumulation inside the insulation.

A wooden beam can be impregnated with a fire retardant to increase the fire resistance of the entire structure.

The flooring can be composed of a 40 mm floorboard on which a layer of plywood is laid on which linoleum is laid. This embodiment of the coating has high durability and high consumer properties - a relatively low deviation of the coating from the plane.

PVC walls can have two-chamber windows, swing-out windows with metal shutters of 1000 × 1000 mm in size. The installation of such windows expands the scope, as it allows the product to meet the fire requirements for residential premises, to serve as an emergency exit. In addition, the presence of windows lengthens the time period for staff to be in

heating point and allows you to monitor the environment: both natural phenomena and the production of work.

Entrance doors can be made of metal, insulated, size 2000 × 800 mm, and the internal doors can be made of wood. The entrance metal door increases resistance to external influences, the implementation of the dimensions of the entrance door to the standard allows to pass product certification and serve for the unhindered passage of most people. The implementation of internal doors made of wood expands the scope, as it allows the product to meet the requirements for residential premises.

Electrical equipment, electric lighting and power networks can be made in accordance with PES and GOST R 50669-94. The implementation of electric networks in accordance with regulatory requirements allows you to expand the scope of the product, allowing you to go through the acceptance of the product by public services.

The ceiling can have the structure: the top layer is a galvanized sheet of 0.55 mm, the middle layer is insulated with fire-resistant mineral wool in vapor barrier, laid between the beams of a wooden beam 50 × 100 mm, impregnated with a flame retardant, the bottom layer is plastic panels or MDF panels. The implementation of the ceiling with the proposed structure leads to a high degree of protection against external influences, such as atmospheric phenomena, has high thermal insulation and the possibility of a long stay of personnel inside the product.

Industrial application. The utility model can be successfully applied for the production of modular heating points.

Claims (12)

1. A modular heating point, including upper and lower floors in the form of rigid frames made of longitudinal and transverse bent metal profiles interconnected by vertical corner posts, between which wall panels are located, flooring, characterized in that galvanized profiled sheet is located on the outside of the walls with a polymer coating, the middle layer is made of fireproof mineral wool insulation in vapor barrier, laid inside a wooden frame of timber, on the inner side of the walls there are claddings Meth Panel. 2. The modular heating point according to claim 1, characterized in that the beam is applied with dimensions of 50 × 100 mm in cross section. 3. The modular heating point according to claim 1, characterized in that on the inner side of the walls of the living room there are MDF facing panels, and plastic is located on the inner side of the walls of the bathroom. 4. The modular heating point according to claim 1, characterized in that the rigid frames of the longitudinal and transverse bent metal profiles are provided with an anti-corrosion coating. 5. The modular heating point according to claim 1, characterized in that as a mineral wool insulation use URSA M-11-100 mm in vapor barrier. 6. The modular heating point according to claim 1, characterized in that the wooden beam is impregnated with a flame retardant. 7. The modular heating point according to claim 1, characterized in that the flooring is composed of a 40 mm floorboard on which a plywood layer is laid on which linoleum is laid. 8. The modular heating point according to claim 1, characterized in that on the walls there are PVC double-chamber windows, pivoting and folding, with metal shutters 1000 × 1000 mm in size. 9. The modular heating point according to claim 1, characterized in that the entrance doors are made of metal, insulated, 2000 × 800 mm in size. 10. The modular heating point according to claim 1, characterized in that the internal doors are made of wood. 11. The modular heating point according to claim 1, characterized in that the electrical equipment, electric lighting and power networks are made in accordance with PES and GOST R 50669-94. 12. The modular heating point according to claim 1, characterized in that the ceiling has the structure: the top layer is a galvanized sheet of 0.55 mm, the middle layer is insulated with fireproof mineral wool in vapor barrier, laid between the beams of a wooden beam 50 × 100 mm impregnated with fireproof composition, the bottom layer is plastic panels or MDF panels.