RU111615U1 - PROTECTIVE SCREEN FOR FURNACES AND FIREPLACES (OPTIONS) - Google Patents

Abstract

 1. A protective screen for stoves and fireplaces, including a reflective surface located at a distance from the heated surface, and forming with it a convective channel for the directional movement of the air flow, characterized in that it is formed by at least two reflective surfaces, interconnected and installed at a distance from each other equidistant or close to this, with the formation of at least two convective channels, while at least one reflective surface is provided with a heat insulating material and based on expanded vermiculite and a modified silicate binder. ! 2. A protective screen for stoves and fireplaces according to claim 1, characterized in that the reflective surfaces are made of sheet metal. ! 3. A protective screen for stoves and fireplaces according to claim 1, characterized in that the reflective surfaces are provided with convective openings. ! 4. The protective screen for stoves and fireplaces according to claim 1, characterized in that the heat-insulating material is made in the form of a flat panel. ! 5. A protective screen for stoves and fireplaces according to claim 1, characterized in that the heat-insulating material is installed with a gap between the reflective surface. ! 6. A protective screen for stoves and fireplaces of the object according to claim 1, characterized in that the heat-insulating material is applied directly to the reflective surface. ! 7. A protective screen for stoves and fireplaces, including a reflective surface located at a distance from the heated surface, and forming with it a convective channel for the directional movement of the air flow, characterized in that the reflective surface is equipped with heat-insulating material based on expanded vermiculite and modif

Description

The utility model relates to devices for thermal protection and can be used as thermal protection against heat load in heating, bath stoves and fireplaces.

Protective shields are known where mineral wool is used as heat insulating material. The disadvantage of such screens is insufficiently effective thermal insulation. The thermal properties of mineral wool products during operation deteriorate, therefore, the resource of the reflecting surface as a whole decreases. In addition, the use of basalt cotton wool contributes to the dustiness of the room and reduces environmental safety in the heated room.

A device for the protective screen for bath stoves according to the patent of the Russian Federation for the invention No. 2352865 IPC F24B 9/00, publ. 04/20/2009, containing a reflective surface with convective holes.

The protective shield of the heat convector according to the patent of the Russian Federation for the invention No. 2210035, IPC F24B 7/00, 08/10/2003

The disadvantage of these protective screens is low efficiency and low safety, since the surface of such screens has a sufficiently high temperature.

The closest in technical essence and the achieved result - the prototype is a protective screen for a bath stove according to the patent of the Russian Federation No. 80215, IPC F24B 9/00, 01/27/2009 which is made forming an internal cavity with convection openings with two parallel surfaces connected to each other by blind end faces walls around the perimeter, forming a closed internal cavity.

The disadvantage of this design is its complexity and high metal consumption.

The technical task of the utility model is to create a simple design of the protective screen to improve its efficiency and operational safety.

To solve this problem, a protective screen for stoves and fireplaces according to option 1 is proposed, comprising a reflective surface located at a distance from the heated surface and forming with it a convective channel for the directional movement of the air flow, according to the utility model, the screen is formed by at least two surfaces interconnected and installed at a distance from each other equidistantly or close to this, with the formation of at least two convective channels, with at least one the reflecting surface is provided with heat-insulating material based on expanded vermiculite and a modified silicate binder. The problem is also solved due to the fact that the reflective surfaces are made of sheet metal, equipped with convective holes. The heat-insulating material is made in the form of a flat panel installed with a gap to the reflective surface or applied directly to the reflective surface.

The problem is solved due to the fact that the protective screen for stoves and fireplaces according to option 2, containing a reflective surface located at a distance from the heated surface, and forming with it a convective channel for directional movement of the air flow, according to the utility model, the reflective surface is equipped with heat-insulating material on based on expanded vermiculite and a modified silicate binder. The problem is also solved due to the fact that the reflective surface is made of sheet metal, and the insulating material is made in the form of a flat panel and is installed with a gap between the reflective surface. Thermal insulation material can be applied directly to the reflective surface.

The analysis of the prior art made it possible to establish that analogues that are characterized by a combination of features identical to all the features of the claimed technical solution are absent, which indicates the conformity of the claimed technical solution to the condition of patentability “novelty”. The specified set of features is significant and new, since in the protective screen according to option 1, the installation of an additional reflective surface is equidistant first, creates an additional convective channel, increases the volume of convective air flow and heat exchange area, which increases the dynamics of heating the room and lowering the temperature of the reflecting surface. The installation of an additional reflective surface increases the safety of operation of the heating equipment, since each subsequent reflective screen will have a lower temperature on the surface than the previous one. The use of a plate based on expanded vermiculite and a modified silicate binder as a heat-insulating material or the application of a liquid fraction of this heat-insulating material directly to the surface of a reflective surface can significantly reduce the temperature of the reflective surface. The use of this heat-insulating material eliminates the use of environmentally hazardous mineral wool materials.

In the protective screen according to option 2, the presence of insulating material mounted on a reflective surface, significantly reduces the surface temperature of the screen.

The essence of the proposed technical solution is illustrated by an example of a specific design and drawings, which show

according to the first embodiment in figure 1 is a General view of the protective screen with two reflective surfaces, one of which is installed insulating material; according to the second embodiment of the utility model: in Fig.2 - a protective screen with one reflective surface with heat-insulating material.

According to the first embodiment of the utility model, the protective screen consists of a reflective surface 1 installed at a distance from the heated surface of the furnace and forms a convective channel 2. The reflective surface 3 is installed equidistant to the first reflective surface and forms a convection channel 4. The protective screen is mounted on the base 6 and is fixed to the furnace body or installed separately. On any of the reflective surfaces can be installed insulating material 5. The protective screen of stoves and fireplaces can be made collapsible or solid. The screen can be fixed on the furnace or installed separately from it.

The protective screen works as follows. Cold air through the gap between the floor and the screen, as well as through convective holes, enters the convective channels, heats up, rises and goes out into the room. Thus, the screen itself is cooled due to convective air flows.

According to the second embodiment of the utility model, the protective screen consists of a reflective surface 1, installed at a distance from the heated surface of the furnace and forms a convective channel 2. A heat-insulating coating 3 is fixed on the reflective surface. The heat-insulating coating can be applied directly to the reflective surface, or installed with a gap to the reflective surface.

The protective screen has an easy-to-manufacture and reliable design. The protective screen can be attached to the furnace or installed separately.

Experiments with protective screens were carried out and the results are listed in the table. The table shows temperature data on the surface of the protective screen at the hottest point at a temperature of the heated surface of the furnace 750-800 ° C. In all experiments, screens were installed at the same distance from the heated surface of the furnace. Rigid vermiculite plates based on expanded vermiculite and a modified silicate binder were used as a heat insulating material.

Table 1 Screen design Reflecting surface temperature Protective screen with one reflective surface 400 Protective screen with two reflective surfaces 246 Protective screen with one reflective surface and heat-insulating layer 154 A protective screen with two reflective surfaces, one of which is made with a heat-insulating layer 90

When choosing a protective screen with two reflective surfaces and a heat insulating layer, the dimensions of the product slightly increase, but the temperature on the surface of the screen decreases significantly. In the case when the dimensions of the product are strictly specified, it is possible to use a protective screen with one reflective surface and a heat-insulating layer.

Thanks to the implementation of the set of features described in the proposed technical solutions, it provides increased efficiency and increased safety during operation of heating installations using this screen.

Claims (11)

1. A protective screen for stoves and fireplaces, including a reflective surface located at a distance from the heated surface, and forming with it a convective channel for the directional movement of the air flow, characterized in that it is formed by at least two reflective surfaces, interconnected and installed at a distance from each other equidistant or close to this, with the formation of at least two convective channels, while at least one reflective surface is provided with a heat insulating material and based on expanded vermiculite and a modified silicate binder. 2. A protective screen for stoves and fireplaces according to claim 1, characterized in that the reflective surfaces are made of sheet metal. 3. A protective screen for stoves and fireplaces according to claim 1, characterized in that the reflective surfaces are provided with convective openings. 4. The protective screen for stoves and fireplaces according to claim 1, characterized in that the heat-insulating material is made in the form of a flat panel. 5. A protective screen for stoves and fireplaces according to claim 1, characterized in that the heat-insulating material is installed with a gap between the reflective surface. 6. A protective screen for stoves and fireplaces of the object according to claim 1, characterized in that the heat-insulating material is applied directly to the reflective surface. 7. A protective screen for stoves and fireplaces, including a reflective surface located at a distance from the heated surface, and forming with it a convective channel for the directional movement of the air flow, characterized in that the reflective surface is equipped with heat-insulating material based on expanded vermiculite and a modified silicate binder. 8. The protective screen for stoves and fireplaces according to claim 7, characterized in that the reflective surface is made of sheet metal. 9. The protective screen for stoves and fireplaces of the object according to claim 7, characterized in that the insulating material is made in the form of a flat panel. 10. A protective screen for stoves and fireplaces according to claim 7, characterized in that the heat-insulating material is installed with a gap between the reflective surface. 11. A protective screen for stoves and fireplaces according to claim 7, characterized in that the heat-insulating material is applied directly to the reflective surface.