RU145885U1 - EXPLOSION PROTECTED FLEXIBLE PROTECTIVE MODULE "ARKTECH" - Google Patents

Abstract

1. An explosion-proof flexible protective module comprising a housing consisting of two parts connected by quick-release fasteners, each wall of which includes at least three layers — an external wear-resistant coating layer made chemically resistant with water and oil repellent properties and forming the outer shell of the housing, the inner layer made of heat-resistant and heat-reflecting material and forming the inner shell of the housing, and a heat-insulating layer located between them, while the outer and inner span of are interconnected by means of quick fasteners, characterized in that the insulating layer is a single layer and is fixed between the outer and inner sloyami.2. The module according to claim 1, characterized in that it is equipped with a metal frame rigidly fixed to the inner shell. 3. The module according to claim 2, characterized in that the quick-release fasteners are made in the form of textile fasteners. 4. The module according to claim 3, characterized in that it is provided on the inner shell with a heating element with overheating protection, as well as a temperature controller and a temperature sensor connected to the heating element in an electric circuit. The module according to claim 4, characterized in that the heating element with integrated protection is made in the form of a posistor or a self-regulating heating tape or a resistive heating tape with a thermostat. 6. The module according to claim 5, characterized in that metal fasteners are rigidly fixed on the inner shell for fixation on the pipeline elements and / or fittings. The module according to claim 6, characterized in that at least � in at least one of the walls

Description

The utility model relates to the field of protection of technological instrumentation and other equipment from environmental influences and the exclusion of its various possible damages, namely, devices for protecting and heating instrumentation and automation, pipes, process apparatuses and their elements and / or prevention freezing of pipe valves and / or process equipment installed on the pipeline, technological devices, for example, measuring devices of type d tchikov, flow meters, pressure gauges, etc., and can also be used as a removable thermal insulation reusable in various industries to expand the temperature range of operation and to provide various types of equipment of protection, including in hazardous areas.

From the prior art, a protective cover is known that is configured to accommodate stationary electrical and radio equipment, containing a heating element, a sandwich structure, implemented as a flexible woven electric heater, on both sides of which are placed protective screens made of two layers, including a heat shield fabric with various optical characteristics of the outer and inner sides and heat-insulating material, characterized in that the thermal sensor is installed inside the electric and radio accessories Hovhan with the additional administration visual indication of the operation status of the electric heater (see. RU 57071 U1, publ. 27.09.2006).

The disadvantage of the analogue is the difficult installation, including due to the large weight, limited product life, narrow temperature range of use, inconvenience of operation and the inability to install in hazardous areas.

The closest analogue from the prior art is a protective cover made of antistatic and representing a three-dimensional structure, having walls equipped with quick-release fasteners, formed by shells placed one in the other so that each of the walls includes at least three layers - external wear-resistant chemically resistant coating layer with water- and oil-repellent properties, the inner layer made of heat-resistant and heat-reflecting material, as well as heat insulation between them a layer made of vibration-resistant insulation, while the insulation layer is made multilayer with adhesive bonding of its layers and freely placed between the inner and outer layers, which are interconnected, at least by adhesive tape, while the walls are connected to each other and the fasteners are connected with walls made using heat-resistant means of non-combustible and / or non-combustible materials (RU 90875 U1, publ. 01/20/2010).

The disadvantage of the prototype is the design complexity and its insufficient rigidity, which generally affects the reliability of the explosion-proof cover.

The objective of the claimed utility model is to develop a reliable and safe explosion-proof flexible protective module.

The technical result consists in increasing the rigidity and strength of the explosion-proof flexible protective module, which ensures an increase in its reliability and safety in general.

The technical result is ensured by the fact that the explosion-proof flexible protective module comprises a housing consisting of two parts connected by quick disconnect fasteners, each wall of which includes at least three layers - an external wear-resistant coating layer made chemically resistant with water and oil repellent properties and forming an external the shell of the housing, the inner layer made of heat-resistant and heat-reflecting material and forming the inner shell of the housing, and located between them heat insulation ny layer, the inner and outer shell are interconnected by means of quick fasteners, and the insulating layer is a single layer and is fixed between the outer and inner layers.

Performing a heat-insulating layer with a single layer and fixing it between the outer and inner layers of the explosion-proof flexible protective module allows you to increase its rigidity by eliminating unnecessary bonds (adhesive layers) and constructive connection of the layers with each other, i.e. the formation of single walls and the monolithicity of each part of the body as a whole. Increasing the rigidity of the claimed design of an explosion-proof flexible protective module provides an increase in its strength, which generally allows to significantly increase the reliability and safety of an explosion-proof flexible protective module with respect to the prototype.

Equipping the thermal cover with a metal frame rigidly mounted on the inner shell allows you to further increase the strength and stiffness of the explosion-proof flexible protective module.

The implementation of quick-release fasteners in the form of textile fasteners allows for the possibility of many cycles of connection-disconnection, as well as significantly increase the moisture resistance.

To maintain the required operating temperature and prevent freezing with the subsequent loss of operation of the explosion-proof flexible protective module, a heating element with overheat protection, as well as a thermostat and a temperature sensor connected to the heating element in an electric circuit, are placed on the inner shell, while the heating element with integrated protection is made in in the form of a posistor or a self-regulating heating tape or a resistive heating tape with a thermostat.

For fixation on pipeline elements and / or fittings, metal fasteners are rigidly fixed on the inner shell.

For the passage of the pipe, pipe elements and / or pipe fittings, at least one hole is made in at least one of the walls with the possibility of attaching to it a protective insulating sleeve.

In order to monitor the equipment placed, the explosion-proof flexible protective module has a window with an opening insulated valve mounted on the outer shell.

To exclude the possibility of accumulation of electric charges on the surface of the module, it is made antistatic.

The implementation of the outer layer of a material based on fiberglass, impregnated with silicone and / or coated with a fluoroplastic metallized resin allows due to the properties of this material to give the outer layer wear resistance, high resistance to chemicals, acids, salts, petroleum products and liquids.

The use of the inner layer of fiberglass impregnated with fluoroplastic as a material makes it possible to ensure safe contact of this layer with various high-temperature processes.

The implementation of the heat-insulating layer of vibration-resistant foam rubber allows you to maintain plasticity during operation, while it has good vibration resistance.

In order to use the explosion-proof flexible protective module at elevated temperatures, the materials of the outer and inner layers are made of aramid fabric, and the heat-insulating layer is made of silica mat.

The utility model is illustrated by a figure, which depicts a General view of the explosion-proof flexible protective module.

The explosion-proof flexible protective module contains a housing 1, consisting of quick-detachable fasteners of two parts 2 and 3 connected along the connector line 10, each wall of which includes at least three layers - an external wear-resistant coating layer 4, made chemically resistant with water and oil repellent properties and forming the outer shell of the casing, the inner layer 5, made of heat-resistant and heat-reflecting material and forming the inner shell of the casing, and the heat-insulating layer 6 located between them, while eshnyaya and inner shell are interconnected by means of quick fasteners in the form of textile fasteners (not shown in the figure), the insulating layer 6 is a single layer and is fixed between the outer and inner layers. Also on the inner shell there is a heating element 7 with protection against overheating, as well as a thermostat and a temperature sensor connected to the heating element in an electric circuit. At least one of the walls has at least one opening 8 for passage of a pipe, pipe elements and / or pipe fittings with the possibility of attaching a protective heat-insulating sleeve to it. The explosion-proof flexible protective module has a window 9 for monitoring placed equipment with an opening insulated valve mounted on the outer shell.

Example No. 1.

The explosion-proof flexible protective module contains a housing consisting of two parts connected by quick-release fasteners, each wall of which includes at least three layers - an external wear-resistant coating layer made of a material based on fiberglass, impregnated with silicone and / or coated with a fluoroplastic metallized resin and forming the outer shell of the casing, the inner layer made of fiberglass, impregnated with fluoroplastic and forming the inner shell of the casing, and heat insulation located between them ion layer made of a vibration-proof rubber foam, wherein the inner and outer shell are interconnected by means of quick fasteners, and the insulating layer is a single layer and is fixed between the outer and inner layers.

Example No. 2.

Explosion-proof flexible protective module contains a housing consisting of two parts connected by quick-detachable fasteners, each wall of which includes at least three layers - an external wear-resistant coating layer made of aramid fabric and forming the outer shell of the case, the inner layer made of aramid fabric and forming the inner shell of the casing, and a heat-insulating layer made between them, made of silica mat, while the outer and inner shells are interconnected by means of ohm quick fasteners, and the insulating layer is a single layer and is fixed between the outer and inner layers.

Claims (14)

1. Explosion-proof flexible protective module comprising a housing consisting of two parts connected by quick-release fasteners, each wall of which includes at least three layers - an external wear-resistant coating layer made chemically resistant with water and oil repellent properties and forming the outer shell of the housing, the inner layer made of heat-resistant and heat-reflecting material and forming the inner shell of the housing, and a heat-insulating layer located between them, while the outer and inner span of are interconnected by means of quick fasteners, characterized in that the insulating layer is a single layer and is fixed between the outer and inner layers. 2. The module according to claim 1, characterized in that it is equipped with a metal frame rigidly fixed to the inner shell. 3. The module according to claim 2, characterized in that the quick-release fasteners are made in the form of textile fasteners. 4. The module according to claim 3, characterized in that it is provided on the inner shell with a heating element with protection against overheating, as well as a temperature controller and a temperature sensor connected to the heating element in an electric circuit. 5. The module according to claim 4, characterized in that the heating element with integrated protection is made in the form of a posistor or a self-regulating heating tape or a resistive heating tape with a thermostat. 6. The module according to claim 5, characterized in that metal fasteners are rigidly fixed on the inner shell for fixation on the pipeline elements and / or fittings. 7. The module according to claim 6, characterized in that at least one of the walls has at least one opening for the passage of the pipe, pipe elements and / or pipe fittings with the possibility of attaching a protective insulating sleeve to it. 8. The module according to claim 7, characterized in that it has a window for monitoring placed equipment with an opening insulated valve mounted on the outer shell. 9. The module according to claim 8, characterized in that it is antistatic. 10. The module according to p. 9, characterized in that the material of the outer layer is made on the basis of fiberglass, impregnated with silicone and / or coated with a fluoroplastic metallized resin. 11. The module according to claim 10, characterized in that the material of the inner layer is fiberglass impregnated with fluoroplastic. 12. The module according to claim 11, characterized in that the heat-insulating layer is made of vibration-resistant foam rubber. 13. The module according to claim 9, characterized in that the materials of the outer and inner layers are made of aramid fabric. 14. The module according to claim 13, characterized in that the heat-insulating layer is made of silica mat.