RU158188U1 - EXPLOSION-PROTECTED CAPSULE TYPE - Google Patents

Abstract

1. The device is explosion-proof capsule type, comprising a housing and a cover forming an airtight internal cavity for accommodating technological equipment, openings for passing the pipeline made in the body and cover, fastening elements of the device body to the pipeline, and also a heating element equipped with an electronic temperature controller and connected to an external the power source through an electric cable through the cable entry, and the housing and the cover are multilayer with a layer of explosion and fire safety of non-combustible heat-insulating material and an outer layer of a durable non-combustible antistatic corrosion-resistant explosion-proof material and pivotally interconnected along one edge, while access to the internal cavity is limited by locking elements placed on the housing and the cover, and drain holes are made in the lower part of the housing condensate, equipped with plugs, characterized in that the fastening elements of the device body to the pipeline are located outside the device body, and the body and cover have ribs stiffness. 2. Explosion-proof device according to claim 1, characterized in that the outer layer of the housing and cover is made of fiberglass reinforced with fiberglass. 3. Explosion-proof device according to claim 1, characterized in that the layer of heat-insulating material of the body and cover is made of structural polyurethane foam. 4. Explosion-proof device according to claim 1, characterized in that the housing and the cover are provided with an additional layer of thermal insulation made of foam rubber with an aluminum coating. 5. Explosion-proof device according to claim 1, characterized�

Description

The utility model relates to the field of protection of instrumentation and technological equipment from environmental influences and the elimination of possible damage, namely, devices for heating and / or preventing freezing of pipe valves and process equipment installed on the pipeline, and can also be used in as a removable thermal insulation of reusable use in various industries to expand the temperature range of various types of equipment.

The protective cover is known from the prior art (RF patent No. 90875, IPC F16K 49/00, F16L 59/00, published January 20, 2010), which is a three-dimensional structure having walls equipped with quick-release fasteners formed by shells comprising three layers - an external wear-resistant chemically resistant coating layer with water and oil repellent properties, an inner layer made of heat-resistant and heat-reflecting material, and also a vibration-resistant insulation layer located between them. An opening is provided in one of the walls, provided with a protective sleeve. The protective cover is equipped with heating elements with mounts and a cable entry connected through a junction box.

This protective cover provides ease of use and reliable protection against atmospheric phenomena, but does not have the protective properties provided by the structural rigidity.

The closest technical solution is an explosion-proof capsule-type device (RF patent No. 89200, IPC F16K 49/00, F16L 59/00, F16L 53/00, published November 27, 2009), including a dust and water tight housing and a cover made with the possibility of snug fit to the housing with the necessary dust and moisture protection and forming an internal cavity for the placement of technological equipment, openings for the passage of the pipeline, made in the housing and the cover, the elements for attaching the device to pipes in the internal cavity a wire, a heating element made with the possibility of thermoregulation and connected to an external power source via an electric cable through a cable entry, the housing and the cover being multilayer with a layer of explosion and fireproof non-combustible heat-insulating material and an outer layer of durable non-combustible antistatic corrosion-resistant explosion-proof material and equipped with a sealant moreover, they are interconnected pivotally along one of the edges, and on the other edge are equipped with locking elements cops. The device is equipped with a ground outlet, as well as additional explosion-proof cable entries for connecting to an external power source, a sealed junction box mounted on a mounting plate, placed on the outside of the case and two hydraulic stops, and holes for condensate drainage are made in the case. In addition, the device is equipped with an electronic temperature controller located in the internal cavity of the device and connected to the heating element.

The main disadvantage of this technical solution is the inconvenience in the operation and installation of the device due to the placement of fasteners of the pipeline with the housing in the internal cavity of the device, as well as the low strength characteristics of the device due to the absence of stiffeners on the cover and body.

The objective of the utility model is to create a durable explosion-proof and fireproof device for protecting process and control equipment installed on the pipeline.

The technical result of the utility model is to increase the operational reliability of the device and ensure ease of use.

The specified technical result is achieved by a capsule-type explosion-proof device, including a housing and a cover, forming a sealed internal cavity for accommodating technological equipment, openings for passing the pipeline made in the body and cover, fastening elements of the device body to the pipeline, and also a heating element equipped with an electronic temperature controller and connected to an external power source via an electric cable through a cable entry, the housing and the cover being made m nogo-layer with a layer of explosion and fireproof non-combustible heat-insulating material and an outer layer of a durable non-combustible antistatic corrosion-resistant explosion-proof material and pivotally interconnected along one edge, while access to the internal cavity is limited by locking elements placed on the cover and body of the device, and in the lower part the housing has holes for draining the condensate, equipped with plugs.

Unlike the prototype, the fastening elements of the device body to the pipeline are located outside the device body, and the lid and body have stiffeners.

According to a utility model, the outer layer of the housing and the cover is made of fiberglass reinforced with fiberglass.

According to a utility model, the layer of heat-insulating material of the housing and the cover is made of structural polyurethane foam.

According to a utility model, the housing and the cover are provided with an additional insulation layer made of foam rubber with an aluminum coating.

According to a useful model, the fastening elements of the device body to the pipeline are made in the form of detachable mounting clamps located on the outer side walls of the body.

According to a utility model, the device is equipped with an earth outlet, as well as additional cable entries for connecting to the external power source of the pipeline processing equipment, the cable entries being made explosion-proof.

According to a utility model, the device is equipped with a terminal box mounted on a mounting plate located on the inside of the housing to provide connectivity to an external power source.

According to a utility model, the lid and the housing along the perimeter of their abutting each other are equipped with a seal made of silicone or neoprene.

According to a utility model, the housing and the lid are made semi-cylindrical, and the lid is flanged around the perimeter of the abutment to the housing.

According to a utility model, the device comprises two hydraulic stops, each of which is fixed with one end to the housing and the other to the lid.

According to a useful model, the openings for the passage of the pipeline are equipped with seals to seal the places of entry and exit of the pipeline.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a capsule type explosion-proof device - front view, FIG. 2 is a plan view of FIG. 3 is a left view.

The device is explosion-proof capsule type (Fig. 1-3), includes a housing 1 and a cover 2 of a semi-cylindrical shape, forming a sealed internal cavity for placement of technological equipment 3. In the housing 1 and cover 2 there are openings 4 for passing the pipeline 5, equipped with seals (in the drawing not indicated) for sealing the entry and exit points of the pipeline. Outside of the device’s casing, there are placed the fastening elements 6 of the casing 1 to the pipeline 5, made in the form of detachable clamps (not indicated in the drawing) attached to the casing wall, which ensures ease of installation. In the internal cavity of the device there is a heating element 7, equipped with an electronic temperature controller 8 and connected to an external power source through an electric cable 9 through a cable entry 10. The housing 1 and the cover 2 are multilayered with a layer of explosion and fireproof non-combustible heat-insulating material, for example, structural polyurethane foam, and an outer layer of a durable non-combustible antistatic corrosion-resistant explosion-proof material, for example, fiberglass reinforced glass fabric, and can be equipped with an additional layer of thermal insulation made of foamed rubber with aluminum coating. The housing 1 and the cover 2 are interconnected along one edge by means of hinges 11 and provided with locking elements 12 located on the housing and the cover. In the bottom of the housing 1, drainage holes 13 for condensate drainage are provided, provided with plugs (not indicated in the drawing). The device is equipped with an earth outlet 14, as well as an additional cable entry 15 for connecting to an external power source of technological equipment 3 installed on

the pipeline 5. The earth outlet 14 and the cable entries 10 and 15 are explosion-proof. To ensure the connection to an external power source of the heating element 7 and technological equipment 3, the device is equipped with a terminal box 16, which is installed on the mounting plate 17, mounted inside the housing 1. To ensure dust and moisture protection of the internal cavity of the device and the snug fit of the housing 1 and cover 2 they are equipped seal 18 around the perimeter of their abutting to each other. To enhance protection against ingress of dust, moisture and precipitation, cover 2 is flanged (not indicated in the drawing) along the perimeter of the junction with the housing. The device contains two stops 19, each of which is attached at one end to the housing 1 and the other to the cover 2. For additional physical protection, the housing 1 and the cover 2 have stiffeners 20.

The device explosion-proof capsule type works as follows. The device is placed on the pipeline 5 for protection, installed on it technological equipment. When installing the housing 1 of the device, through the fastening elements 6 attached to the outer side of its wall, made in the form of detachable clamps, they are fixed to the pipeline 5. The technological equipment 3 is placed in the internal dust-moisture-proof cavity formed by the housing 1 and the cover 2. Cover 2 is tight adjacent to the housing 1 by flanging and seal 18, and openings 4 for the passage of the pipeline 5, also equipped with a seal, provide additional dust and moisture protection. The heating element 7, equipped with an electronic temperature controller 8 is connected to an external power source through an electric cable 9 through a terminal box 16 and a cable entry 10. An electric current is supplied, as a result of which the temperature rises in the internal cavity of the device

account of the operation of the heating element The heating element can be selected from the following:

- the heating element can be made in the form of separate insulated plates or elements representing a heating fabric made of electrically conductive carbon-containing fibers, creating a continuous heating layer when electric voltage is applied to them and equipped with a temperature sensor and a thermostat to provide the required temperature range in the internal cavity of the device;

- in another embodiment, the heating element can be made convection explosion-proof, in the form of a compound and enclosed between two mechanically tightened radiators;

- in addition, the heating element can be made in the form of a self-regulating cable, which is two conductive conductors isolated from each other, placed in a semiconductor carbon matrix enclosed in a plastic sheath, a copper braid and a polyolefin or fluoroplastic sheath and fixed to the mounting elements or frame in form of a lattice.

At the same time, effective heat saving is ensured by making the case and cover multilayer, with a layer of explosion and fireproof non-combustible heat-insulating material and an outer layer of a durable non-combustible antistatic corrosion-resistant explosion-proof material. Maintenance of technological equipment 3 installed on the pipeline 5 is facilitated by connecting the housing 1 and the cover 2 with a hinge along one edge, while opening the cover the housing remains motionless fixed on the pipeline 5. Access to the internal cavity is limited by the locking elements 12 located on cover 2 and housing 1.

Thus, the presence of stiffeners on the body and the cover of the device provides additional physical protection for the technological equipment installed on the pipeline, which increases the operational reliability of the device, and the placement of fasteners on the outer wall of the housing provides easy installation of the device on the pipeline and its ease of use.

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Claims (11)

1. The device is explosion-proof capsule type, comprising a housing and a cover forming an airtight internal cavity for accommodating technological equipment, openings for passing the pipeline made in the body and cover, fastening elements of the device body to the pipeline, and also a heating element equipped with an electronic temperature controller and connected to an external the power source through an electric cable through the cable entry, and the housing and the cover are multilayer with a layer of explosion and fire safety of non-combustible heat-insulating material and an outer layer of a durable non-combustible antistatic corrosion-resistant explosion-proof material and pivotally interconnected along one edge, while access to the internal cavity is limited by locking elements placed on the housing and the cover, and drain holes are made in the lower part of the housing condensate, equipped with plugs, characterized in that the fastening elements of the device body to the pipeline are located outside the device body, and the body and cover have ribs stiffness. 2. The explosion-proof device according to claim 1, characterized in that the outer layer of the housing and cover is made of fiberglass reinforced with fiberglass. 3. The explosion-proof device according to claim 1, characterized in that the layer of heat-insulating material of the housing and the cover is made of structural polyurethane foam. 4. The explosion-proof device according to claim 1, characterized in that the housing and the cover are provided with an additional layer of thermal insulation made of foam rubber with an aluminum coating. 5. The explosion-proof device according to claim 1, characterized in that the fastening elements of the device casing to the pipeline are made in the form of 10 detachable mounting clamps located on the outer side walls of the housing. 6. The explosion-proof device according to claim 1, characterized in that it is equipped with an earth outlet, as well as additional cable entries for connecting to the external power source of the pipeline processing equipment, the cable entries being made explosion-proof. 7. The device is explosion-proof according to claim 1, characterized in that to ensure connection to an external power source, it is equipped with a terminal box mounted on a mounting plate located on the inside of the housing. 8. The explosion-proof device according to claim 1, characterized in that the lid and the housing along the perimeter of their contact with each other are equipped with a seal made of silicone or neoprene. 9. The explosion-proof device according to claim 1, characterized in that the housing and the cover are made semi-cylindrical, and the cover is flanged around the perimeter of the abutment to the housing. 10. The explosion-proof device according to claim 1, characterized in that it contains two hydraulic stops, each of which is fixed at one end to the body and the other to the lid. 11. Explosion-proof device according to claim 1, characterized in that the openings for the passage of the pipeline are equipped with seals to seal the places of entry and exit of the pipeline.

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