RU168924U1 - Nitrogen shutter sealing device for pyrolysis furnace for the production of carbon fibers from hydrated cellulose fibers - Google Patents

Abstract

The invention relates to the production of carbon fibers from hydrated cellulose fibers, namely, devices for sealing the inlet and outlet of a pyrolysis furnace, and can be used in the process of producing continuous tow or carbon tape materials. The objective of the utility model is to develop a nitrogen shutter of a pyrolysis furnace with a sealing device , the technical result of which is to ensure a high degree of tightness, the creation of aerodynamic disturbances that support the necessary pressure in the working chamber, ensuring the output of the pyrolysis products through the provided nozzles, as well as ensuring the absence of stress of the processed material, which can violate the conditions of transportation and the integrity of the material. The technical result in the implementation of the utility model is achieved by the fact that the proposed nitrogen shutter of the pyrolysis furnace with a sealing device, characterized the fact that it is made in the form of a box-shaped case with cooling ribs located on a rolling cart equipped with wheels and with a slit-like flange made on one side of the box body for connecting the box body to the working chamber of the pyrolysis furnace and with a docking flange on the other side of the box body for connecting the sealing device, the sealing device is made in the form of a flat body matching the shape of the docking flange with a rigid a support pad mounted on a flat body for a continuously moving processed fiber through a slot-shaped hole made in a flat body

Description

Nitrogen shutter sealing device for pyrolysis furnace for the production of carbon fibers from hydrated cellulose fibers

The utility model relates to the field of production of carbon fibers from hydrated cellulose fibers, namely, to a nitrogen shutter sealing device for a pyrolysis furnace for the production of carbon fibers from hydrated cellulose fibers, and can be used in the process of producing continuous tow or ribbon carbon materials.

Known designs of sealing devices used in various industries (see RF patent No. 2441053, IPC C10B 57/00, 2012, or RF patent No. 2355773, IPC C21B 7/20, 2009).

However, the known designs were not used by the applicant as a known source of information.

The objective of the utility model is to develop a nitrogen shutter sealing device for a pyrolysis furnace for the production of carbon fibers from hydrated cellulose fibers.

The technical result is the provision of a high degree of tightness, the creation of aerodynamic disturbances that maintain the necessary pressure in the working chamber, the release of pyrolysis products through the provided nozzles, and the absence of stress of the processed material that can violate the conditions of transportation and the integrity of the material.

The technical result in the implementation of the utility model is achieved by the fact that a sealing device with a nitrogen shutter for a pyrolysis furnace for the production of carbon fibers from hydrated cellulose fibers is proposed, characterized in that it is made in the form of a flat body with a support platform rigidly mounted on it and a slit-like opening for continuous movement the processed fiber through it outside the working space of the pyrolysis furnace, and the flat housing of the sealing device contains flexible nadu a nitrogen-blown element made of heat-resistant fabric and fixed on top by a clamping bar made in the form of a segment of a tubular shape, while the surface of the flexible nitrogen-inflated element is covered with carbon cloth, and the clamping bar is mounted on a flat case by means of a sleeve with an adjustable pin, while the case of the sealing device connected to the furnace by means of a box-shaped housing mounted on a sliding carriage with cooling fins and a slit-like flange made on one side of the housing for Connection box body to the working chamber of the furnace of pyrolysis and the docking flange on the other side of the housing, intended for attachment of the sealing device. In this case, the width of the slit-like opening of the outlet of the processed fiber beyond the working space of the furnace corresponds to the width of the processed fiber.

Among the essential features characterizing the proposed sealing device with a nitrogen shutter for a pyrolysis furnace for the production of carbon fibers from cellulose hydrated fibers, the following are distinguishing:

- the implementation of the device in the form of a flat case with a rigidly mounted support platform and a slot-shaped hole for the continuous movement of the processed fiber through it outside the working space of the pyrolysis furnace,

- the flat housing of the sealing device contains a flexible nitrogen-inflated element made of heat-resistant fabric and secured on top of the clamping bar, made in the form of a segment of tubular shape,

- the surface of the flexible nitrogen-inflated element is covered with carbon cloth,

- the clamping plate by means of a sleeve with an adjustable pin is fixed on a flat body,

- joining the housing of the sealing device to the furnace by means of a box-shaped housing mounted on the sliding carriage with cooling fins and a slit-like flange made on one side of the housing for connecting the box-shaped housing to the working chamber of the pyrolysis furnace and a docking flange on the other side of the housing for connecting the sealing device,

- correspondence of the width of the slit-like opening of the exit of the processed fiber beyond the working space of the furnace to the width of the processed fiber.

Experimental tests in a pyrolysis furnace used to produce continuous bundle or tape carbon materials, the proposed nitrogen shutter sealing device for a pyrolysis furnace for the production of carbon fibers from hydrated cellulose fibers, showed its high efficiency. It was found that the proposed nitrogen shutter sealing device for the pyrolysis furnace for the production of carbon fibers from cellulose hydrated fibers when used in the pyrolysis furnace provided a high degree of tightness, ensured the creation of aerodynamic disturbances that maintain the necessary pressure in the working chamber, and ensured the exit of the pyrolysis products through the nozzles, and also ensured the absence of stress of the processed material while maintaining integrity and the resulting carbon material.

The essence of the proposed nitrogen shutter sealing device for a pyrolysis furnace for the production of carbon fibers from cellulose hydrated fibers is illustrated by the drawings, where in FIG. 1 shows a general view of the device, FIG. 2 is a view of a sealing device, and FIG. 3 shows a section AA of the sealing device.

A nitrogen shutter sealing device for a pyrolysis furnace for the production of carbon fibers from cellulose hydrate fibers comprises a box-shaped housing 2 mounted on wheels equipped with wheels 1 with cooling fins 3 and with a slit-shaped flange 4 made on one side of the box-shaped housing for attaching the box-shaped housing 2 to the furnace working chamber pyrolysis and with a docking flange 5 on the other side of the box-shaped body 2 for attaching a sealing device (Fig. 1). The sealing device is made in the form of a matching docking flange 5 of a flat body 6 (Fig. 2) with a support platform 7 rigidly mounted on a flat body 6 (Fig. 3) for a continuously moving processed fiber through a slot-shaped opening 8 of the processed outlet made in a flat body 6 fibers outside the working space of the pyrolysis furnace. The width of the slit-like hole 8 of the exit of the processed fiber beyond the working space of the pyrolysis furnace corresponds to the width of the processed fiber.

The flat housing of the sealing device 6 is equipped with a flexible element nitrogen 9 inflated from a heat-resistant fabric, covered by a sleeve 10 mounted on top of the flat housing 6 with an adjustable pin 11 of the clamping bar 12 in the form of a tubular shape segment (Fig. 3). The surface of the flexible nitrogen-inflated element 9 is covered with a carbon cloth (not shown in FIG.).

The proposed sealing device with a nitrogen shutter for a pyrolysis furnace for the production of carbon fibers from cellulose hydrated fibers is operated as follows. A box-shaped housing 2 mounted on wheels equipped with wheels 1 and with cooling ribs 3 of a nitrogen shutter is connected to the housing of the working chamber of the pyrolysis furnace of the original tow cellulose hydrate using a docking flange 5. On the other side of the box-shaped housing 2, a sealing device is made, which is made in the form of a matching docking flange 5 of the flat body 6 (FIG. 2) with the support platform 7 rigidly mounted on the flat body 6 (FIG. 3).

The processed tow fiber continuously moving from the working chamber of the pyrolysis furnace through the slit-shaped hole 8 in the flat housing 6 for exiting the processed fiber outside the working space of the pyrolysis furnace passes through the space of the box-shaped body 2 and is fed through the slit-like hole 8 to the next technological step for producing carbon fiber. In this case, the moving processed tow fiber is hermetically pressed by a flexible nitrogen-inflated element 9 made of heat-resistant fabric to the surface of the supporting platform 7, and the flexible nitrogen-inflated element 9 is equipped with a sleeve 10 mounted on top of a flat housing 6 with an adjustable pin 11 of the clamping bar 12 in the form of a tubular segment (Fig. 3). Pressed by a flexible nitrogen-inflated element 9 to the surface of the support platform 7, a moving flexible nitrogen-inflated element 9 reliably protects the working space of the pyrolysis furnace from the air entering the workshop.

Claims (2)

1. Sealing device with a nitrogen shutter for a pyrolysis furnace for the production of carbon fibers from cellulose hydrate fibers, characterized in that it is made in the form of a flat body with a support platform rigidly mounted on it and a slot-shaped hole for continuous movement of the processed fiber through it outside the working space of the furnace pyrolysis, moreover, the flat housing of the sealing device contains a flexible nitrogen-inflated element made of heat-resistant fabric and attached to the top the th strip made in the form of a segment of a tubular shape, while the surface of the flexible nitrogen-inflated element is covered with a carbon cloth, and the clamping bar is mounted on a flat casing by means of a sleeve with an adjustable pin, while the flat casing of the sealing device is made with the possibility of attaching to the furnace by means of mounted on a sliding trolley of the box-shaped body with cooling fins and a slit-like flange made on one side of the box-shaped body for its connection to the working chamber of the furnace oliza and a docking flange on its other side, designed to attach a sealing device. 2. The sealing device according to claim 1, characterized in that the width of the slit-like opening of the exit of the processed fiber outside the working space of the furnace corresponds to the width of the processed fiber.

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