RU172538U1 - DRY PYROLYSIS PRODUCT UNLOADING UNIT - Google Patents

Abstract

The utility model relates to the field of processing carbon-containing products, waste and raw materials, solid household waste, including tires, namely, devices for thermal pyrolysis of car tires and rubber products (RTI). The essence of the utility model is that, unlike the prototype, the body of the discharge device dry pyrolysis products open on the end side, inside the housing there is a device for capturing dry pyrolysis products, installed with the possibility of reciprocating movement along the body a and output beyond the housing with an open end storony.Tehnicheskim result, which aims at achieving a useful model is to preserve the continuity of processing carbonaceous products of the process without grinding them while increasing reliability and ensuring versatility carbonaceous pyrolysis installation produktov.10 ZP f-ly, 4 ill.

Description

The utility model relates to the field of processing carbon-containing products, waste and raw materials, solid household waste, including tires, namely, thermal pyrolysis devices for car tires and rubber products (RTI).

A known installation of thermal pyrolysis of carbon-containing products described in the method of thermal processing of tires. The installation has a vertical layout of series-connected elements of a sealed feeder for loading tires, a reactor for the pyrolysis process, a cooled hopper and a blower for cooling the hopper [patent for invention No. RU2139187, priority date: 10.24.1997, publication date 10.10.1999, IPC : B29B 17/00].

The disadvantages of this installation is the possibility of unloading dry pyrolysis products only after they have cooled in a cooled hopper after a time and the presence of an additional cooling system.

A known installation of thermal pyrolysis of carbon-containing products described in the method of thermal processing of tires and rubber products. The installation consists of a sealed feeder through which shredded car tires and rubber goods are fed and cooled solid waste is discharged, a reactor for the pyrolysis process and a hopper for the accumulation of dry pyrolysis products [patent for invention No. RU 2248881, priority date: 06/18/2003, publication date 03/27/2005, IPC: B29B 17/00].

A disadvantage of the known installation is the impossibility of processing tires and rubber goods not crushed to a fraction of 50-100 mm and, accordingly, whole car tires, and this in turn creates the need for the installation of additional equipment to perform work on grinding car tires. Also, this fact greatly limits the versatility of this device.

As a prototype, the installation of low-temperature pyrolysis of worn automobile tires by the continuous method without preliminary preparation was selected. The installation is mounted on a mobile platform. One-piece automobile tires are placed in a hermetically sealed loading chamber. The loading chamber and the pyrolysis chamber are separated by a sealed shutter. The pyrolysis process is carried out at a temperature of 450-550 ° C in continuous mode. The reactor chamber is equipped with a butar - a rotating drum with screw guides made on the inner surface. The solid residue is discharged in the form of carbon black and metal cord by a rotating screw and metal cord collection chamber, respectively [patent for invention No. RU2399488 C2, priority date: 03/17/2009, publication date 01/20/2010, IPC: B29B 17/00].

The disadvantages of the prototype are the design complexity and a large number of nodes requiring active water cooling. Failure of the cooling system or clogging of the channels supplying the cooling liquid can lead to damage or destruction of the corresponding structural unit. Also, due to the fact that the installation is mounted on the chassis of the trailer, it is necessary to carry out additional checks of the clearances of adjacent elements and the alignment of rotating parts, which could change due to vibration during movement of the installation and when placed on an uneven site, which increases the complexity of reactor maintenance and requires highly qualified staff.

The technical problem to which the utility model is directed is to increase the efficiency of the pyrolysis installation of carbon-containing products.

The technical result, which the utility model aims to achieve, is to maintain the continuity of the processing of carbon-containing products without prior grinding, while increasing reliability and ensuring the versatility of the pyrolysis of carbon-containing products.

The essence of the utility model is as follows.

The device for unloading dry pyrolysis products contains a housing. Unlike the prototype, the casing is open from the front side, inside the casing there is a device for capturing dry pyrolysis products installed with the possibility of reciprocating movement along the casing and going beyond the casing borders from the open front side.

Dry pyrolysis products are understood as pyrolysis wastes of carbon-containing products that are not decomposed during the pyrolysis, for example, silicon inclusions, wire of metal tires of automobile tires and rubber goods, fiberglass remaining after processing fiberglass wastes. Since pyrolysis occurs with constant rotation of the pyrolysis chamber, the dry pyrolysis products form a curl at the bottom of the pyrolysis chamber, which can be removed using the dry pyrolysis product discharge device.

The body of the device for unloading dry pyrolysis products can be made in the form of a rectangular parallelepiped, cylinder or parallelepiped with an arcuate bottom. The shape of the box is selected from the conditions of the size and shape of the unloaded pyrolysis products, as well as the shape and size of the pyrolysis chamber.

The body of the device for unloading dry pyrrolysis products is open on one end side, that is, without a side wall for communication with the discharge opening of the pyrolysis chamber, or is equipped with a side gate for dust-free movement of the device with the unloaded dry pyrolysis products, and on the other hand is equipped with a removable cover with an opening in a center for passing through it a device for capturing dry pyrolysis products. The hole in the lid can be made below the center of the lid, but in the center relative to the side faces with a groove, or a groove, or a labyrinth seal to install a seal, which ensures tight movement of the device for capturing dry pyrolysis products. The dimensions of the casing of the device for unloading dry pyrolysis products are selected from the conditions for allowing the arrangement of a bundle of dry pyrolysis products inside it so that the lay does not remain in the pyrolysis chamber or discharge opening.

The housing and the housing cover of the device for unloading dry pyrolysis products can be made of steel or stainless steel or any other known material that provides wear resistance to mechanical stress, stiffness and shape preservation along the entire length of the housing and housing cover and withstands the influence of the temperature of the unloaded dry pyrolysis products.

Hermetic connection of the body of the device for unloading dry pyrolysis products to the pyrolysis chamber is carried out at the location of the discharge opening of the pyrolysis chamber. The connection can be carried out using any detachable means of connection, for example, bolted, by means of clamps or by preloading, the entire device through an eccentric or wedge. It is also possible to tighten the casing of the device for unloading dry pyrolysis products to the pyrolysis chamber by simultaneously resting the jack or lever into a load fixed to the ground. Clips or bolts can be installed on the wall of the pyrolysis chamber, while on the body of the device for unloading dry pyrolysis products, counterparts of the clamps are installed in the form of eyes or holes for installation on the bolts. An eccentric can be mounted on a trolley moving device. After the casing of the device for unloading dry pyrolysis products with the wall of the pyrolysis chamber by an eccentric is simultaneously pressed and the device for unloading dry pyrolysis products is simultaneously pressed.

The tightness of the connection is ensured by the fact that the dimensions of the cross section of the casing of the device for unloading dry pyrolysis products are larger than the dimensions of the discharge opening by the size of the sealant. The sealant can be located on the end of the housing of the device for unloading dry pyrolysis products from the side of its attachment to the pyrolysis chamber or on the wall of the pyrolysis chamber along the perimeter of the discharge opening. The sealant can be made in the form of a cord, strip, or any other shape, from any known material that provides tightness, elasticity and withstands temperatures up to 600 ° C, for example, from graphite, fiberglass, asbestos, ceramic fiber.

The unloading aperture is an opening in the pyrolysis chamber located at the chamber end at a minimum distance from the chamber bottom to provide the least resistance from the side of the chamber wall when unloading dry pyrolysis products. The opening has a device for sealing the pyrolysis chamber during the pyrolysis process and depressurization of the pyrolysis chamber after connecting the device for unloading dry pyrolysis products.

The sealing device of the unloading opening can be performed by means of a door in the form of a plate larger than the opening with a seal attached to it. The plate is rigidly connected to the pivot arm through an axis of rotation mounted in cylindrical bushings that are attached to the end of the pyrolysis chamber. Since the plate and the lever are rigidly fixed on one axis, when the lever is rotated in space at any angle and in any direction, the door plate repeats the trajectory of movement to the same angle and in the same direction. Depending on the direction of the applied force to the lever, the door either closes the opening or opens it. For the duration of the pyrolysis process, the door is rigidly fixed to the pyrolysis chamber by a bolt, screw or other detachable connection method. When installing a sealing device in the form of a door at the end of the body of the device for unloading dry pyrolysis products, a groove with a seal is provided for passing the axis of rotation of the door.

The sealing device of the discharge opening may be a slide gate made in the form of a plate larger than the discharge opening. The plate is inserted into the guides installed around the perimeter of the discharge opening, equipped with seals for sealing joints. The plate has the ability to freely move along the guides in the forward and reverse directions, depending on the force applied to it, thereby opening and closing the discharge opening.

The elements of the sealing device of the discharge opening can be made of any materials providing mechanical strength and resistance to temperatures up to 600 ° C or lower, provided that the walls of the device are sufficiently cooled by the environment and are connected using any known detachable or integral method of attachment.

The device for capturing dry pyrolysis products, hereinafter referred to as the harpoon, consists of series-connected elements, namely, punching peaks, means of engagement, base, means of support and centering of the base, a drive mechanism for creating a reciprocating movement or only return movement.

The punching peak can be made in the form of a solid cone or a pyramid or any other shape that meets the least resistance from the side of the lay of dry pyrolysis products during the passage of the peak through it. The piercing peak may be mounted on the base of the harpoon and connected by any of the known detachable or integral couplings.

The means of engagement can be made of one, two or more plates made of stainless, heat-resistant or structural steel or other material resistant to high temperatures and having high mechanical strength. The engagement means may contain an unlimited number of plates, one option is to use two plates mounted on the base of the harpoon with an angle of offset of 180 ° relative to each other along the generatrix of the cross section of the base. This allows you to avoid skewing the lay of dry pyrolysis products when moving it into the casing of the device for unloading dry pyrolysis products. The fastening of the plates to the base of the harpoon can be carried out by any known detachable or integral method. The plates can be made in the form of a rectangle, polyhedron or triangle, rod or other shape, provided that when the plates are installed on the base of the harpoon, they form a figure with it, the longitudinal section of which will be in the form of a hook. The angle between the plate and the base of the harpoon should provide sufficient engagement of the dry pyrolysis products by the plates to remove the lay from the pyrolysis chamber. The thickness of the plates should be sufficient so that they do not deform when stretching the strand, and is selected depending on the applied force.

The means of engagement can be performed by plates recessed in the slot on the base of the harpoon. The base of the harpoon is hollow and slots are made on it slightly larger than the sizes of the plates for the free passage of the plates. Perpendicular to the location of the slots in the base of the harpoon can be installed axis of rotation in the form of bolts, studs or rods. The plates have holes through which they are worn on the axis of rotation. Tie rods are attached to each plate inside the base, which form a traction system connected to a cable or a bar skipped inside the harpoon base, and on the other hand, a lever is attached to the cable or bar to create a force. Under the action of the force applied to the lever, the cable or rod is tensioned and the rod system acts on the plates, forcing them to leave the harpoon base through the slots. When the means of engagement with the recessed plates is performed, the harpoon's patency is improved through a bundle of dry pyrolysis products in the direction of the harpoon into the pyrolysis chamber. Also, after the end of the unloading of dry pyrolysis products, the indicated gearing design allows you to quickly free the harpoon from the dry pyrolysis products by applying force to the harpoon base in the direction of the pyrolysis chamber, thereby folding the plates in the slot of the harpoon base.

The base of the harpoon can be made in the form of a rod or pipe of round, square or other cross-section from a material resistant to shock types of deformation, tension and compression, for example, structural steel, stainless steel, titanium or another metal. The length of the harpoon base should be sufficient for passage through the body of the device for unloading dry pyrolysis products so that the piercing peak and the means of engagement enter the pyrolysis chamber for punching and gripping a bundle of dry pyrolysis products, and the counterpart of the harpoon base exits through an opening in the removable housing cover. This is necessary to ensure constant support and alignment of the harpoon base from the side of the drive mechanism and connection with it. On the basis of the harpoon from the side of the drive mechanism, means can be provided for connecting the harpoon and the drive mechanism, which can be made in the form of a ring, clamp or staple made of structural steel, titanium or other mechanically strong material.

The tool for supporting and aligning the base of the harpoon can be made in the form of an equilateral rectangle, triangle, parallelepiped or other geometric shape made of rods, pipes or corners of a material that provides mechanical strength, such as structural steel, titanium, connected by any known detachable and inseparable methods . To reduce the force exerted to move and the frictional force when moving the harpoon inside the box, the support and centering means of the harpoon base can be equipped with rollers or wheels. The support and centering tool is attached to the lower point of the harpoon base on the side of the piercing peak so that when the support and centering means are reached in the direction of the pyrolysis chamber, the piercing peak and engagement means are inside the pyrolysis chamber and penetrate the lay of dry pyrolysis products.

The drive mechanism can be based on a winch with an electric drive or a system of cables and blocks with a manual drive or using a rack drive, a pneumatic or hydraulic cylinder.

The device for unloading dry pyrolysis products can be implemented on a rail to reduce the effort for its movement and eliminate the need to center the device relative to the discharge opening each time it is attached to the pyrolysis chamber. To do this, once the installation of the rail track is carried out according to the level, and at the desired distance, the pyrolysis chamber is also stopped for unloading in one position. The positioning of the pyrolysis chamber in one position can be implemented using displacement sensors and the brake system or set by manual adjustment through the gearbox of the drive mechanism.

The device for unloading dry pyrolysis products may have a furnace assembly hermetically attached to it to displace the remaining oxygen in the body of the device for unloading dry pyrolysis products after attaching it to the pyrolysis chamber. The remaining oxygen, when it enters the pyrolysis chamber, can oxidize a dry carbon residue, which worsens its properties, and a combustion reaction with residual pyrolysis gases can also occur. To prevent this, combustible materials are burned in the furnace unit, and the gases emitted during combustion are directed into the body of the device for unloading dry products. Also, the body of the device for unloading dry pyrolysis products can be purged with carbon dioxide or inert gases with a molecular weight greater than the molecular weight of oxygen.

The utility model is characterized by a number of significant distinguishing features, in particular:

- the device for unloading dry pyrolysis products has an open end face for tight connection to the discharge opening in the pyrolysis chamber, thereby restricting oxygen access to the pyrolysis chamber, which allows you to unload dry pyrolysis products at the operating temperature of the pyrolysis chamber. Accordingly, the long cooling-off phase of the pyrolysis chamber for unloading dry pyrolysis products and the energy-intensive stage of reheating the pyrolysis chamber are excluded.

- the device for unloading dry pyrolysis products is connected to the pyrolysis chamber using a detachable connection, which makes it possible to use the device in several plants. When installing a number of similar plants for processing automobile tires, rubber goods and other raw materials in the pyrolysis chambers, you can use one device for unloading dry pyrolysis products by connecting it to these plants one by one. For this, the start time of the pyrolysis of each installation for processing carbon-containing products is shifted by the time of unloading of the dry pyrolysis products relative to each other.

- the device for unloading dry pyrolysis products contains a device for capturing dry pyrolysis products, made with the possibility of reciprocating motion along the housing and providing movement of dry pyrolysis products from the pyrolysis chamber.

The above characteristics were not previously known from the prior art, and the design of the device for unloading dry pyrolysis products from the pyrolysis chamber is not obvious. This design eliminates the need for cooling the pyrolysis chamber, reduces the complexity of the apparatus design and allows the use of a device for unloading dry pyrolysis products at the same time at several plants for processing carbon-containing products, which in turn ensures the achievement of a technical result consisting in maintaining the continuity of the processing of carbon-containing products without pre-grinding while increasing NOSTA and ensuring versatility of installation and, consequently, enhances the efficiency of the plant pyrolysis of carbonaceous products.

The above allows us to conclude that the utility model meets the patentability criterion of "novelty."

The utility model can be made of known materials using known means, which allows us to judge its compliance with the patentability criterion of "industrial applicability".

The utility model is illustrated by the following drawings.

FIG. 1 is a view of the installation on the right before unloading dry pyrolysis products;

FIG. 2 - set view to the right after unloading dry pyrolysis products;

FIG. 3 is a view of a discharge opening with a sealing device;

FIG. 4 - view of the harpoon.

The pyrolysis installation of carbon-containing products contains a loading device (not shown in the drawings) connected in series, a pyrolysis chamber 1 equipped with a discharge opening 2, means for unloading the carbon residue (not shown in the drawing), a device for heating the pyrolysis chamber (not shown in the drawings) , a device for removing gases (not shown in the drawings) and a device 3 for unloading dry pyrolysis products. The device 3 for unloading dry pyrolysis products contains a housing 4 mounted on a trolley 5, which is mounted on rails 6 for moving and centering the device 3 for unloading dry pyrolysis products. A harpoon 7 is located inside the housing 4, inserted through an opening in the removable cover 8 of the housing 4. The harpoon 7 consists of a base 9 made of a pipe and installed on the support and centering means 10. A piercing peak 11 is attached to the base 9, and an engagement means 12 is implemented inside the base 9. The engaging means 12 is presented in the form of retractable plates 13, which are connected to the link system 14 and serve to engage the twist 15 of the dry pyrolysis products. A cable 16 is passed through the base 9, connecting the linkage system 14 on one side and the tension lever 17 on the other side, a metal bracket 18 is attached to the base of the tension lever 17 on the base 9 by welding, which serves to connect to the reciprocating drive (not shown in drawings). The discharge opening 2 has an opening sealing device 19, presented in the form of a door 20 and a lever 21, rigidly mounted on one axis of rotation. Around the perimeter of the discharge opening 2 and the end of the housing 4 is a sealing cord 22.

Installation of pyrolysis of carbon-containing products and a device for unloading dry products are as follows.

The pyrolysis chamber 1, after the end of the pyrolysis process, stops at the unloading position of the lay of 15 dry pyrolysis products. The truck 5 on the rails 6 is moved using a manual or mechanical drive in the direction of the pyrolysis chamber 1 until the end of the housing 4 contacts the end of the chamber 1 through the sealing cord 22. The housing 4 is connected by means of a bolt connection to the pyrolysis chamber 1 and forms a tight connection. The lever 21 is rotated along the axis of rotation in the "open" direction and the door 20 opens into the space of the housing 4, thereby depressurizing the discharge opening 2.

The harpoon 7 moves in the direction of the pyrolysis chamber 1, passing through the discharge opening 2 until the piercing peak 11 comes into contact with a bundle 15 of dry pyrolysis products. By means of the impact force applied to the base 9, from the drive side of the reciprocating movement, the twist 15 is pierced by the piercing peak 11 and the harpoon 7 passes into the pyrolysis chamber 1. The passage of the harpoon 7 into the pyrolysis chamber 1 occurs until the support and centering means 10 reach their final position in the gripping direction and the engaging means 12 is located inside the bundle 15 of dry pyrolysis products. The tension of the lever 17 in the direction of exit from the chamber of the harpoon 7 causes the tension of the cable 16 and the link system 14, which drives the retractable plates 13. The plates 13 are pulled out of the slots made in the base 9, ensuring reliable adhesion of the harpoon 7 and the lay 15 of dry pyrolysis products. To move the harpoon 7 and remove the bundle 15 of dry pyrolysis products from the unit, it is pulled by a metal bracket 18 using a reciprocating drive until the support and centering means 10 reach its final position in the discharge direction. The final position of the unloading of the harpoon 7 is determined by the emphasis of the support and centering means 10 on the removable cover 8 of the housing 4. The lever 21 is rotated in the “closed” direction and the door 20 is closed, thereby sealing the unloading opening 2. Housing 4 of the dry unloading device 3 pyrolysis products are disconnected from the end of the pyrolysis chamber 1, and the device 3 for unloading dry pyrolysis products is moved from the pyrolysis chamber 1 to the deadlocks (not shown in the drawings) mounted on the rails 6. The door 20 is temporarily held The pyrolysis process is bolted to the pyrolysis chamber for reliable sealing of the discharge opening.

The removable cover 8 is disconnected from the body 4 and the harpoon 7 is continued to be pulled by the reciprocating drive until both the harpoon 7 and the bundle 15 of dry pyrolysis products fall out of the body 4. Under the action of the shock force applied to the base 9 from the location of the metal bracket 18, the harpoon 7 is displaced inside the bundle 15 of dry pyrolysis products and the engagement means 12 are folded. The twist of 15 dry pyrolysis products is freely separated from the harpoon 7 and removed for its subsequent disposal. A removable cover 8 with a harpoon 7 is installed in the housing 4. The cycle is repeated after the end of the pyrolysis process.

Claims (11)

1. A device for unloading dry pyrolysis products, comprising a housing, characterized in that the housing is open from the front side, inside the housing there is a device for capturing dry pyrolysis products installed with the possibility of reciprocating movement along the housing and going beyond the borders of the housing from the open end side. 2. The device for unloading dry pyrolysis products according to claim 1, characterized in that the device for capturing dry pyrolysis products consists of series-connected breakdown peaks, means of engagement, base, drive mechanism for creating a reciprocating motion. 3. The device for unloading dry pyrolysis products according to claim 2, characterized in that the device for capturing dry pyrolysis products further comprises means for supporting and centering the base. 4. The device for unloading dry pyrolysis products according to claim 2, characterized in that the breakdown peak is made in the form of a solid cone. 5. The device for unloading dry pyrolysis products according to claim 2, characterized in that the breakdown peak is made in the form of a solid pyramid. 6. The device for unloading dry pyrolysis products according to claim 2, characterized in that the gearing means comprises plates mounted on the base. 7. The device for unloading dry pyrolysis products according to claim 3, characterized in that the support and centering means of the base are made in the form of a polygon made of rods. 8. The device for unloading dry pyrolysis products according to claim 6, characterized in that the gearing means comprises two plates mounted on the base with an offset angle of 180 ° relative to each other along the generatrix of the cross section of the base. 9. The device for unloading dry pyrolysis products according to claim 6, characterized in that the base is hollow and has slots for passing plates through them. 10. The device for unloading dry pyrolysis products according to claim 9, characterized in that the axis of rotation is installed perpendicular to the location of the slots in the base, and the plates are worn on the axis of rotation. 11. The device for unloading dry pyrolysis products according to claim 10, characterized in that rods are attached to the plates inside the base, forming a rod system attached to the cable passed inside the base, and a lever is attached to the other end of the cable.

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