SU739164A1 - Device for loading pressurized vessel with granular material - Google Patents

Description

(54) DEVICE FOR DOWNLOADING BY BULK MATERIAL OF THE DEVICE WORKING UNDER PRESSURE

Claims (2)

The invention relates to loading devices used in petrochemical, hydrolysis, pulp and paper and other branches of the national economy, where there is a need for a continuous supply of drying materials to pressure machines, namely for the continuous loading of wood chips into continuous hydrolysis apparatus. A device for loading bulk material of pressure apparatus is known, which contains an isyuz chamber, closures in the upper and lower parts of the chamber, devices for equalizing pressure in the gateway with pressure in the loaded apparatus or atmosphere 1. The disadvantages of this device are the greater frequency of operation closures, which means intensive wear of sliding parts, the possibility of arching in an interchangeable container and np, portional supply of raw materials to the apparatus, as well as the presence of auxiliary devices that reduce e on the reliability and durability. In addition, the installation in front of them of additional devices is required - a bunker, a dispenser and an intermediate tank, the volume of which should be equal to the volume of the lock chamber. The aim of the invention is to prevent the material from forming in the slug chamber, to increase the reliability and duration of the device, its durability, to ensure a continuous supply of material to the device, and consequently, to increase the duration of the device and the product. This goal is achieved by the fact that in the device for loading bulk material of pressure vessels, including a vertical reloading sluice chamber, valves in the upper and lower parts of the chamber, the pressure regulator, the slug chamber is expanding downwards, has an inclined false bottom and the device for loosening and unloading of material, made in the form of an inclined movable stepped platform and a shaft connected by means of traction through eccentrics, with the stepped platform being installed with overshat rocking motion over Dnishev false lock chamber. In this case, the sluice chamber has a nozzle for feeding under a false bottom, which is provided with perforations. FIG. A longitudinal section is given of the aluminum chamber according to A-A of FIG. 2; in fig. 2 shows a section of a lock chamber according to BB fitting,. The device for loading bulk material of the apparatus working under pressure contains a vertical pinch chamber 1, diverging from the bottom and provided with elliptical bottoms with loading 2 and unloading 3 necks, on which the same closures 4 and 5 are installed, made in the form of spherical covers of the reverse type valve. In the lower part of the sluice chamber 1, an inclined false bottom 6 is fixed, forming with the wall 7 of the sluice chamber I a V-shaped groove in which the auger 8 is placed. The false bottom has perforations 9 and a hole 10 opposite the unloading neck 3 over the entire area. Above the inclined bottom 6 there is a device for loosening and unloading the material, consisting of step-by-step platform 11 suspended from the body of the sluice chamber 1 on the levers 12, and tschek 8 interconnected by means of traces 13 through eccentrics 14. The screw 8 has screw blades 15 and 16 s Aw, and the left spir, zlyu. The device also has a pipe fitting system containing a valve 17, through which the sluice chamber 1 communicates with the atmosphere, a valve 18 through which steam is supplied to the sluice chamber to equalize the pressure in it with the pressure in the apparatus, two valves 19 and 20 to supply water to washing, respectively, the top 4 and bottom 5 closures and the valve 21 for supplying steam to the lock chamber under the false dam for steaming is raw material. The mechanisms that drive the screw 8 and the bolts 4 and 5 are not shown in the drawing. The device works as follows. With the open gate 4, when the bottom 1 gate 5 and the valves 17-21 are closed and the screw 8 is not rotating, the lock chamber 1 is loaded with chips to a predetermined level. Then, the shutter 4 is closed with simultaneous washing of its sealing surface with water supplied through the valve 19, and through the valve 18 the steam is supplied to the lock chamber 1 to equalize the pressure in the apparatus with pressure. The shutter 5 is opened and the screw 8 and the reciprocating motion associated with the stepped platform 11 connected to it and rotated. Due to the downward form of the front chamber 1, the loaded material under the action of gravity freely lowers to the stepped platform 11, is dumped with a scraper to the discharge nipple 8 and further propelled by the auger to the unloading opening, step 10. After the material is loaded into the apparatus, the shutter 5 is closed with a single wash of its sealing surface with water supplied through the valve 20, and through the valve 17 lock chamber communicates with the atmosphere. To carry out the steaming of the raw material before the operation of equalizing the pressure in the sluice chamber with the pressure in the apparatus through the valve 21, low pressure steam is supplied under the false bottom 6. Installation of at least two sluice chambers with closures on the apparatus ensures a continuous supply of material, which makes the hydrolysis process more stable. The combination of a downstream chambered chamber with a device for unloading material, made in the form of a ripper and auger, connected by means of eccentrics placed on the auger shaft, prevents the material from hanging and free forming, and therefore, clogging of the sluice chamber makes it possible to increase the volume of the overload chamber to desired size without increasing the size of the filling and discharge ports with closures, improves the sealing conditions of the closures. A large volume of the sluice chamber leads to a lengthening of the operation cycle of the device, a decrease in the frequency of loading the valves and wear of the parts of the valves, i.e., it increases the reliability of operation and durability of the device. The proposed loading device can simultaneously perform the functions of a hopper, a metering device and a steam chamber. Claim 1. Device for loading bulk material of a pressure apparatus, comprising a vertical sluice chamber with loading and unloading ports, valves installed in the upper and lower parts of the chamber, and a pressure regulator, which is This is so that, in order to ensure the reliability and durability of the device and prevent arching, it has a device for unloading material installed in the airlock chamber, consisting of a screw with eccentrics attached to its shaft and a ripper interconnected by pulling through the eccentrics of the auger, and the airlock chamber is made expanding in the direction from the loading to the discharge opening and has a false bottom that is set obliquely in the direction of the discharge opening. 2. The device according to claim 1, characterized in that the airlock chamber has a nozzle for steam supply under a false base, provided with perforations, and the ripper is designed as a stepped platform. Sources of information taken at the forefront during examination I. Finland patent 51508, cl. O 21 S 7/06, 1973 {prototype).  / / -: - f. 12 FIG. g