SU1063899A1 - Hydraulic disintegrator of waste paper mass - Google Patents

Abstract

1. HYDRODISTANT MASS MACHINE, comprising a body with an end cap, a rotor mounted along the central axis of the internal volume of the body, a sieve mounted behind the rotor at the entrance to the clean mass receiving chamber, a tangentially located branch pipe for supplying the mass to be cleaned, and branch pipes of the cleaned mass, heavy and light inclusions, characterized in that, in order to reduce energy consumption by increasing the mass cleaning efficiency of light inclusions, it has a recirculation system of the mass to be cleaned, made in the form of Foot valve and piping with the receiving chamber, ZA4 replennoy on the front housing cover, wherein the end member has a perforated septum through which the receiving chamber is connected with the interior of buildings, a pipe outlet light impurities is mounted in the receiving chamber. 2. The hydraulic pulper according to claim 1, differing in that it has a means for leveling the pressure in the receiving chamber and along the central axis of the body, made i in the form of a hollow truncated cone installed in the body - fixed (with a large base on the end cover 3. Hydraulic diffuser according to claim 1, about tl, which is due to the fact that, in order to increase the efficiency of trapping light inclusions of elongated shape, the perforated partition consists of parallel mounted plates. SAE 00 X) QO

Description

The invention relates to devices for the dissolution, cleaning and sorting of fibrous materials used in the pulp and paper industry. The invention can also be used in the construction industry and in waste paper processing plants. The pulper mass puller is known, which includes a body with an end cap mounted on. the central axis of the internal volume of the rotor, sieve, mounted behind the rotor at the entrance to the chamber, receiving the cleaned mass, tangentially disposed nozzle for feeding the cleaned mass and the nozzles for discharging the cleaned mass, heavy and light entrances l. that in it the expansion (pre-release) of the fibrous material is carried out by the separation of non-dissolving light inclusions, polyethylene, corks, cellophane and other polymeric materials that cannot be separated from the fibrous oh weight in a conventional pulper. Separation of inclusions from the pulp occurs as a result of the rotational flow of the mass to be cleaned in the pulper tank. Heavy inclusions whose density significantly exceeds the density of water (mass), i.e. Contaminants of metallic and mineral origin are thrown to the side walls of the tank and discharged through a pipe to divert heavy waste. Light inclusions, the density of which is less than the density of water (mass), are collected in the center of the tank along the longitudinal axis of the apparatus and discharged through the outlet for light inclusions, located in the center of the end cover of the apparatus opposite to the rotor. Increasing the efficiency of separating light inclusions by more fully utilizing the effect of separation under the action of rotational motion. The disadvantages of the known pulper include the fact that the separation effect used in it under the action of centrifugal forces does not completely solve the problem of separating light inclusions. This is due to the fact that in addition to light inclusions having a density lower than the density of water, the mass to be cleaned contains a significant amount of inclusions, the density of which is close to the density of water, such light inclusions include various polymeric films and first of all film polyethylene. Such light inclusions are involved in circulation throughout the entire capacity of the pulper and are poorly separated. As the pulper works, due to the screening effect, the concentration of these inclusions in the tank increases and when it increases many times in comparison with the concentration in the incoming mass, the valve is opened on the pipe of the removal of light inclusions. When opening said valve, light inclusions accumulated in the center due to the separation effect, and the mass with a high content of light inclusions accumulated as a result of the screening effect of the sieve, from the pulper through the light waste nozzle and sent for subsequent sorting to separate light inclusions from good weight. Removing light inclusions in the considered pulper requires a significant amount of weight (10-20%) to be removed from the pulper, which reduces the performance of the process stream, increases energy costs and the load on the subsequent sorting process, and also reduces the efficiency of cleaning from light inclusions. In addition, during the accumulation process, light inclusions are circulated for a certain time in the vessel and, when interacting with the rotor, are partially crushed and fall into a suitable mass. This reduces the cleaning efficiency of light inclusions and increases the cost of power with increasing concentration of light inclusions in the tank. The purpose of the invention is to reduce energy consumption by increasing the efficiency of cleaning the mass from light inclusions. The goal is achieved by the waste pulper having a body with an end cover, a rotor mounted on the central axis of the internal volume of the body, a sieve mounted behind the rotor at the entrance to the clean mass receiving chamber, a tangentially positioned branch pipe for feeding the cleaned mass and the outlet pipe of the cleaned mass heavy and light switches, has a recirculation system and a cleaned mass, made in the idea of a bypass pipeline with a slide and a receiving chamber fixed in the end cover of the housing, with than the cap, it has a perforated partition, through which the receiving chamber is connected to the internal volume of the housing, and the light-off tap diversion nozzle is mounted in the receiving chamber.

In addition, the pulper has a means for equalizing the pressure in the receiving chamber and along the central axis of the body, made in the form of a hollow truncated cone installed in the body, fixed with a large base on the end cover.

In this case, the perforated partition of the pulper consists of parallel-mounted plates.

The proposed pulper provides continuous withdrawal from the tank of light inclusions separated by both the separating and sorting effects, and reducing the amount of mass removed periodically with the waste. As a result, a more efficient cleaning of the mass from light inclusions with less energy is achieved, since the light inclusions from the pulper are retracted with a small amount of mass, which in this Case performs only the transport function. Figure 1 shows the proposed gyro shredder, section, general view; in fig. 2 shows an embodiment of a perforated partition; in FIG. 3, section A-A in FIG. 2.

The pulper consists of a housing 1 with a face flap 2, a rotor 3 mounted along the central axis of the internal volume of the housing 1, a sieve 4 mounted behind the rotor 3 at the entrance to the receiving mass 5 chamber, a tangentially positioned nozzle b for supplying the mass to be cleaned and exhaust nozzles cleared mass 7Jt yellow 8 and light 9 inclusions.

The pulper has a recirculation system of the mass to be cleaned, made in the form of a bypass pipeline 10 with a valve 11 and a receiving chamber 12 fixed to the end cover 2. The front cover 2 has a perforated partition 13, through which the receiving chamber 12 is connected to the internal volume of the housing 1, and means for the equation, the pressure in the receiving chamber and along the central axis, made in the form of a hollow truncated cone-14, fixed with a large base, in the Cover 2. The nozzle 9 for tapping light inclusions is mounted on the receiving chamber 12 and is provided with a valve 15. The perforated partition 13 consists of parallel-mounted plates 16. The rotor 3 is mounted on the shaft 17 with bearings 18.

The pulper works as follows.

In the capacity of the housing 1 through the tangential nozzle b serves pre-dissolved in the primary pulper weight. Under the action of the rotor 3, the mass finally dissolves, passes the sieve 4 and enters the receiving mass receiving chamber 5, from which it is discharged through the nozzle 7. Under the influence of the rotating rotor 3 and the tangential entry, the mass in the case 1 receives a rotational motion, resulting in pressure in the case increases from center to periphery from. action of centrifugal force. The presence of a pressure equalization cone 14 provides in chamber 12 the same pressure as at the center of the tank.

15 devices, i.e. In this case, when the valve 11 is opened, the maximum pressure drop is reached before and after the perforated surface, and, consequently, the maximum mass recycling performance from the periphery is in the central part of the tank. When opening the valve 11 as a result of the pressure difference between the center and the periphery of the tank mass

5 is recycled through the circumferential pipe 10, the chamber 12 and the perforated partition 13. During the passage of the mass of the perforated partition 13, light inclusions

0 is held on its surface or hangs on the plates 16. With sufficient accumulation of inclusions on the perforated surface, the valve .11 closes and opens the valve 15. At this moment, the backward movement of the mass through the perforated partition 13, chamber 12 and nozzle 9 occurs. Measurements of a civbiBaiOTCH with a perforated partition to are derived from the hydraulic diffuser. After that, the valve 15 is closed and the cycle of operation is repeated.

In the proposed design of a HPDD, a full cleaning of the perforated surface of the lattice and the removal of the next portion of loose particles can be carried out with a relatively small consumption of the mass withdrawn from the pulper.

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The effectiveness of the invention compared to lime is in reducing the amount of mass withdrawn from the hydraulic distributor with light inclusions, which leads to a reduction in energy consumption. Since the mass containing light inclusions, less time is spent in the tank of the pulper and refiner,

It is found in the recirculation process on the perforated surface, greater efficiency is achieved in cleaning the mass from light inclusions.

Claims (3)

. 1. HYDRO DISPERSOR OF WASTE MASS, comprising a housing with an end cover, a rotor mounted on the central axis of the internal volume of the housing, a sieve mounted behind the rotor at the inlet to the cleaned mass receiving chamber, a tangentially located nozzle for supplying the cleaned mass, and a branch pipe for cleaning the cleaned mass, heavy and light inclusions, characterized in that, in order to reduce energy consumption by increasing the efficiency of cleaning the mass from light inclusions, it has a recirculation system of the cleaned mass, made in the form of a bypass a pipeline with a valve and a receiving chamber mounted on the end cover of the housing, the end cover having a perforated partition through which the receiving chamber is connected to the internal volume of the housings, and the branch pipe for removing light inclusions is mounted in the receiving chamber. 2. The pulper according to claim 1, characterized in that it has means for equalizing the pressure in the receiving chamber and along the central axis of the housing, made in the form of a hollow truncated cone mounted in the housing, fixed with a large base on the end cap. 3. The pulper according to claim 1, about τη. Characterized in that, in order to increase the efficiency of trapping light inclusions of elongated shape, the perforated partition consists of parallel mounted plates.