FI63606C - DEFIBRATOR FOR SOURCE AVERATION WITH SMUTS AND OTHERS STARK SAERSKILT VAOTSTARKA AVFALLSMATERIAL - Google Patents

Description

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France-France (FR) 7626589 (71) Ets E: & M. Lamort, 1 + 7, rue du Bac, F-51302 Vitry-le-Francois,

France-France (FR) (72) Pierre Lamort, Vitry-le-Francois, France-France (FR) (7 * 0 Berggren Oy Ab (5 * +) Pulper for the decomposition of dirty and very strong, especially wet, waste materials - Defibrator for use in connection with smutation and treatment Starka, särskilt vätstarka avfallsmaterial

French Patent 1,603,412 discloses a pulp for the high-density disintegration of cellulosic materials and waste paper and board for the manufacture of pulp, comprising a bath into which said material is to be fed and which is in a slow rotational motion to rotate and roll the material therein. va is oblique and to which is connected a rotor provided with raised stops, located inside said tub and moving in a rapid rotational motion to cause material disintegration, wherein the center lines of rotation of the tub and rotor are generally congruent and the rotor is located near the inner bottom of said tub.

According to a further patent 2 057 511 of said patent, the main patent is improved by a device consisting of: a motor mounted axially displaceable by means of a pusher known per se, fitted in a corresponding opening in the bottom of the tub so that the opening and the rotor cooperate in such a way that depending on the position of the rotor in the direction of the axis, there is a larger or smaller circular gap through which the disintegrated material is intended to exit the base surrounding the bottom of the 2 63606 tub for this purpose.

a tub having a sorting ring in the portion surrounding the base of the rotor, having a bevel with a sharp edge inside the tub and a substantially disc-shaped portion, called a disintegration turbine, with raised teeth on the side facing the tub, the circumference of the turbine rotating to the rotor attached with small clearances to the sharp edge of the bevel, and the surface of the turbine inside the tub determines, depending on its position relative to the sharp edge of the screen ring, a smaller or larger opening for the disintegrated material, such that the turbine centrifuged material passes through a current of thickness D , which opening thus corresponds to the sorting of material through slots with a width of D.

This sorting system, which takes advantage of the displacement of the rotor relative to the tub, occurs in those applications of the pulper in which the dimensions of the rotor are relatively small compared to the dimensions of the tub, as shown in supplementary patent publication 2,057,511.

In those embodiments of the pulper where the rotor is long, substantially as long as the tub, and massive, sorting is performed in a different way: instead of sorting by a screen ring and a turbine, a system of perforated gratings is used.

The reason for this change in the system is that in a pulper with a heavy and large rotor, it is difficult to implement a sliding transmission, for example by means of a liquid pressure pump, to rotate the rotor, given that the rotor consumes considerable power and rotates at high speeds.

The object of the invention is to make it possible to use a sorting system of the sorting ring and turbine type according to supplementary patent publication 2 057 511 with a large-mass rotor having a length almost equal to that of a tub and requiring a high force for tearing and breaking the material to be treated.

To achieve this purpose, the pulp

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3 63606 does not use the movement of the rotor but, on the contrary, the movement of the tub, i.e. the tank, while the rotor is stationary. The invention thus relates to a pulper for disintegrating dirty, strong and wet-strong waste materials, comprising a cylindrical container with an axis inclined with respect to a horizontal plane and rotated slowly in a certain direction of rotation, a feed device located at the upper end of the container, a rotor at least partially cut a pyramidal shape whose axis coincides with the axis of the container and is rotated at high speed in a direction opposite to the direction of rotation of the rotor, a sorting turbine in the form of a disc attached to the lower end of the rotor and cooperating with a sorting support supported by the bottom of the container.

The pulper according to the invention is mainly characterized in that the rotor is axially immovable and supported by an axis passing through the container and supported at both ends on bearings outside the container, that the container is adapted to be axially displaceable between two extreme positions by sliding its bottom on a sleeve adapted to surround the rotor. and slidably supporting the roller rail supported at the top of the container on rollers, the sleeve being mounted outside the container on a roller bearing axially attached to the sleeve, the bearing outer ring and housing being non-rotatable but axially displaceable by sliding the body in a stationary portion acting on the bearing.

The bath transfer mechanism preferably consists of a hollow shaft concentric with the bath, i.e. a sleeve rigidly attached to the bath and extending from said base to the outside of the bath and mounted on a roller bearing fixed to the pulp base so that it can move with the roller ring in its bearing direction - 63606 in the outer, non-rotating shell.

The actuator preferably consists of a lever or two identical levers symmetrical about the vertical center plane of the pulper, which lever or levers are pivoted at one end about a pivot pin fixed to the base so that when the other free end is moved the lever or levers move the hollow shaft and roller a combination to which said levers are articulated.

For moving the free end of the lever or levers, the device suitably comprises a main screw, the center line of which is parallel to the center line of the pulper and which is mounted on two bearings fixed to a stationary part of the base. Rotation of this screw causes the axial displacement of a transmission nut having a lateral extension or lateral extensions which insert into an elongate opening at the end of the lever or levers, respectively.

Preferably, said sleeve is not immediately connected to the bottom of the tub but is connected thereto by a substantially tubular bottom-long plate parallel to the bottom of the tub and rigidly connected thereto by crossbeams of a suitable type, the space between said plate and the bottom of the tub forming a collector of treated product.

The device for holding the bottom of the tub in a slow rotational movement preferably consists of a gear ring and a drive gear, the two members of which can easily slide relative to each other and of which the ring ring is fixed to the above-mentioned plate. Alternatively, the ring gear drive system can be replaced with a chain that allows for a slight cassette displacement of the tub.

The rotor is a robust rotor, relatively large in size, as mentioned above, so that it is well suited for heavy cutting, tearing and disassembly work.

Preferably, the rotor consists of a pyramid with a smaller base facing the inlet end of the tub and a larger base formed by the plane of the turbine, with the scattering teeth implanted on the sides of this pyramid.

5 6 3 60 6

To avoid wrapping the cords and the like, the rotor is at least about 350 mm in diameter.

The rotor preferably also has two working zones; a first working zone on the feed side, in which the rotor is provided with cutting blades for cutting into pieces the cellulosic materials penetrating the bath, and after the first a second zone, in which the rotor is provided with disintegrating teeth.

Other advantages and features of the invention will become apparent from the following description of a non-limiting embodiment of the pulver according to the invention and the accompanying drawing, in which: Fig. 1 is a sectional elevational view of the pulper according to the invention, Fig. 2 shows the pulper of Fig. 1 from left, Fig. 3 shows the pulper of Fig. 1 from above , Fig. 4 is a sectional elevational view of a bath transfer mechanism according to the invention, Fig. 5 schematically shows a feeding method of a pulper according to the invention, and Fig. 6 shows a rotating tooth of a rotor of a pulper according to the invention.

As shown in Figure 1, the pulper consists essentially of a bath 1 for receiving the material to be treated, moving in a slow rotational motion to cause the material therein to rotate and roll, with a sloping center line of the bath, and a rotor 2 provided with spreading teeth and cutting blades. is located inside the tub and moves in a rapid rotational motion in the opposite direction to that of the tub and whose tub and rotor centerlines of rotation are generally congruent, and the rotor extends from the inner bottom of the tub to almost the entire length of the tub. At its lower end, near the bottom of the tub, the rotor 2 comprises a part which is substantially disc-shaped and is called a dispersing turbine 3. This turbine 3 is provided with raised vanes 4 on its side, 6 63 60 6 facing the inside of the tub.

Similarly, the part 5 of the bath bottom 6 surrounding the turbine 3 has a ring 5, which is called a sorting ring. This sorting groove gas 5 comprises a chamfer with a sharp edge on the inside of the bath. As the rotor 2 rotates, the circumference of the turbine attached to it rotates with small clearances with respect to the beveled sharp edge, the surface facing the basin of the turbine 3 defining the beveled edge with a smaller or larger opening for the dispersed material, so that the turbine ejected with a thickness of D. This opening corresponds in function to the sorting of material through sieve slots with a width of D.

The size of the opening is thus adjusted by adjusting the clearance between the sorting ring 5 supported by the bottom 6 of the tub and the dispersing turbine 3 supported by the rotor 2.

The adjustment is performed by moving the tub in the direction of its centerline while the rotor remains axially in place.

To this end, as shown in Figures 1, 2, 3 and 4, and in particular in detail in Figure 4, the bottom 6 of the bath is rigidly fixed to a plate 7 parallel to said bottom by transverse beams 8 consisting of cylinders detailed in Figure 4 and bolts 9. the fixed plate 7 is rigidly fixed to the sleeve 10, the center line of which coincides with the center line of the rotor. The diameter of the inner opening of the sleeve is larger than that of the rotor drive shaft 12, so that the rotor can rotate freely inside the sleeve.

It can be clearly seen from Figure 4 that the sleeve 10 forms an inner part of a rolling bearing, the outer part of which is formed by a stationary body 13 fixed to the base of the machine.

The bearing has an inner ring 14 rotatably attached to the sleeve 10 and an outer ring 15 fixed to the base body 13 in a non-rotatable but freely movable manner by means of a wear and sliding piece 16 so that the sleeve 10 can move relative to the base and thus to the bath 1, the sleeve 10 is fixed rigidly relative to the base, the rotor remaining stationary.

In order to cause the sleeve 10 to move in the direction of its center line, the body 17, which forms the outer shell of the bearing, is immediately acted upon.

This displacement is effected by pivoting the angle lever 18 on a shaft 19 supported by a fixed bearing 20, which lever 18 axially pushes a rod 21 fixed on the lever pin 22 and on a rod 23 supported by two brackets 21, which brackets correspond to the bearing outer body 17.

As shown in Figure 3, there are in fact two levers 18a and 18b located on either side of the rotor drive shaft and two brackets 21 acting simultaneously, one by the lever 18a and the other by the lever 18b on the rod 23 of the sleeve 10, and so on. being to move the tub.

To turn the levers 18a and 18b, these are mounted on extensions 25a and 25b of the nut 26 cooperating with the guide screw 27, the rotation of the guide screw 27 causing the nuts 26 and its effect to move the ends of the levers 18a and 18b when the extensions 25a and 25b are located on the levers 18a and 18b. in the elongate openings 28a and 28b, respectively.

Figure 4 shows only one lever 18.

The steering screw 27 is mechanically rotated by the motor 30. A clutch sleeve 32 and a thrust bearing 33 are arranged between the motor shaft 31 and the steering screw 27.

The steering screw is supported at its other end, opposite the motor, by a rolling bearing 34 mounted on a base attached to the base of the machine.

In addition, the tub rotation device is designed to allow the tub to move in the direction of its centerline.

This bath rotating device consists of a rake ring 35 rigidly attached to the plate 7 and a fixed drive gear 36 rotated by a motor 37 fixed to one plane of the machine base. The two members, the gear ring 35 and the gear wheel 36, can slide axially relative to each other, with the gear wheel 36 remaining displaced but the gear ring moving with the tub.

Alternatively, a chain can be suitably used to allow a slight axial displacement of the tub (this version is not shown in the drawing).

The tub fed from the hopper 54 is supported close to its end on the feed opening side by two rollers 37a and 37b cooperating with the circumferential rail 38. As the tub moves axially as described above, the tub slides axially on rollers 37a and 37b.

The rotor 2 of the device is a relatively large rotor with a length of at least two thirds of the length of the tub and is extended at both ends by a support shaft supported at both ends by a rolling bearing mounted on the base, namely bearing 39 at the end near the feed opening and bearing 40 at the opposite end. The rotor rotating device consists of a motor 35 supported by a part fixed to the base of the machine, a drive chain 46 and a chain tension adjusting device 47 of a type known per se, supporting a transmission shaft connected to said rotor by means of a switch 48 of a conventional type.

The actual rotor body is largely pyramidal in length, from the bottom of the tub, with a small base facing the inlet of the tub and a large base formed by the plane of the dissipation turbine 3. The rotor teeth 42 are seated on the sides of this pyramid.

In order to prevent the strings or similar objects from wrapping around the main part of the rotor, the diameter of the rotor is at least of the order of 350 mm.

The first teeth of the rotor from the feed end of the tub, i.e. the teeth in the first part 2a of the rotor, consist of flat irons forming a cutting blade 43. These rectangular flat irons (or half plates) protrude on the circumference of the rotor in a plane perpendicular to the rotor centerline 63606. The purpose of these blades is to cut into pieces the cellulosic materials that penetrate the bath. Going towards the bottom of the bath, the following teeth (see Fig. 6), which are called scattering teeth 42, then consist of slopes / angles towards the bottom of the bath. The tip of the V-angle is directed in the direction of rotational movement of the rotor and its sides converge at the bottom of the tooth. Unlike sharpened cutting blades, rotor teeth flatten but do not cut material. They form grooves in the material to be treated, causing abrasion of the material on it. The V-angle teeth of the rotor are subjected to heavy wear during their tearing and disintegration work. For this reason, these teeth are provided with an easily removable doubling 44. The ratio between the maximum diameter of the rotor teeth and the maximum diameter of the tub is between 0.40 and 0.55. Similarly, the ratio between the diameter of the turbine and the diameter of the tub is between 0.50 and 0.70.

In addition, the diffuser teeth of the rotor are inclined at an angle of at least 35 °.

The adjustment mechanism of the mutual axial position between the plane of the dispersing turbine 3 and the bottom plane of the tub has been previously described. The axial position of the bath during the operation of the device is adjusted in such a way that the dispersing turbine 3 is slightly ahead of the interior of the bath 1 from the inner surface of the bottom 6 of the bath. The trajectories of the particles ejected by the rotor 2 are essentially contained in the plane of the turbine 3, so that, given the small clearance between the turbine 3 and the tub bottom opening, none of these particles can escape from the tub 1. When the device is to be emptied without stopping its rotation the turbine moves outwards with respect to the bath, thus having to be located retracted with respect to the sharp edge of even the 5th chamfer of the sorter. Under these conditions, at least some of the particles ejected by the rotor 2 exit the tub 1 through the annular opening between the chamfer 5 and the circumference of the turbine 3. If, on the other hand, the thickness of the particle is greater than the width of said opening, it cannot leave the bath 1.

This device allows the pulper to operate continuously, thanks to the sorting thus obtained, which does not allow the passage of anything other than sufficiently modified material, the main impurities of which have been removed.

As can be seen from Figures 1 and 4, the turbine 3 is provided with raised vanes 4 which, like the diffuser teeth of the rotor, and for the same reason, are inclined at an angle of at least 35 °. The purpose of this mini-softness is to allow all the undegraded materials, such as the strings to be placed on the teeth, to slide along the teeth. If this minimum slope is not met, these ingredients can be left to ride on the teeth, and quickly fill the entire rotor. In addition, said turbine blades 4 have a claw 4a. The purpose of this nail is to completely prevent the possibility of undistributed flat and thin materials slipping into the space between the circumference of said vanes and the sorting ring 5. This claw is sure to keep the sorting ring free.

Under the condition of the tub, helical members 49 (see Figure 1) may be used on the inner surface of the tub to facilitate the flow of material toward the stern of the tub from the feed opening. Thanks to this arrangement, the bath can be used only slightly, on the order of 15 °, or even horizontally.

Figure 5 schematically shows a pulper feeder. The feeding is performed by a conveyor belt 50 on which the cellulosic material to be treated is lowered. In order to make the operation regular and automatic, the following control means are used: - when the power required for the rotation of the rotor 2 reaches a predetermined maximum value, the belt 50 stops so that the device has time to modify the material fed to it.

- when the power required by the rotor 2 has dropped to a predetermined minimum value, the belt 50 restarts: - the water supply is divided into two parts: on the other hand, part of the water is supplied immediately to the end of the supply belt via the spray nozzle 51 (see Fig. 5); on the other hand, the rest of the water is discharged from the spray nozzle 52 inside the tub and directed onto the rotor 2, which causes the water to disperse into the pulp to be treated, - when the belt stops, the first water supply from the spray nozzle 51 stops, leaving only the second water supply 52. The purpose of this measure is to prevent excessive dilution of the material inside the tub during the supply shutdowns of the belt 50: - for hot operation, the water supply can be replaced by a steam supply. The purpose of this measure is to take advantage of the import of heat due to the condensation of steam.

The disintegrated mass leaving the pulper is recovered by a second conveyor belt 53.

Claims (8)

12 63606 A pulper for dispersing dirty, strong and wet solid waste, comprising a cylindrical tank (1) with an axis inclined with respect to a horizontal plane and rotated slowly in a certain direction of rotation, a feed device (54) located at the upper end of the tank, a rotor (2) inside the tank , having the shape of at least a partially truncated cone or pyramid (2b), the axis of which coincides with the axis of the container and is rotated at high speed in the opposite direction to the direction of rotation of the rotor, a sorting turbine (3) in the form of a disc attached to the lower end of the rotor (2) with a sorting ring (5) supported by the bottom (6, 7) of the container, characterized in that the rotor (2) is axially immovable and supported by an axis passing through the container (1) and supported at both ends (39, 40) by bearings outside the container; 1) is adapted to be axially displaceable between two extreme positions by slidably mounting its base (7) kk (10) adapted to surround the rotor drive shaft (12) and slidably supporting a roller rail (38) supported on the upper end of the container on rollers (37), the sleeve (10) being mounted outside the container on a roller bearing (14, 15, 16, 17) which is fixed axially to the sleeve (10), the bearing outer ring (15) and the housing (17) being non-rotatable but axially displaceable by sliding in a stationary part (13) of the body acting on the bearings of the bearing (14, 15, 16, 17) -timena. Pulper according to Claim 1, characterized in that the displacement of the sleeve (10) inside the frame-mounted support (13) is effected by at least one lever (18), one end of which rotates about a frame (19) fixed to the frame and the other end of which is driven by a frame-supported motor. (30) and whose central zone acts on the bearing housing (17). Pulper according to Claim 1 or 2, characterized in that the sleeve (10) is connected to the bottom (6) of the container by means of a plate (7) having dimensions substantially parallel to the bottom of the container, parallel to the container and rigidly connected to it. by means of cross-beams (8), whereby the space between the plate (7) and the bottom (6) of the container forms a collector of the treated product. 63606 Pulper according to one of the preceding claims, characterized in that the rotor (2) is formed by a truncated cone or pyramid with a small apex angle of at least equal to two thirds of the length of the container and a smaller base facing the container inlet and a larger base consists of the plane of the turbine (3), and that the disintegration teeth (42) are implanted on the sides of this truncated cone or pyramid. Pulper according to one of the preceding claims, characterized in that the rotor (2) has two zones in its longitudinal direction, of which the first zone (2a) is located on the feed side and is provided with a shredding master (43) and the second zone (2b) is located after this first zone. and is provided with diffuser teeth (42). Pulper according to claim 5, characterized in that the shredding blades (43) each consist of a substantially rectangular plate projecting from the circumference of the rotor (2) in a plane perpendicular to the center line of the rotor, and that the leading edge of the plate is sharpened. Pulper according to one of Claims 1, 4 or 5, characterized in that the spreading teeth (42) of the rotor (2) each consist of a V-shaped body projecting from the circumference of the rotor so that the tip of the V-section is directed in the direction of rotation of the rotor and V the sides of the tooth are pressed towards each other at the tip of the tooth, next to the rotor. Pulper according to one of the preceding claims, characterized in that the teeth (4) of the dispersing turbine (3) have a claw projecting from the outer edge opposite the sorting ring (5) to prevent flat and thin, undispersed materials from sliding on the turbine teeth (4) and sorting in the space between the ring (5). 63606