NL8204241A - Pressing pellets from solids-based paste - by rotating toothed pressure member meshing with rotary die having orifices in tooth valleys - Google Patents

Abstract

Mechanism is intended for pressing pellets (16) from liquid containing paste-like organic and/or inorganic material (e.g. centrifuged sludge resulting from the treatment of waste water in the paper industry) by pressing this material through orifices (3-6 mm dia.). It comprises a (cylindrical) die (1) provided with toothed part-circumferential internal (or external) portions (3) meshing with complementary externally toothed portions (5) on a (cylindrical) pressure member (4) whilst the die and/or the member is driven to rotate. The orifices (2) are arranged in the tooth valleys of the die and the viscous material is introduced between the die and the member (in space 10), the extruded pellets being discharged (e.g. removed by scraper 19). Used for pressing pellets from liquid-contg. paste-like material. The meshing engagement between the respective teeth prevents escape of the material in tangential direction and ensures that this material is extruded through the orifices under high pressure.

Description

"-> * '3-i®}.:, -. =. ·,., R- t ·. * «:” H--: ύ '*. ! : j '7 · r ’- / * .. · ---- - · ·' E-2NOV1982 <

Pelleteer. |

The invention relates to an apparatus for pressing pellets from liquid-containing pasty organic and / or inorganic material, wherein the material is pressed under pressure through openings, so that the material is shaped into cohesive pellets.

Pasty in this context is understood to mean moist small-particle materials, the particles being surrounded by a thin layer of liquid, so that a substance with little cohesion is formed.

Such a device is known from the. Ned. patent application no. 7902169. According to this patent the device consists of a smooth press body, which cooperates with the inside of a drum-shaped mold (press cage), provided with an inlet and outlet in an end wall and press openings in the cylindrical jacket surface (mold). ), wherein the remains of oil-bearing seeds and fruits are pressed into pellets through said openings by means of the press body.

A drawback of this known device is that the material to be pressed is not enclosed between the cylindrical mold and the pressing body, but can flow back to the filling chamber for a not unimportant part, so that the contents of the filling chamber are put under great pressure should be used to get the pressed material through the press openings to a sufficient extent.

820 1 ./2 k 'ï v ^ -2-

The sludge, which arises in large quantities during the purification of the wastewater from the papermaking and is subsequently brought into a pasty state with a sieve hand press, a centrifuge or any other device, is less effective because of its properties, with the press referred to. .

The object of the invention is to provide an improved pressing device with which the pasty material with a suitable dry matter content is deformed, so that cohesive pellets are formed.

To this end, the device according to the invention is designed in such a way that a mold, provided with toothed bars with a row of pressing openings in the tooth pits, cooperates with toothed bars correspondingly formed along the circumference, wherein the toothed bars of the mold and the pressing body coincide with each other. while at least one of the cooperating parts is rotatably drivable and there are also means for introducing the material to be pressed and for discharging the pellets formed.

The longitudinal axis of the device can be arranged horizontally, inclined or vertically.

The advantage of a horizontal or inclined arrangement is that the suspension of the press cylinder is relatively simple. As a drawback, on the other hand, in order to obtain an even use of the pressing openings, the cylindrical die or dies and / or pressing bodies must all rotate.

820 4 2 4 1 - / 3 · ί i \ v -3- .... The advantages of a vertical arrangement are that the supply of the material to be pressed under the influence of the gravitational field in the longitudinal axis direction of the cylindrical die without further constructions 5 are always optimal and that a closed end wall on the bottom side will suffice. A drawback is that the suspension construction of the cylindrical mold is more extensive.

A further elaboration of the invention consists in that the mold is a hollow cylinder and the press body (the press bodies) is a cylindrical body (s) (gijn), wherein both the mold and the press body (press bodies) are provided with toothed bars. such that the toothed bars of the mold are in engagement with the toothed bars of the press body (s).

Furthermore, the device can be designed such that the press body (s) are (are) arranged within the cylindrical mold, the axes of rotation of press body (s) and mold being arranged in parallel.

The advantage of the foregoing is that the construction of the device becomes simple and compact.

A preferred embodiment of the invention is that in which the device consisting of a hollow cylindrical die on the inside thereof cooperates with two or more pressing bodies mounted on the crankpins of a crankshaft, the whole. "\% -4- of crankpins and crankshaft is combined into one frame and wherein the crankshaft of the frame is rotatably driven via a single tooth, friction, belt or chain wheel placed on said shaft outside the device. In one embodiment, the production of pellets can be considerably increased.

The device can also be designed in such a way that pressing bodies of different diameters are arranged on the crank pins of the frame. This embodiment can be chosen if, due to the nature of the material to be pressed, large forces are created between the cylindrical die and the pressing bodies and the driving power is to be limited.

Furthermore, it is desirable that the suspension of the press members be constructed in a flexible manner, for instance by designing the cheeks or arms of the frame as resilient cheeks or arms. In addition, it is possible to use shear pin constructions in the cheeks or arms to prevent excessive displacements of the press bodies relative to the mold.

By the foregoing constructional measures it can be prevented that the press bodies get jammed by accumulation of pasty material between press bodies and mold.

The press bodies can also be radially supported by means of one central driving member such that the load on the crank pins is considerably reduced.

./5 8204241 g;:; V - - - -:. . - ^ y; ; Λ- -.

5: »« \

N

-5-

Furthermore, one central cylindrical mold can be arranged within the press members mounted in the frame, which is provided on the outside with toothed bars, which mesh with and interact with the toothed bars of the other press bodies and whereby material is passed through the wall of the press bodies. the central cylindrical die is pressed inward.

In the manner set out above, the production of 10 pellets can be maximized with the device according to the invention.

The crankshaft of the frame with pressing bodies can be driven by a connection on the said shaft. drive wheel, which is connected to a motor via a transmission.

To facilitate the discharge, the central cylindrical die can be tapered internally in the longitudinal axis direction if necessary.

The diameter of the pressing openings between the toothed bars 20 should preferably be determined experimentally and may be between 3 and 6 mm as a starting point for the present pasty material. Furthermore, it is desirable to control cake formation that the feed to the press openings is made countersunk at an angle of inclination between 15 and 30 ° with the plane through the tooth feet.

./6 8204241 * * \ \ -6- • It is also possible that both bodies provided with mutually meshing toothed rods may be in. the tooth pits have press openings through which the pasty material is pressed to the inside of these bodies 5 and thereby is formed into pellets.

During the movement of the tooth bars, the bodies then function alternately as a mold and as a press body during each movement over one tooth bar.

An arrangement which is structurally attractive is that in which the longitudinal axis of the device is vertical.

-

It is also possible to introduce air, preferably warm air, between the press bodies in the mold, in order to increase the dry matter content of the pasty material 15 before pressing.

If desired, a scraper moving at a certain speed can be arranged on the outside of the pressing openings to obtain a certain length dimension of the pellets.

The advantages of the new device include that: - the material does not escape along the pressing surfaces in the tangential direction.

- the material, enclosed between the toothed bars of the cylindrical mold and the press body, is pushed under great pressure through the press openings.

77 8204241

V

s -7-

To illustrate the invention, some embodiments of the device according to the invention will be described with reference to the drawings.

Figure 1 shows the cross section of the device with one press body.

Figure 2 shows the cross section of the device with several press bodies of equal diameter.

Figure 3 shows the cross section of the device with press bodies of different diameters.

Figure 4 shows the cross-section of the device, wherein a central press body with tooth bars interrupted in the longitudinal direction is arranged.

Figure 5 shows the cross section of the device, with a central cylindrical die fitted. (section II-II, fig. 6).

Figure 6 shows section I-I over the axis of the cylindrical die. Embodiment, wherein the axis of the device is vertical.

Figure 7 shows a view of the pressing openings in the tooth pits between the tooth feet.

Figure 8 shows section III-III over the press openings of Figure 7.

jn 8204241% -8- “Figure 9 shows the cross-section of an embodiment of the pelletizer in which 2 cylindrical dies work together.

Figure 10 shows cut away, in skewed projection another possible embodiment of the peeling tar device.

Figure 11 shows in longitudinal section an embodiment of the pelletizing device with circular-cylindrical tooth bars.

The pressing device according to figure 1 mainly comprises a cylindrical mold 1 provided with rows of pressing openings 2 between the toothed bars 3 and, in conjunction with this, the pressing body 4 with the toothed bars 5. The pressing body 4 is mounted on a crank pin 6, which a cheek 7 'connects to a crankshaft 8 so as to form a frame 9. The remaining space between the press body 4 and the cylindrical die 1 is the filling chamber 10. The pellets 16 leave the cylindrical die 1 via the press openings 2 and are brought to a certain length by means of a stripper. 19.

In figures 2 and 3 the frame 91 is more extensive and comprises three press bodies 41, 42 and 43. Figure 2 is the device with 3 equal press bodies and figure 3 is a device with 1 large and 2 small press bodies of possibly still different diameter.

In figure 4 the device is equipped with a central drive member 45 with toothed bars 31 interrupted in the longitudinal axis direction to prevent the material from caking.

./9 8204241 t

V

In Figure 5, the device is also equipped with a central cylindrical die 11 provided with tooth strips 32 and pressing openings 21. The pressing bodies 41, 42, 43 and 44 propel the material to be processed 30 with aid. from the toothed bars 32 through the pressing openings 21 to the internal hollow space 40.

A preferred arrangement is given in Figure 6, the embodiment of Figure 5 being shown. The axis §0 of the cylindrical die is in a vertical position. The tooth pits 14 are closed in the longitudinal axis direction by an end plate 18.

In figure 7 the top view of the press openings 2 is indicated with the countersunk feed 20.

Figure 8 shows section III-III of figure 7. The angle should be between 15 and 30 ° to prevent caking around the press openings 2. The diameter of the press openings varies from 3 to 6 mm for the pasty material and the length a is between 4 and 8 mm and the length b between the 40 and 20 70 mm.

Figure 9 shows an embodiment in cross-section, in which an outer cylindrical mold 1 with internally arranged toothed bars 3 with pressing openings 2 cooperates with a cylindrical mold 11 with externally arranged toothed bars 31 and openings 21.

The remaining space between the outer mold 1 and the inner mold 11 is the filling space 10. The figure also shows the escape of pellets 16.

./10 8204241 -10- \ · · In figure 10 the mold is designed as a conical cylindrical plate 111 with a closed drum 112, if desired. At least one conical pressed body 40 moves over the mold and is driven by a 5-axle system 80 .

Figure 11 shows the possibility to provide a cylindrical die 110 with circular cylindrical slots with toothed bars 300 at an angle of preferably 90 ° with the longitudinal axis of the device.

The press bodies 400, 410, 420 etc. can be configured as gears with the teeth 500 which mesh with the teeth 300 mounted on a shaft 800 moving along the press side of the cylindrical die 110.

11/11 8204241

Claims (13)

1. Device for pressing pellets from liquid-containing pasty organic and / or inorganic material / wherein the material is pressed through openings under pressure, so that the material is converted into 5 coherent pellets, characterized in that a die (1), provided with toothed bars (3) with a row of press openings (2) in the tooth pits, cooperates with at least one press body (4) with Inngs circumference Correspondingly shaped tooth bars 10 (5), the tooth bars of the mold and the press body are engaged with each other while at least one of the cooperating parts is rotatably drivable and that means are also provided for introducing the material to be pressed (23) and for discharging the formed pellets (24). 2. Device as claimed in claim 1, characterized in that the mold is (are) a hollow cylinder (1) and the press body (s) are one cylindrical body (s) (4), wherein both mold and press body (press bodies) are provided with toothed bars such that the toothed bars (3) of the mold mesh with the toothed bars (5) of the press body (s). Device according to claim 2, characterized in that the press body (4) (the press bodies (41, 42 and 43) is (are) arranged inside the cylindrical mold (1), the rotary axes of the press body (press bodies) and die are parallel placed 30. 8204241 ./12 “12- pcs Device according to the preceding claims, characterized in that the device is provided with two or more pressing bodies (41, 42 and 43), the cheeks of which are assembled with the crank pins into a frame (91). Device according to the preceding claims, characterized in that the shaft (8) of the frame (91) is placed on this shaft via a gear, friction, belt or chain wheel placed outside this cylindrical die (1). (20) is drivable. Device according to the preceding claims, characterized in that pressing bodies (41, 42 and 43) of different diameters are mounted on the crank pins (61, 62 and 63) of the frame (91). Device according to the preceding claims, characterized in that within the frame (91) with mounted press bodies (41, 42, 43 and 44) one central drive member (45). is provided, which is provided on the periphery with longitudinally interrupted "20" tooth bars (311) which engage and cooperate with the tooth body's tooth bars. Device according to claims 1 to 5, characterized in that one central cylindrical die (11) is mounted within the press bodies (41, 42, 43 and 44) mounted in the frame (91). circumference is provided with toothed bars (31) which engage and cooperate with the toothed bars of the press bodies and wherein material is pressed through the wall of the cylindrical die (11) by the press bodies. 820 4 24 1 - / 13 \ -13- .... Device according to claim 8, characterized in that the central cylindrical die (11) is internally tapered in the longitudinal axis direction. 10. Device according to the preceding claims, characterized in that the diameter of the press opening and (2) is 3 to 10 mm. Device according to the preceding claims, characterized in that the feed (20) to the pressing openings (2) is conical at an angle between 15 and 30 ° with the plane through the toothed feet. Device according to the preceding claims, characterized in that the axis of rotation (50) of the cylindrical die (1) is vertical. Device according to the preceding claims, characterized in that a scraper device (19) is arranged on the outside of the mold (1). 8 2 04 24 1 - ------ • ..éi · · ·