CZ309228B6 - Pellet press - Google Patents

Abstract

The pellet press consists of a hollow wedge body (7) with through-going circular holes in both wedge surfaces with a deviation of 5 to 89°, on which bearing bushes (6, 7) are mounted, in which the punch (2) and dies (5) rotate. The die (5) has a spherical recess on its face, into which a spherical body (1) placed in the wedge cavity fits. The die (5) has on the circumference of its face holes for the passage of pellets and the walls of the wedge cavity together with the surface of the spherical body (1) define a pressing chamber. In this press, the die (5) is coupled to the BOM (2) by shaped protrusions (14). These are formed at regular intervals on the circumference of the die face (2), fitting into shaped depressions (15) formed at regular intervals on the circumference of the die face (5).

Description

Pellet press

Field of technology

The invention relates to the construction of a pellet press. It belongs to the field of briquetting loose materials of organic and inorganic origin.

Current state of the art

A common feature of compaction technologies, which also includes the production of pellets, is the pressing of material under high pressure.

A screw extrusion machine is known from the state of the art, whose threaded feeder is also a pressing tool. The disadvantage of this machine is the need for a cooling device and low power. A horizontal pelletizing machine with cylindrical rollers and a cylindrical die is also known. Its disadvantage is the uneven supply of material under both rollers. A horizontal pelletizing machine with a cylindrical die and a pressing rotor is similarly designed, the disadvantage of which is increased friction between the tool and the die and thus faster wear of the rotor. The construction of a horizontal pelletizing machine with gears is also known. It is made up of a pair of hollow cylinders that have teeth around the perimeter. Holes are drilled in it, through which the material is pushed into the cylinder cavities. Knives stored in the cavities then cut the pressed pellets. The disadvantage of this machine is the low hourly output due to the small number of teeth on the rollers. A pelletizing machine in a vertical design with cylindrical rollers and a flat matrix is also known, the disadvantage of which is large and uneven wear of the rollers.

File SK 286877 describes a pellet press consisting of a hollow wedge body with through circular holes in both wedge surfaces with a deviation of 5 to 89°, on which bearing bushings are fixed, in which the press and dies rotate, which have spherical recesses on their faces , into which a spherical body placed in the cavity of the wedge fits, while the matrix is equipped with holes on the circumference of its face for the passage of pellets, and the walls of the cavity of the wedge together with the surface of the spherical body define the pressing chamber. At the same time, the spherical body is hollow and through it, similarly to the cardan shaft, the kinematics of the die drive pass. For the construction, the characteristic deflection of the face of the die and the die forming a wedge pressing chamber is pressed. With this solution, the peripheral speed of the spherical body changes during the revolution.

This results in uneven wear of the working tools and thus a reduction in the yield of the press and the necessity of frequent replacement of damaged parts associated with the corresponding costs.

US 3770458 discloses a device for forming and pressing meat products consisting of a driven rotating circular die which has forming pockets with ejectors around the perimeter. At an acute angle to the dies, there is a rotating circular pressing plate on which the plunger protrusions are arranged in line with the pockets. In the area where the plate driven by the rotating die comes into contact with the die, one plunger engages one pocket, forming and pressing the meat product in it, and at the same time transmitting the rotational movement to the pressing plate.

The invention sets itself the task of designing a pellet press, the design of which, compared to known presses, would ensure a reduction in energy costs and lower wear and tear of machinery parts.

The essence of the invention

The stated task is solved by a pellet press consisting of a hollow wedge body with through circular holes in both wedge surfaces with a deviation of 5 to 89°, on which the bearing bushings are fixed to

- 1 CZ 309228 B6 to the rotary bearing of the press and the die, which has a spherical recess on its face, into which the spherical body placed in the cavity of the wedge fits, while the die is provided on the circumference of its face with through holes for the passage of pellets and the walls of the cavity of the wedge together with the surface of the spherical bodies define the pressing chamber. In this case, the die is coupled to the punch by means of shaped protrusions formed at regular intervals on the circumference of the face of the punch, fitting into shaped depressions formed at regular intervals on the circumference of the face of the die, while the kinematic connection between the punch and the spherical body located in the pressing chamber is free or fixed. The essence of the press consists in the fact that the press chamber is equipped with a hopper in which a screw feeder is placed, while the working face of the press or die is equipped on the circumference with a projecting cover ring with an inner spherical surface and the face of the die or the die is equipped with an indentation on the circumference with a spherically shaped outer surface, while both spherical surfaces have a common center in the center of the wheel body and the spherical surface of the ring abuts the spherical surface of the indentation at the point of contact between the die and the die.

Shaped projections may be formed on a transfer ring fitted to the die face and shaped recesses formed on a transfer ring fitted to the die face, with the projecting cover ring being part of the die transfer ring and the notch being part of the die transfer ring

Shaped depressions may be formed at the mouths of through holes in the die.

In the basic version of the press, the spherical body is placed loosely between the die and the die, which also has a spherical recess in its head.

The free spherical body can have its own drive, the shaft of which passes through an axial hole in the die body.

In this case, the revolutions of the press may differ from the revolutions of the spherical body.

In another embodiment, the spherical body can protrude from the die and be part of it.

Both the punch and the die are stored in axial and/or radial bearings.

The die is anchored in its bearing housing by a first end nut and the die is anchored in its bearing housing by a second end nut.

The working face of the press or die can be provided on the circumference with a projecting cover ring with an inner spherical surface and the face of the die, or the die is equipped with an indentation on the circumference with a spherically shaped outer surface, while both spherical surfaces have a common center and the spherical surface of the ring rests on the spherical surface of the indentation at the point of contact between the die and the die.

The projecting cover ring can be part of the transfer ring of the die, or die and notch of the transfer ring parts of the die, or press book.

This eliminates the friction of the fed material against the inner surfaces of the die and the die, as the material is pulled under the spherical body by the closed faces of the die and the die. In doing so, the condition must be met that the center of both spherical surfaces lies in only one point.

The projecting cover ring can be part of the punch transfer ring or directly part of the punch body. In the case of kinematic reversal, the projecting cover ring is part of the die and the notch is part of the die.

The term "press" means the body of the press itself, including the system of shaped protrusions on the circumference of its face, or even the ring with these protrusions.

-2CZ 309228 B6

"Spherical body" means a body in the form of a separate sphere or hemisphere that is part of the cylindrical body of the die.

The advantages of the pellet press according to the invention are evident from its effects. Any angle between the faces of the press and the die can be chosen. The design of the press is simple and compact. It can be sized for the required pellet production. Compared to known pellet presses, it has a larger active area with a comparable die size. The active area is the pressing chamber defined by the hollow wedge. Here, the pressing effect is derived by engaging a system of protrusions and depressions, which ensures the transmission of torque in an original way. The active area is also a function of the engagement angle, which affects the coefficient of friction between the pressed material and the shape of the pressed parts.

A significant advantage of the press according to the invention is that it requires significantly less power per unit of pellet production compared to known pellet presses. This is due to the design of the press, in which the contact between the rotating die and the die is almost point-to-point. This reduces the friction between the structural parts of the press and the fed material to a minimum. The fact that all elements involved in high-pressure pressing move simultaneously also contributes to this. The tightness of the pressing space is significantly increased. The effect of drawing the material under the spherical body is also increased. With this solution, the peripheral speed of the spherical body is constant during the revolution, and thus the wear of the working tools is uniform and the service life of the press is longer.

Clarification of drawings

The invention will be further explained with the help of drawings, in which there are cross-sections of various embodiments of the system of pressing organs of the pellet press according to the invention. Fig. 1 shows pressing bodies with a loosely placed ball, Fig. 2 shows a spherical body, or hemisphere part of the face of the die, in Fig. 3 the ball is equipped with its own drive, in Fig. 4 there is an axonometric section of a detail of the wedge with the die and the die, where the die is provided with a protruding cover ring and the die with a peripheral notch, and in Fig. 5 the situation according to fig. .4 taken in section.

Examples of implementation of the invention

The following examples of implementation of the invention serve only to clarify the presented technical solution and in no way limit the scope of protection. Those skilled in the art can find, through routine experimentation, a number of solutions equivalent to those described herein. Even such solutions remain within the scope of the following patent claims. For experts familiar with the state of the art, it is not a problem to dimension such devices and to choose a suitable material and structural arrangement for them, which are features that have not been dealt with in detail here.

An advantageous solution of the pressing device of the pellet press is shown in Fig. 1. It consists of a hollow wedge body 7 with through circular holes in both wedge surfaces. The bearing housing 6 of the press 2 and the bearing housing 8 of the matrix 5 are fixed on them. The press 2 and the matrix 5 are rotatably mounted in their housings 6, 8 and their fronts extend through the holes in the wedge body 7 into its cavity. The working faces of the press 2 and the matrix 5 have spherical recesses in which the spherical body 1 is fitted, in this embodiment in the shape of a sphere, the radius of which is the same as the radius of both spherical recesses. On the perimeter of the face of the die 5, there are through holes coaxial with the die 5. The deflection of the axis of the die 2 and the die 5 together with the cavity of the wedge body 7 and the spherical body 1 represent a pressing chamber in the shape of a ring, the walls of which converge in a wedge shape. The axes of the die 2 and the die 5 form an angle of 30°. The die 5 is coupled to the die 2 by means of shaped protrusions 14 on the circumference of the face of the die 2 and shaped depressions 15 on the circumference of the face of the die 5. The protrusions 14 are made on the transfer ring 3 inserted into the face of the die 5 and the depression 15 on the transfer ring 4 inserted into the face matrix 5. At the same time, the depressions 15 are made in the mouths of the through holes on the matrix 5. The spherical body 7 in this embodiment is not kinematically connected to either the punch 2 or the matrix 5, so it is stored freely. The shaped projections 14 are opposite the shaped depressions

-3 CZ 309228 B6 oriented so that they fit into them at the tip of the wedge. The body of the press 2 is stored in the bearings 9 of the press - radial and axial, the matrix 5 then in the bearings 10 of the matrix. The matrix 5 is anchored in the bearing housing 8 of the matrix by the end nut 12 of the matrix, the die 2 in the bearing housing 6 of the die by the end nut 13 of the die. The cavity in the wedge body 7 is followed by a hopper with a screw feeder 11.

The design of the pellet press according to Fig. 2 differs from the design according to Fig. 1 in that the spherical body 1 emerges from the die 2, forms a monolith with it and rotates together with it. In this embodiment, the deflection of the faces of the die 2 and the die 5 is 37°.

The difference between the design of the press according to Fig. 3 and the design according to Fig. 1 is that the spherical body 1 has its own drive, the shaft of which is guided through an axial hole in the body of the press 2. The revolutions of the press 2 can then differ from the revolutions of the spherical body L In this design, the deflection of the faces of the die 2 and the die 5 is 22°.

Giant. 4 and 5 show in detail an improved pressing device, in which the face of the die 5 is provided on the circumference with a projecting cover ring 16. which has an inner spherical surface, while a recess 17. is made on the circumference of the face of the punch 2 which has an outer spherically shaped surface. At the point of wedge contact between the press 2 and the matrix 5, both spherical surfaces come into contact, just before the material enters the working space. The center of both spherical surfaces as well as the center of the spherical body 1 are located at one point.

In alternative embodiments, the pellet press according to the invention may have kinematically reversed means for coupling the die 2 and the die 5, as well as means for sealing the working space. Shaped protrusions 14 can therefore be made on the circumference of the face of the die 5 and the depression 15 on the circumference of the face of the die 2 while maintaining the torque transmission. In the same way, the cover ring 16 with an inner spherical surface can be made on the circumference of the face of the die 2 and the recess 17 with an outer spherical surface on the circumference of the face of the die 5.

The function of the pellet press according to the invention results from the method of pressing the pellets. Loose organic and/or inorganic raw material or a mixture of raw materials with the required granularity containing a maximum of 18% water goes into the pressing chamber in the cavity of the wedge body 7. Here, it is pulled by the rotating faces of the press 2 and the matrix 5 into the narrowing annular space. At the same time, the transmission of the torque from the press 2 to the matrix 5 is ensured by a system of evenly spaced shaped protrusions 14 and depressions 15 at the mouths of the through holes of the matrix 5. Subsequently, the compressed raw material proceeds from the pressing chamber into the through holes of the matrix 5, which is assisted by the action of the shaped protrusions 14. From the opposite finished pellets are pushed through the mouth of the through holes.

Claims (9)

PATENT CLAIMS 1. Pellet press consisting of a hollow wedge body (7) with through circular holes in both wedge surfaces with a deviation of 5 to 89°, on which the bearing bushings (6, 8) are fixed for the rotary storage of the punch (2) and the matrix (5). , which has a spherical recess on its face, into which the spherical body (1) placed in the cavity of the wedge fits, while the matrix (5) is provided on the perimeter of its face with through holes for the passage of pellets and the walls of the cavity of the wedge together with the surface of the spherical body (1) define a pressing chamber, while the die (5) is coupled to the die (2) by means of shaped protrusions (14), formed at regular intervals on the circumference of the face of the die (2), fitting into shaped depressions (15) formed at regular intervals on the circumference of the face of the die (5), while the kinematic connection between the press (2) and the spherical body (1) located in the press chamber is free or fixed, characterized by the fact that the press chamber is equipped with a hopper in which the screw feeder (11) is placed, while the the back face of the die (5) is equipped on the circumference with a projecting cover ring (16) with an inner spherical surface, and the face of the die (5) is provided on the circumference with a notch (17) with a spherically shaped outer surface, or the working face of the punch (2) is on the circumference provided with a projecting cover ring with an inner spherical surface and the face of the die (5) is equipped with a recess on the circumference with a spherically shaped outer surface, while both spherical surfaces have a common center in the center of the spherical body (1) and the spherical surface of the cover ring (16) rests in place the contact of the punch (2) and the die (5) on the spherical surface of the recess (17). 2. Pellet press according to claim 1, characterized in that the shaped protrusions (14) are formed on the transfer ring (3) inserted into the face of the press (2) and the shaped depressions (15) are formed on the transfer ring (4) inserted into face of the die (5), while the projecting cover ring (16) is part of the transfer ring of the die (5) and the recess (17) is part of the transfer ring (3) of the die (2). 3. Pellet press according to claim 1 or 2, characterized in that the shaped depressions (15) are formed at the mouths of through holes in the matrix (5). 4. A pellet press according to any one of claims 1 to 3, characterized in that the spherical body (1) is placed loosely between the matrix (5) and the punch (2), which also has a spherical recess in its end. 5. Pellet press according to claim 4, characterized in that the spherical body (1) has its own drive, the shaft of which passes through an axial hole in the press body (2). 6. Pellet press according to claim 5, characterized in that the revolutions of the press (2) differ from the revolutions of the spherical body (1). 7. Pellet press according to claims 1 to 3, characterized in that the spherical body (1) emerges from the press (2) and is part of it. 8. Pellet press according to claims 1 to 7, characterized in that the press (2) and the matrix (5) are housed in axial and/or radial bearings (9, 10). 9. Pellet press according to claims 1 to 8, characterized in that the die (5) is anchored in its bearing housing (8) by the first end nut (12) and the punch (2) is anchored in its bearing housing (6) by the second end nut (13).