DE4434940A1 - Comminuting device - Google Patents

Abstract

The invention relates to a comminuting device for comminuting an object (B) which has been fed together with media (7) into a comminuting container (8) so that it is comminuted. The comminuting container (8) comprises a cylindrical comminuting container (8) open at the top and a rotatable agitator (2, 4, 5) which is arranged in the centre of the comminuting container (8). The outside diameter of a shaft (2) of the agitator (2, 4, 5) corresponds to 30% or more of the inside diameter of the comminuting container (8). Web-like arms (4, 5) are connected in several steps one above the other and horizontally to the shaft (2). The shaft (2) is of hollow design so that a first passage is formed in the shaft (2) in order to let through a heating medium or a cooling medium. A casing (9) is provided around the comminuting container (8) so that a second passage is formed between the casing (9) and the comminuting container (8) in order to let through a heating medium or a cooling medium. The object (B) fed into the comminuting container (8) is comminuted by the rotation of the agitator (2, 4, 5). In the process, the non-uniformity with regard to the circumferential speed between the roots and the ends of the arms (4, 5) of the agitator is slight, so that uniform comminution is achieved. Furthermore, a heating medium or a cooling medium can flow through the first and second passages, in the course of which heating or cooling from the inside or ... Original abstract incomplete. <IMAGE>

Description

The invention relates to a shredding device according to the preamble of Claim 1.

Conventional shredding devices have a vertical-cylindrical Container in which there is an agitator that is coaxial to the container is arranged. The agitator has a shaft and several arms that radially are arranged horizontally with respect to the shaft (Japanese Utility Model No. 63-47057, filed April 7, 1988).

The object that is placed in the crusher is with several Media stirred by the rotation of the agitator so that it is crushed.

In the known shredding device, the only important point is in the Manufacturing the shaft of the agitator's strength. The wave therefore becomes relative small, in such a way that the outer diameter of the shaft approximately accounts for 10% of the internal agitator of the shredding container.

With the resulting agitator, the peripheral speed is everyone Side of an arm proportional in the area from the root to the front end to the distance from the axis of the shaft (turning radius), which creates an inequality in peripheral speed between the root and the front end of the Arms results.

So if the outer diameter of the shaft is equal to 10% of the inner diameter of the shredding container, the peripheral speed is the An  place this arm one tenth of the peripheral speed of the front end. As a result, there would be a large inequality between the media and the movement object to be crushed between the central region of the container, d. H. around the surface of the shaft around, and the area near the inner wall of the Crushing container result.

This keeps the media and the object at the center of the shredding container relatively at rest as it wraps around the inner wall of the shredder move container around strongly. The consequence of this is that the mixture and chopping depends very much on where the object and the media are, d. H. there is no uniform comminution in the container. Connected to it The problem is that the end product contains parts that do not shred sufficiently nert, the particle sizes are very different.

The invention is therefore based on the object of a comminution device to create that no significant inequality in terms of mixing and Ver whisk between the central and peripheral areas of a shredding Containers.

This object is achieved in accordance with the features of patent claim 1.

The advantage achieved with the invention is in particular that a counter stood in a shredding container is shredded the same everywhere, so that a homogeneous end product. In addition, the object is broken during the cutting nerns kept at a suitable temperature.

An embodiment of the invention is shown in the drawing and is in following described in more detail. The drawing consists of a single figure, the an overall schematic representation of a shredding device according to the invention direction shows.

In this single figure a shredding device according to the invention is shown posed.

This comminution device contains a cylindrical comminution container 8 , an agitator 2 , 4 , 5 arranged in the center of the comminution container 8 , a comminution chamber A which is provided in the comminution container 8 , a lid 10 which is provided for an opening at the top of the comminution container , and a casing 9 which surrounds the exterior of the comminution container 8 .

The crushing container 8 is vertical-cylindrical and open on its top and bottom. The opening at the bottom is closed by a bottom 15 , which is connected to a frame, not shown.

The lid 10 is provided in the middle with an opening 10 a and serves to form an opening in the comminution container 8 . The lid 10 is dimensioned such that it closes the upper opening of the comminution container 8 . With the aid of screw bolts 12 , it is connected to the comminution container 8 . The shredding chamber A for shredding an object B is provided within the shredding container 8 . A lid 26 , which is connected to the cover 10 , is arranged such that a loading opening 25 can be opened and closed. The item B consists z. B. from a rock or the like.

A dispensing valve 19 is provided on the underside of the comminution container 8 , which in turn is surrounded by a container 16 .

The dispensing valve 19 includes an output part 19 b and a valve body 19 a. The output part 19 b is seen in the middle of the bottom 15 of the comminution container 8 , so that the comminution chamber A communicates with the environment. The output part 19 b is provided in an aperture 17 which is connected to the bottom 15 by means of a bolt 18 .

Such an aperture 17 allows the article B to pass through and also prevents the media mentioned below from passing through. The object B, which is comminuted in the comminution space A, is conveyed to the outside through this diaphragm 17 .

The valve body 19 a is designed so that it closes the dispensing part 19 b and is provided within the dispensing valve container 16 . The discharge valve container 16 is of vertical-cylindrical design and is open at the top and bottom. The upper opening, which communicates with the output part 19 b, is connected by means of bolts 20 to the bottom 15 , which makes it possible for the output part 19 b to communicate with the environment via the output valve box 16 .

An axis of rotation 23 is carried horizontally from the inside of the dispensing valve container 16 and is connected via a lever 22 to the valve body 19 a.

A drive, not shown, for example an air cylinder or the like, is connected to the axis of rotation 23 and arranged outside the dispensing valve container 16 , so that the valve body 19 is rotated about the axis of rotation 23 , the valve body 19 a opening the output part 19 b and closes.

A seal 21 , which is arranged on the outside of the valve body 19 a, abuts against the bottom 15 of the crushing part 8 when the valve body 19 a is closed, whereby a seal between the output part 19 b and the valve body 19 a takes place.

The comminution container 8 is provided with an agitator, which consists of a shaft 2 and the arms 4 and 5 at the center of the comminution container 8 .

The shaft 2 is arranged coaxially to the crushing container 8 and extends in the vertical direction, so that the upper region leads through the opening 10 a of the cover 10 , while the lower region comes into the vicinity of the bottom 15 . The shaft 2 is designed as a relatively large cylinder which is closed at the bottom and preferably has an outer diameter which is 30% or more of the inner diameter of the comminution container 8 .

An annular seal 11, which rotates together with the shaft 2, a cover 10 is provided at the opening 10 to cover seal 10 between the shaft 2 and the Ab, is hermetically seals abge whereby the crushing chamber A.

The upper end of the shaft 2 is connected via a connecting tube 1 with a cylindri's rotating shaft 24 . The shaft 2 , the connecting tube 1 and the rotary shaft 24 are hereby integrally formed and arranged coaxially with one another. The rotary shaft 24 is rotated with the aid of a drive, not shown.

A supply pipe 3 for introducing a heating or cooling medium is arranged in the middle of the rotating shaft 24 , the connecting pipe 1 and the shaft 2 . The feed tube 3 extends in the vertical direction such that the lower end comes close to the closed bottom of the shaft 2 , where it is opened.

In this way, an annular flow is formed between the outer surface of the feed tube 3 and the inner surface of the shaft 2 , the connecting tube 1 and the rotating shaft 24 . Such a flow communicates with a flow in the feed tube 3 .

Thus, a heating medium or a cooling medium circulates from the supply pipe 3 to the inside of the shaft 2 and back again to the supply pipe 3 .

A plurality of arms 4 are integrally connected to a portion of the shaft 2 inside the crushing chamber A. These arms 4 are arranged radially and on several levels horizontally to the axis of the shaft 2 . An arm 5 is connected to the bottom of the shaft 2 by means of threaded bolts 6 .

The arms 4 and 5 are rotated together with the movement of the shaft 2 . In particular, the arm 5 shovels the object B, which is located at the bottom of the crushing chamber A, starting from the center of the arm 5 .

The casing 9 is arranged outside of the comminution container 8 in a certain position, this distance having the function of producing a flow between the casing 9 and the comminution container 8 . The casing 9 has an inlet 13 through which a heating or cooling medium is introduced, and an outlet 14 in order to discharge this medium again.

Several media are provided in the comminution chamber A of the comminution container 8 , and are so large that they do not go through the sieve 17 .

In the following the operation of the shredding according to the invention  direction described.

In this shredding device, the shaft 2 is rotated so that the arms 4 and 5 shovel the article B, which is located together with the media 7 in the shredding chamber A, whereby the article B is shredded.

The outlet 19 b is normally closed by the valve body 19 a, and a certain amount of the object B is entered through the inlet 25 of the cover 10 and introduced into the crushing chamber A of the crushing container 8 . A drive, not shown, rotates the shaft 2 and thus the arms 4 and 5 .

The object B in the comminution chamber A is stirred together with the media 7 due to the horizontal rotation of the arms 4 and 5 . During this stirring, an impact or shear force is generated between the object B and the arms 4 and 5 and the object B and the media 7 , whereby the object B is crushed.

During the crushing, a heating or cooling medium is the flow between the comminuting container 8 and the casing 9 through the inlet 13 and discharged from the outlet 14 again.

On the other hand, a heating or cooling medium which is supplied to the supply pipe 3 is also given to the shaft 2 and then to the supply pipe 3 , the rotating shaft 2 , the connecting pipe 1 and the rotating shaft 24 to be finally discharged.

As described above, the object B is heated or cooled in the comminution chamber A by means of a medium which flows through the two flows, ie one flow is arranged outside the comminution container 8 , while the other flow is arranged inside the shaft 2 , so that the object B could always be kept at a suitable temperature, which improves the homogeneity and effectiveness of the comminution.

The grinding described above is continued for a certain time until the object B is broken up into small particles of a predetermined size. Once this has been achieved, the rotation of the rotary shaft 24 is stopped, as a result of which the shaft 2 is also stopped and the comminution is thus ended by stirring.

Then a drive means, not shown, is activated, which actuates the output valve and rotates the valve body 19 a, whereby the output 19 b is opened.

The object B in the crushing chamber A falls through the grid 17 from the output 19 b and is thus output from the bottom opening of the dispensing valve box 16 as an end product.

Because of the widened shaft 2 , no substantial inequality in peripheral speed is caused between the front end of the arms 4 and 5 and the root thereof when the arms 4 and 5 are rotated around the shaft 2 to crush the object B as described above.

Since the arms 4 and 5 are attached radially and horizontally to the shaft 2 , the circumferential speed of each side of the arms 4 and 5 is proportional to the distance from the shaft 2 (radius of the circular rotation).

In conventional shredding systems, the shaft 2 is designed with a small diameter - the outer diameter of the shaft corresponds to approximately 10% of the inner diameter of the shredding container - which means that the distance between the root and the front end of the arm is relatively large and which results in a large inequality in the peripheral speed between the root and the front end results.

According to the present invention, however, the shaft 2 is made wider, where the outer diameter of the shaft 2 is preferably 30% or more of the inner diameter of the comminution container 8 . Since this shaft 2 has a larger diameter than conventional shafts, the distance from the roots to the outer ends of the arms 4 and 5 is relatively short.

The inequality of the turning radii between the roots and the ends of the arms 4 and 5 is reduced in this way, which also reduces the inequality between the two in terms of the rotational speed during the rotation of the arms 4 and 5 .

The mixing and plowing of the object B caused by the roots of the arms 4 and 5 corresponds essentially to that caused by the front ends of the arms. Therefore, no significant difference is caused with respect to the movement of the media 7 and the article B between the central region of the comminution container 8 in the vicinity of the surface of the shaft 2 and the region in the vicinity of the inner wall of the comminution container 8 .

This results in an improvement in the flow and mixing properties of the Ge objects B in the comminution chamber A, so that the object B completely can be crushed and you get an end product with uniform particle size receives.

The shaft 2 is hollow so that a heat or coolant can flow through the cavity. In addition, a heat medium or a refrigerant can flow between the crushing container 8 and the shell 9 , whereby the heat and cold efficiency of the object B is improved.

This means that the object B is heated or cooled in the comminution chamber A from the inside and outside of the chamber. This results in a uniform temperature distribution, which in turn means that the object B is kept at a suitable temperature. Due to the synergistic effect of this uniform object temperature in connection with the mixing and comminution activity of the arms 4 and 5 , the object is reliably comminuted, which results in a uniform end product.

As can be seen from the above description, the invention following advantages.

The wave is broadened so that the inequality in terms of circumferential speed root and front ends of the arms is reduced. Hereby the object can be spread evenly over the entire area of the arm central part crushed to the outer area in the comminution container  become, which in turn leads to good flow and mixing properties of the object leads and also improves the crushing with a resulting product with uniform particle size.

Furthermore, a heat or coolant can flow outside the comminution container 8 and in the shaft 2 , as a result of which the object is heated or cooled from inside and outside the container 8 . As a result, there is an improvement in the heating and cooling condition of the article B while maintaining the crushing temperature and obtaining a very good product.

Claims (7)

1. Comminution device for comminuting an object, which is located in a comminution container together with media, characterized by

• 1.1 an open top cylindrical crushing container ( 8 );
• 1.2 a rotatable agitator ( 2 , 4 , 5 ), which is arranged in the center of the comminution container ( 8 ), said agitator ( 2 , 4 , 5 );
• 1.2.1 an upwardly extending shaft ( 2 ) which is arranged in the center of the comminution container ( 8 ),
• 1.2.2 web-like arms ( 4 , 5 ) which are connected in several stages and horizontally to the shaft ( 2 ) in the comminution container ( 8 ), wherein
• 1.2.3 the shaft ( 2 ) has such a diameter that there is no significant unevenness in the peripheral speed between the roots and the ends of the arms ( 4 , 5 ) during the rotation of the agitator ( 2 , 4 , 5 ).

2. Shredding device according to claim 1, characterized in that the outer diameter of the shaft ( 2 ) makes up 30% or more of the inner diameter of the shredding container ( 8 ). 3. Comminution device according to claim 1, characterized in that the shaft ( 2 ) is hollow, so that a passage is formed in the resulting cavity to pass through a heating or cooling medium. 4. Comminution device according to claim 1, characterized in that a sleeve ( 9 ) is provided around the comminution container ( 8 ) which forms with this a passage through which a heating or cooling medium passes. 5. Crushing device for stirring an object, which is entered into a shredding container together with media, so that the object is shredded, characterized by
a cylindrical shredding container open at the top,
a first passage between the comminution container ( 8 ) and a sheath ( 9 ) arranged around the outer periphery of the container ( 8 ) for the passage of a heating or cooling medium; and
a rotatable agitator ( 2 , 4 , 5 ) which is arranged in the middle of the comminution container ( 8 ), said agitator ( 2 , 4 , 5 ) containing:
an upwardly extending shaft ( 2 ) which is arranged in the center of the comminution container ( 8 ),
a second passage on the inside of the shaft ( 2 ) to pass a heating or cooling medium; and
web-like arms ( 4 , 5 ), which are connected in several stages horizontally to the shaft ( 2 ) in the comminution container ( 8 ), the shaft ( 2 ) being enlarged so that there is no substantial disparity in the peripheral speed between the roots and the Ends of the arms ( 4 , 5 ) occurs during the rotation of the agitator ( 2 , 4 , 5 ), and wherein a heating or cooling medium can flow through the first and two th passages, so that a suitable temperature is maintained during the comminution . 6. Crushing device according to claim 5, characterized in that the outer diameter of the shaft is 30% or more of the inner diameter of the shredding container ( 8 ). 7. Comminution device for comminuting an object, which is placed in a comminution container together with media so that the object is comminuted, characterized by:
an open cylindrical crushing container ( 8 ),
a first passage between the comminution container ( 8 ) and a sheath placed around the outer periphery of the container ( 8 ) to pass a heating or cooling medium; and
a rotatable agitator ( 2 , 4 , 5 ) which is arranged in the middle of the comminution container ( 8 ), said agitator ( 2 , 4 , 5 ) containing:
an upwardly extending shaft ( 2 ) which is arranged in the center of the comminution container ( 8 ),
a second passage on the inside of the shaft ( 2 ) to pass a heating or cooling medium, the outer diameter of the shaft ( 2 ) making up 30% or more of the inner diameter of the crushing container ( 8 ); and
web-like arms ( 4 , 5 ) which are connected in several stages horizontally to the shaft ( 2 ) in the comminution container ( 8 ),
the shaft ( 2 ) being enlarged so that there is no substantial disparity in the peripheral speed between the roots and the ends of the arms ( 4 , 5 ) during the rotation of the agitator ( 2 , 4 , 5 ), and wherein a heat or cooling medium can flow through the first and second passages so that a suitable temperature is maintained during the comminution.