WO2013127986A1 - Adjustable crushing mill, particularly for crushing dry ice - Google Patents

Abstract

The invention discloses an adjustable crushing mill, particularly for crushing dry ice, having at least one crushing roll (3) and a breaker bar (5), which are arranged so as to form a crushing gap (4), wherein the breaker bar is movably mounted in a guide and can be moved by means of an actuating device in such a manner that the crushing gap can be adjusted between a minimum and a maximum value, wherein two crushing rolls (3), driven in opposite directions at a distance away from one another, are provided, between which the breaker bar (5) is arranged such that two crushing gaps (4) are produced, the product to be crushed being fed by means of a hopper (6) from above and the direction of rotation of the crushing rolls (3) being selected such that the product to be crushed is pushed into and through the roll gap (4), such that it exits the same on the underside of the roll gap (4), and the movable breaker bar (5) has a cross-section that is not constant transversely to the direction of movement to adjust the crushing gaps (4).

Description

 description

Adjustable grinder, especially for grinding dry ice

Grinders that are suitable for grinding dry ice, usually work with a grinding roller, which forms a nip together with a crushing bar or a second grinding roller, in which the supplied ground material, such as dry ice, is ground by the rotation of the grinding roller. Basically, one can distinguish three categories in such grinders that work with at least one rotating grinding roller.

A construction in which a grinding roller is used whose outer circumference forms a grinding gap together with a break bar. According to another possible construction two normally counter-rotating grinding rollers are used, between the peripheral surfaces of the required Mahlspalt is formed. Furthermore, it is possible to use two likewise usually opposite grinding rollers, between which a crushing bar is arranged, so that there are two grinding gaps. Such a construction is generally considered to be powerful and effective. To form a suitable grinding gap, the crushing bar on the surface opposite the grinding roller has a suitable surface design with which the desired grinding result is achieved. Of course, in each of these grinders, the grinding gap must be suitably dimensioned.

The object of the invention is to provide a grinder that performs over a wide range of applications good grinding results, especially when grinding dry ice. This object is solved by the features of claim 1. It is essential that the crushing bar is arranged between the grinding rollers, resulting in two grinding gaps. This is achieved in that the crushing bar protrudes into the space between the two grinding rollers in such a way that it intersects the connecting line between the two axes of rotation of the grinding rollers. The crushing bar is slidably provided, wherein it has a cross section which is not constant transversely to the direction of displacement. The displacement path is dimensioned such that the crushing bar always protrudes in the usual working range of the grinder in the manner mentioned between the two grinding rollers to form two grinding gaps, thus cutting the connecting line between the two axes of rotation of the grinding rollers. For special applications and, for example, for replacing the crushing bar this can be moved further so that they do not cut the said connection line. Due to the slidable mounting of the crushing bar, the grinding gap between a grinding roller and the crushing bar can be set between a minimum and a maximum value. These features ensure, over a wide range of applications of the grinder, in particular when grinding dry ice, that the grinding gap can be optimally adjusted to the material to be ground or the desired grinding result.

In principle, various types of displacement or movement of the crushing bar can be imagined in order to be able to vary the refining gap between a minimum and a maximum. The shift can basically be done in a straight line or on a curved path. However, it has turned out that, in particular, two options on the one hand can be implemented well in practice and, on the other hand, produce good results. This is, on the one hand, a displacement of the crushing bar in one direction, which is oriented radially from the axis of rotation of the grinding roller. Here, by means of a simple movement sequence, an adjustment of the grinding gap over a wide range is possible without problems. Furthermore, it has been proven to provide a displacement of the crushing bar in a direction which is oriented tangentially to the grinding roller, wherein the Tangent is parked in the nip, further comprising a crushing bar is provided which has a cross-section which is not constant transversely to the direction of displacement. Even with such a construction, a suitable shape of the cross section of the crushing bar in conjunction with the tangential displacement of the crushing bar allows the grinding gap to be adjusted over a wide range without problems.

The said construction is also excellent for grinders in which two spaced grinding rollers are provided, between which a crushing bar is arranged. In such a construction, the storage of the grinding roller and its drive must not be made adjustable, but can be designed in a simple manner, and yet by the tangential displacement of the crushing bar with a suitable cross-sectional choice of the crushing bar a wide variation of the two Mahlspalte each between the grinding roller and the Crushing bar can be achieved. In this case, a wide variety of cross-sectional designs of the crushing bar have been proven depending on the desired millbase, which of course by varying extents in cross-section, the said variation of the grinding gaps is achieved. Suitably, the crushing bar in the upper region, ie the region from which the ground material is fed, a greater extension in cross-section than in the lower region. In this case, the break bar may have a wedge-shaped cross section in cross section at least over a partial region. The surfaces of this wedge-shaped region can be flat or concave.

To lock the crushing bar a suitable locking device is expediently provided, by means of the crushing bar can be locked in a desired position. To move or shift the crushing bar, a displacement device is provided, which is connected to the crushing bar to move the crushing bar in the desired position. This device can simultaneously be designed as a locking device and, after setting the crushing bar in the desired position also ensure the locking of the crushing bar in this position.

According to the preferred embodiment of the invention described in further detail below, the crushing bar is arranged between two counter-rotating grinding rollers, so that two grinding gaps result, the grinding material being supplied from above by means of a funnel. The direction of rotation of the grinding rollers is chosen so that the material to be ground drawn into the nip and ultimately pushed through it. In the exit region of the nips, the ground material drops out by gravity, and is absorbed by a metering device, for example. Advantageously, the displaceable crushing bar in cross section on a first or lower region, which has a constant cross-section. These are followed by a wedge-shaped central cross-sectional area, which can transition into an end region, which can be formed with a constant cross-section.

The invention will be explained in more detail with reference to the preferred embodiment.

The figure shows the preferred embodiment in cross section.

The actual grinder 1 dry ice is fed via a dry erector. The entire device is provided and constructed such that the dry canister 1 is arranged in the uppermost area, so that the dry ice is introduced by gravity into the actual grinder, and the ground grind leaves the grinder by gravity to be picked up by a portioning device 8 become. Below the dry ice hopper 1, the actual grinding plant is arranged, which has two baffles 2, which in turn form a funnel 6. In the lower part of this funnel 6, two counter-rotating grinding rollers 3 are arranged, of which the grinding roller to be seen in the illustration on the right turns to the left and the opposite de grinding roller to the right. Between these grinding rollers, a crushing bar 5 is provided, which thus forms two grinding gaps 4 in cooperation with the grinding rollers 3. By the mentioned direction of rotation of the grinding rollers 3, the material to be ground is drawn into the nip and conveyed through it, so that it falls by gravity into the portioning device 8 at the exit of the grinding gap 4.

The crushing bar 5 is displaceable in the direction represented by the arrow, that is, in simplified terms, can be displaced upwards or downwards. In this case, the direction of movement corresponds to the direction of a tangent to the grinding roller circumference applied in the nip 4. The lowermost region 5a of the crushing bar has a rounded design at the end and has a constant cross section. The middle region 5b of the crushing strip is designed wedge-shaped in cross section with planar contact surfaces. This section is followed at the top by the end section 5c, which is not important for the grinding result, and in this embodiment has a constant cross-section, although other configurations are also readily possible. This end portion 5c is connected to the displacement device 7, which allows and causes the said displacement of the crushing bar 5. If the crushing bar 5 is brought into the desired position, ie the nip 4 set to the desired level, there is a locking of the crushing bar 5 via a locking device, not shown. As can be seen from the figure, the crushing bar (5) projects so far into the space between the two grinding rollers (3) that form two grinding gaps. The possible displacement of the crushing bar (5) is determined so that in the normal operating range the crushing bar (5) always protrudes into the area between the two grinding rollers (3), so the crushing bar (5) the connecting line between the two axes of rotation of the grinding rollers ( 3) cuts. Through the illustrated and described cross-sectional design of the break bar (5) can easily the width the two nips (4) are each set between a grinding roller (3) and the breaking strip (5).

In the described construction, the nip 4 can be set to the desired level before the start of the grinding process by the break bar 5 is moved accordingly, so positioned. But it is also possible to change the nip 4 during a grinding operation. An opening of the nip 4, so an enlargement of the nip 4, this is easy to achieve by moving the crushing bar 5 upwards. A reduction of the nip 4 by a downward movement of the crushing bar 5 is basically possible, but in this case must be delivered very slowly to avoid blocking the grinder or excessive loads on the bearings of the grinding rollers 3 and the crushing bar 5.

Claims

claims

1. Adjustable grinder, in particular for grinding dry ice with at least one grinding roller (3) and a crushing bar (5), which are arranged so that they form a grinding gap (4), wherein the crushing bar (5) is slidably mounted in a guide and by means of an actuating device is displaceable so that the grinding gap (4) is adjustable between a minimum and a maximum value,

 characterized in that two contested counter-rotating grinding rollers (3) are provided, between which the crushing bar (5) is arranged so that two grinding gaps (4) result, wherein the ground material is supplied from above by means of a funnel (6) and the Direction of rotation of the grinding rollers (3) is selected so that the material to be ground in the nip (4) and pushed therethrough, so that it falls out of this on the underside of the nip (4) and the displaceable crushing bar (5) for adjusting the grinding gaps (4) has a cross section which is not constant transverse to the direction of displacement.

2. An adjustable grinder according to claim 1, characterized in that the guide is arranged so that the displacement of the refractive index te (5) in a direction which is radially oriented from the axis of rotation of the grinding roller (3).

3. An adjustable grinder according to claim 1, characterized in that the guide is arranged so that the displacement of the refractive power te (5) takes place in a direction which is oriented tangentially to the grinding roller (3), wherein the tangent is applied in the nip and the crushing bar (5) has a cross section which is not constant transversely to this direction.

4. Adjustable grinder according to one of claims 1 to 3, characterized in that two spaced grinding rollers (3) are provided, between which the crushing bar (5) is arranged.

5. Adjustable grinder according to one of claims 1 to 4, characterized in that the crushing bar (5) between two spaced grinding rollers (3) is arranged such that a connecting line between the two axes of rotation of the grinding rollers (3) intersects the crushing bar (5) ,

6. Adjustable grinder according to claim 4, characterized in that the two grinding rollers (3) are driven in opposite directions.

7. Adjustable grinder according to claim 6, characterized in that the guide allows a displacement of the crushing bar (5) up or down, wherein the elongated crushing bar (5) aligned with grinding surfaces on both sides in the conveying direction of the ground material through the nip (4) is.

8. Adjustable grinder according to one of claims 3 to 7, characterized in that the crushing bar (5) in the upper region has a greater extent in cross section than in the lower region.

9. Adjustable grinder according to claim 8, characterized in that the crushing bar (5) has a wedge-shaped cross section in cross section at least over a partial region.

10. Adjustable grinder according to claim 8 or 9, characterized in that the crushing bar (5) has a constant cross-section at least over a partial region of time.

11. Adjustable grinder according to one of claims 8 to 10, characterized in that the crushing bar (5) in the lower region has an end region with a constant cross-section, to which an area with a substantially wedge-shaped cross section connects at the top.

12. Adjustable grinder according to one of claims 1 to 11, characterized by a locking device by means of the crushing bar (5) is detectable in a desired position.