DE102009041776A1 - Knife carrier for a cutting device in extrusion machines of the tobacco processing industry - Google Patents

Abstract

The invention relates to a knife holder (10) for a cutting device in rod machines of the tobacco processing industry, comprising at least one knife holder (11) arranged on the knife holder (10) and rotatable about an axis of rotation R of the knife holder (10), which is used for displaceably receiving a knife ( 13), the knife (13) being held in the knife holder (11) by two rotatable roller elements (14) which bear against the knife (13) on opposite sides thereof, a roller element (14) serving as the drive roller (16) is designed for radial adjustment of the knife (13) outwards and inwards such that the free rotatability of the drive roller (16) is blocked in both directions of rotation and the other roller element (14) is designed as a pressure roller (15), which is characterized in that the free rotatability of the pressure roller (15) is blocked radially inward toward the axis of rotation R of the knife carrier (10).

Description

The invention relates to a knife carrier for a cutting device in extrusion machines of the tobacco processing industry, comprising at least one arranged on the knife carrier and rotatable about an axis of rotation of the Meßerträges knife holder which is adapted for slidably receiving a knife, the knife by two rotatable roller elements, which on each other on opposite sides of the knife abut against this, is held in the knife holder, wherein a roller element is formed as a drive roller for radially adjusting the knife outwardly and inwardly, such that the free rotation of the drive roller is blocked in both directions, and the other roller element is designed as a pressure roller.

Such knife carriers are used in the tobacco processing industry. In particular, such knife carrier are integrated in extrusion machines. In the stranding machines, the strands of tobacco, filter material or other stranded materials are cut into strand sections. For this purpose, the knife carrier is rotatably driven about a rotation axis. At least one knife holder, which carries a radially displaceable or adjustable knife or knife blade, is arranged on the circumference of the knife carrier. Different forces act on the knives. Due to the rotational speed of the knife carrier a centrifugal force F _Flieh acts on the knife, the centrifugal force increases with increasing speed. This centrifugal force F _Flieh "pulls" quasi on the knife in a - relative to the drum-like body of the knife carrier - radially outward, away from the axis of rotation direction. Furthermore acts on the knife, the cutting force F _cut , which counteracts the centrifugal force of the blade F _Fieh countered during the cutting process.

From the prior art and in particular the DE 1 157 524 is a knife holder on cutting devices in extrusion machines known in which the knife is held in the knife holder by two roller elements. A roller element is designed as a drive roller. The drive roller serves as a feed element for the knife for radially adjusting the blade outwards and inwards. In principle, however, the drive roller blocks the free rotation of the roller element in both directions of rotation. Between the stationary drive roller and the knife therefore acts a frictional force, namely the _{Haftreibkraft} F _Haft1 . The _{Haftreibkraft} F _Haft1 results from the coefficient of friction μ ₁ and acting perpendicular to the knife normal force F _N (F _Haft1 = μ ₁ × F _N ).

The second roller element is designed as a pressure roller. The pressure roller is spring-loaded. In other words, the pressure roller is associated with a spring element, so that the pressure roller is pressed with a spring force F _spring against the knife. However, the spring element is oriented obliquely to the knife, such that a component of the spring force F _spring , namely F _{N / spring} , acts perpendicular to the knife and another component, namely F _{radial / spring} , radially outward of the cutting force F _cut counteracts. The pressure roller is freely movable or rotatable in each operating or functional state, so that between the pressure roller and the knife a rolling friction force F _roll results which results from the rolling resistance coefficient c _R and the normal force F _N (F _Roll = c _R × F _N ). By the rotation of the blade carrier also acts a centrifugal force F _{Flieh / And} on the pressure roller. Characterized in that the pressure roller is guided in an obliquely extending to the knife guide channel, in which, moreover, the spring element is guided, the centrifugal force F _{Flieh / And} the pressure roller is divided into a component F _{N / Flieh / And} , which acts perpendicular to the knife and another component, namely F _{radial / Flieh / And} , which acts radially outward against the cutting force F _cut . The normal force F _N is thus composed of the two force components F _{N / spring} and F _{N / Flieh / And} .

Overall, the holding force F _hold the knife, which holds the knife in the knife holder and on the one hand against the centrifugal force F _Flieh the knife and on the other hand against the cutting force F _cut , formed by the _{Haftreibkraft} F _Haft1 and the rolling friction F _roll (F _stop = F _Haft1 + F _Roll ). It is known that the rolling friction is much smaller than the static friction, which is why F _Roll << F _Haft1 . Prerequisite for holding the knife in the knife holder is that F _Hold > F _Fly and F _Hold > F _Cut . The previous holding force F _hold is sufficient to counteract the centrifugal force F _{Flieh of} the blade. More precisely, the holding force F _Hold > F _Flieh . In the meantime, however, the requirements or boundary conditions for strand cutting have changed. Nowadays, the strands to be cut, in particular the filter strands particles such. As hard granules or the like, which are significantly harder compared to the actual strand material. In other words, the knife in the strand encounters particles that present increased resistance, which increases the cutting force. However, the known device has the disadvantage that the applied holding force is limited, so that the risk exists that the knife is pushed radially inwardly into the knife holder due to the increased cutting force.

The invention is thus based on the object to provide a device which ensures an increased holding force of the blade, in particular in the radially inward direction.

This object is achieved by the knife carrier mentioned above in that the free rotation of the pressure roller radially inward is blocked towards the axis of rotation of the knife carrier out. The free rotation directed radially inward refers to the direction of rotation in the region of the contact surface between the pressure roller and the knife. The blocking or blocking of the free rotation of the pressure roller in the direction mentioned provides an effective abutment for the cutting force F _section . In other words, the rolling friction of the pressure roller is at least at the radially inwardly applied load (knife is pushed inwards into the knife holder or cutting force acts on the knife) replaced by stiction. Specifically acts in a radially inwardly directed load, for example by the hard granules, between the then fixed in this direction of rotation pressure roller and the knife a frictional force, namely the _{Haftreibkraft} F _Haft2 . The _{Haftreibkraft} F _Haft2 results from the coefficient of friction μ ₂ and acting perpendicular to the knife normal force F _N (F _Haft2 = μ ₂ × F _N ). As mentioned, the static friction force F _{Haft2 is} significantly greater than the rolling friction force F _Roll , so that the holding force F _Halt (= F _Haft1 + F _Haft2 ) made possible by the invention is sufficient to counteract the cutting force F _Schnitt or to be greater as the cutting force F _cut . This effectively prevents the knife from being pushed inwards into the knife holder by the cutting force F _cut . The invention makes it possible to increase the holding force F _Halt without increasing the normal force F _N , ie the contact force of the pressure roller acting perpendicular to the blade, on the blade.

An expedient development of the invention is characterized in that the pressure roller is provided with a freewheel, such that the free rotation of the pressure roller is blocked radially inwardly, while the free rotation is given radially outward. The freewheel allows a structurally simple implementation of the principle of the invention. The freewheel blocks the free rotation in a desired direction of rotation while maintaining the free rotation in the other direction.

Advantageously, the free rotation of the pressure roller is blocked in both directions of rotation. Due to the complete locking of the pressure roller, the pressure roller is independent of the forces acting on it, so that a frictional force, namely the _{Haftreibkraft} F _{Haft2 acts} in both directions of rotation. The _{Haftreibkraft} F _Haft2 results from the coefficient of friction μ ₂ and acting perpendicular to the knife normal force F _N (F _Haft2 = μ ₂ × F _N ).

A further preferred embodiment of the knife carrier according to the invention is characterized in that the pressure roller is designed as a drive roller for radially adjusting the blade outwards and inwards. The formation of the pressure roller as a drive roller is the particularly simple and effective implementation of the complete blocking / blocking of the pressure roller. Furthermore, the identical construction of the pressure roller relative to the drive roller simplifies the construction of the blade carrier.

Preferably, at least one roller element, preferably the pressure roller, associated with a spring element for exerting a force acting on the knife. The spring element reinforces the holding force (by increasing the normal force) for the knife, so that higher loads on the knife, so increased centrifugal forces and increased cutting forces can be realized without moving the knife undesirable.

An advantageous development of the invention is characterized in that the spring element is aligned substantially perpendicular to the knife, such that the force applied by the spring element acts substantially perpendicular to the knife. Essentially in this context means that design-related and / or assembly-related deviations from the vertical orientation of the spring element to the knife are also covered by the claim. By this arrangement, the full spring force can be used. Such a spring force then acts independently of the cutting force on the knife.

Further expedient and / or advantageous features and developments of the invention will become apparent from the dependent claims and the description. Particularly preferred embodiments of the invention will be explained in more detail with reference to the accompanying drawings. In the drawing shows:

1 a schematic representation of a knife carrier with a plurality of knife holders,

2 a schematic representation of a first embodiment according to the invention, in which the knife is assigned a drive roller and a pressure roller for holding the knife in the knife holder, wherein the pressure roller has a freewheel,

3 a schematic representation of another embodiment of the invention, in which the knife two drive rollers are assigned to hold the knife in the knife holder, and

4 a schematic representation of a development of the embodiment according to 2 with an additional pressure element.

The knife carrier or knife holder shown in the drawing are used for receiving and holding a knife or knife blade for Cutting devices in extrusion machines of the tobacco processing industry. The invention will be described with reference to a single knife holder. Usually, however, a knife carrier is assigned a plurality of knife holders distributed uniformly over the circumference of the knife carrier.

The Indian 1 schematically illustrated knife carrier 10 is a preferably drum-like element. The knife carrier 10 is by means of a (not shown) drive about the rotation axis R driven in rotation. The knife carrier 10 is usually part of a cutting device in extrusion machines of the tobacco processing industry for cutting filter strands, tobacco strands or the like. The knife carrier 10 However, it can also be used in other devices for cutting strand-like products. The knife carrier 10 includes at least one knife holder 11 , Preferably and as in the 1 shown are the knife carrier 10 however, several knife holders 11 assigned. The knife holders are preferred 11 outside on the circumference of the knife carrier 10 evenly distributed over the circumference. By rotation of the knife carrier 10 the knife holders rotate 11 also circumferential, being at least one point on the strand to be cut 12 meet and cut this. The arrangement and design of the knife carrier 10 to the strand 12 is purely exemplary and not limited to the illustrated embodiment. This is how the knife carrier can be 10 and / or each knife holder 11 for example, inclined at an angle and / or twisted to the strand 12 stand. In other versions, each knife holder 11 fixed or adjustable on the knife carrier 10 be arranged. In particular, the or each knife holder 11 also for the exercise of a relative movement to the knife carrier 10 be trained and equipped.

Every knife holder 11 is for slidably receiving a knife 13 , which may be formed as a knife blade or the like, designed and set up. In other words, the knife 13 in the knife holder 11 arranged such that an adjustment of the knife 13 in the radial direction of the knife carrier 10 is guaranteed. The adjustability is used in particular for adjustment of the knife 13 , The knife 13 are subject to (wear) wear. Furthermore, the knives 13 reground and thus shortened, which is why in particular an advance of the knife 13 necessary is. The adjustment is possible in radially inward and radially outward direction. This is the knife 13 in the knife holder 11 by rotatable roller elements 14 held and / or managed. roller elements 14 can be both single roles and be formed of several roles.

The rolling elements 14 are on opposite sides of the knife 13 arranged so that the knife 13 between at least two roller elements 14 is held. The rolling elements 14 are as a pressure roller 15 and / or drive roller 16 educated. At least one roller element 14 is as a driving role 16 educated. That of the drive roller 16 opposite roller element 14 is optional as a pressure roller 15 or as a drive roller 16 educated. The or each drive roller 16 serves for radial adjustment of the knife 13 radially inward and radially outward. Radial inwards refers to the adjustment direction of the knife 13 in the direction of the axis of rotation R, leaving the knife 13 in the knife holder 11 pushed or pulled into it. Radially outward denotes the opposite direction away from the axis of rotation R, so that the knife 13 from the knife holder 11 pushed or pushed. The free rotation of a drive roller 16 is blocked or locked in both directions. The free rotation of the pressure roller 15 is in at least one direction of rotation, namely at least radially inwardly to the axis of rotation R of the knife carrier 10 blocked or blocked.

In the following, preferred embodiments of the invention will be described with reference to FIG 2 to 4 described in more detail. In the 2 is a knife holder 11 shown schematically, in which the knife 13 on the one hand by a drive roller 16 and on the opposite side by a pressure roller 15 is held. The drive roller 16 is in free movement in both directions of rotation by the drive means 17 , For example, a rack or the like, locked. In other words, stands the drive roller 16 , so that between the drive roller 16 and the knife 13 in contact with the drive roller 16 stands, a _{Haftreibkraft} F _Haft1 acts. Only the actuation of the drive means 17 leads to a rotational movement of the drive roller 16 for adjusting the knife 13 radially inwards or outwards. The pressure roller 15 is inventively provided with a freewheel (approved freewheeling direction according to arrow F _free ), so that the free rotation of the pressure roller 15 locked in one direction of rotation. In the described embodiment, the free rotatability of the pressure roller 15 at an adjustment of the knife 13 given radially outward, while the free rotation of the pressure roller at an adjustment of the knife 13 is locked radially inward. When adjusting the knife 13 radially outward (in the direction of the knife tip) rolls the pressure roller 15 almost on the knife 13 off, leaving a rolling friction F _roll between the knife 13 and the pressure roller 15 acts. At an adjustment of the knife 13 radially inwards, z. B. by pressing the drive roller 16 for adjusting the knife 13 radially inward or through in the strand 12 located resistors (eg hard granules) blocks the freewheel the free rotation of the pressure roller 15 , so that a _{Haftreibkraft} F _Haft2 between the pressure roller 15 and the knife 13 acts. The _{Haftreibkraft} F _Haft2 is greater than the rolling friction force F _Roll .

The embodiment according to 4 is substantially according to the embodiment according to 2 So with a drive roller 16 and a pressure roller 15 , educated. In addition, the pressure roller 15 but a pressing element 22 assigned. The pressing element 22 may be formed in various known ways. By way of example, a toggle arrangement is provided. Here is the pressure roller 15 with a first lever 23 connected, the fixed z. B. on the knife carrier 10 is arranged. A second lever 24 connects the pressure roller 15 with another role 25 for unrolling on a rolling surface 26 , Wall or the like is formed. The role 25 is associated with an actuating element, which in the example described from a mass 27 and a spring 28 is formed. By means of the spring 28 is a holding force applied by the mass 27 can be amplified, especially in the case of the rotation of the knife carrier 10 , in which the mass by the centrifugal force pushes outwards and the holding force on the pressure roller 15 elevated.

In the 3 is a knife holder 11 shown schematically, in which the rotatability of all roller elements 14 is blocked in each direction of rotation. The knife 13 is on both sides by rolling elements 14 held in both directions are blocked or locked. The one roller element 14 is a drive roller 16 which is in free rotary motion by the drive means 17 , For example, by the rack or the like, is locked. In other words, stands the drive roller 16 , so that between the drive roller 16 and the knife 13 in contact with the drive roller 16 stands, a _{Haftreibkraft} F _Haft1 acts. Only the actuation of the drive means 17 leads to a rotational movement of the drive roller 16 for adjusting the knife 13 radially inwards or outwards. The rotation of the other, opposite roller element 14 is also blocked or locked in both directions. For this purpose, the pressure roller 15 also as a drive roller 18 designed for radial adjustment of the knife outwards and inwards. The pressure roller 15 but can also be blocked or blocked in other ways in both directions. The pressure roller is preferred 15 or the drive roller 18 by a drive means 19 locked in the free rotation. As drive 19 can z. B. serve a rack or the like. Only the actuation of the drive means 19 leads to a rotational movement of the drive roller 18 for adjusting the knife 13 radially inwards or outwards. In other words, stands the drive roller 18 , so that between the drive roller 18 and the knife 13 in contact with the drive roller 18 stands, a _{Haftreibkraft} F _Haft2 acts. Other drive means are alternatively also usable. Preferably, the drive means 17 . 19 synchronized, so that the adjustment of the knife 13 radially outward and inward optimized.

At least one role element 14 can be a spring element 20 be assigned. In the embodiment according to 2 is the pressure roller 15 spring loaded, wherein the spring element 20 the pressure roller 15 against the knife 13 suppressed. In the embodiment shown, the spring element 20 arranged such that the spring force F _spring perpendicular to the knife 13 acts. The spring element 20 but can also be diagonal to the knife 13 be arranged. For example, the spring element 20 in a guide channel 21 be arranged obliquely to the knife 13 stands and in which the pressure roller 15 is guided. The guide channel 21 is obliquely forward and outward, namely preferably at an angle β to the knife 13 directed, where β is <90 ° (see 2 ).

In further embodiments of the invention, not shown, the knife holder 11 also on each side of the knife 13 two or more roller elements 14 exhibit.

There is also the possibility that the knife 13 by two spring-loaded pressure rollers in the knife holder 11 is held, and the adjustment of the knife 13 radially outward and inward is achieved by separate drive means. Furthermore, also the drive rollers 16 . 18 be formed spring loaded. For example, any drive roller 16 . 18 via a spring operated toggle assembly or the like in contact with the knife 13 to be brought.

The functional principle of the invention will be described in more detail below with reference to the two embodiments described and shown:
In the embodiment according to 2 becomes the knife 13 by holding force F _hold on one side of the knife 13 by F _Haft1 and on the other hand, depending on the functional condition by F _Roll or F _{Haft2 is} formed in the knife holder 11 held. On the knife 13 acts through the rotation of the knife carrier 10 the centrifugal force F _Flieh , wherein the holding force F _hold in each case is greater than F _Flieh , so that the knife 13 not radially outward from the knife holder 11 "Slips". In the case of a radially inwardly directed load by the cutting force F _section , the size of which can still increase due to the said hard granules, the holding force F _hold prevents the knife from being inserted 13 radially inward. With a radially inward load on the knife 13 acts between the then fixed in this direction of rotation pressure roller 15 and the knife 13 a friction force, namely the static friction force F _Haft2 . The _{Haftreibkraft} F _Haft2 results from the coefficient of friction μ ₂ and perpendicular to the knife acting normal force F _N , resulting from the proportion of centrifugal force of the pressure roller 15 and the spring force F _spring (F _Haft2 = μ ₂ × F _N ). The _{Haftreibkraft} F _Haft2 acts only against the cutting force F _cut . As mentioned, the static friction force F _{Haft2 is} significantly greater than the rolling friction force F _Roll , so that the holding force F _Halt (= F _Haft1 + F _Haft2 ) made possible by the invention is sufficient to counteract the cutting force F _Schnitt or to be greater as the cutting force F _cut . This effectively prevents the knife 13 by the cutting force F _cut inwards into the knife holder 11 is inserted. The invention enables an increase in the holding force F _Halt , without the normal force F _N , that is perpendicular to the knife 13 acting contact pressure, on the knife 13 to increase.

In the embodiment according to 3 act in both directions of rotation or adjustment of the knife 13 each _{Haftreibkräfte} , namely on the one the _{Haftreibkraft} F _Haft1 and on the other the _{Haftreibkraft} F _Haft2 . In other words, by the formation of both roller elements 14 as a drive roller 16 . 18 generates a holding force F _hold , which consists of two _{Haftreibkräften} (F _Haft1 and F _Haft2 ) and on the one hand against the centrifugal force F _Flieh and on the other hand against the cutting force F _section . acts.

In the embodiment of the 4 settles on the part of the pressure roller 15 on the knife 13 acting normal force from the spring force and the force F, which results from the function F = m (mass) × a (acceleration), where the normal force with a gear ratio to the knife 13 acts. Otherwise, the pressure roller behaves 15 essentially as in the embodiment according to FIG 2 ,

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• DE 1157524 [0003]

Claims (9)

Knife carrier ( 10 ) for a cutting device in extrusion machines of the tobacco processing industry, comprising at least one of the knife carrier ( 10 ) and about an axis of rotation R of the Meßerträges ( 10 ) rotatable knife holder ( 11 ), which is used for displaceably receiving a knife ( 13 ) is formed, wherein the knife ( 13 ) by two rotatable roller elements ( 14 ) on opposite sides of the knife ( 13 ) abut this, in the knife holder ( 11 ), wherein a roller element ( 14 ) as a drive roller ( 16 ) for radial adjustment of the blade ( 13 ) is formed outwardly and inwardly, in such a way that the free rotation of the drive roller ( 16 ) is blocked in both directions of rotation, and the other roller element ( 14 ) as a pressure roller ( 15 ) is formed, characterized in that the free rotation of the pressure roller ( 15 ) radially inwardly to the axis of rotation R of the knife carrier ( 10 ) is blocked. Knife holder according to claim 1, characterized in that the pressure roller is provided with a freewheel, such that the free rotation of the pressure roller is blocked radially inwardly, while the free rotation is given radially outward. Knife holder according to claim 1 or 2, characterized in that the free rotation of the pressure roller is blocked in both directions of rotation. Knife holder according to one of claims 1 to 3, characterized in that the pressure roller is designed as a drive roller for radially adjusting the blade outwards and inwards. Knife carrier according to one of claims 1 to 4, characterized in that at least one roller element is associated with a spring element for exerting a force acting on the knife. Knife carrier according to claim 5, characterized in that the spring element is aligned substantially perpendicular to the knife, such that the force applied by the spring element acts substantially perpendicular to the knife. Knife carrier according to one of claims 1 to 6, characterized in that at least the pressure roller is guided in a guide channel, wherein the guide channel is aligned obliquely to the knife. Knife carrier according to one of claims 1 to 7, characterized in that the pressure roller ( 15 ) an additional pressing element ( 22 ) assigned. Knife carrier according to claim 8, characterized in that the pressure element ( 22 ) is a toggle lever assembly.

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