FI79572C - FARING EQUIPMENT WITH A CLEARING FOLLOWING FOR FISHING. - Google Patents

Description

79572 ^ Method in the sheet cutter and equipment used in the method Förfarande vld arkskärare och anläggning för användning vid förfarandet 5

The invention relates to a method for minimizing blade loads caused by material jams in a sheet cutter associated with a cellulose dryer and to a device used in the method.

GB 1 108 289 discloses an apparatus which takes into account the different material strengths of the material fed between two rotating blade rollers. In the arrangement according to GB patent 1,603,999, the upper roller 15 is adapted to pivot on the bearing means. As the top roll rises, the roll roll in question is identified and signal information is provided to the actuator, which further raises the top roll to the height required by the material thickness. This GB publication does not provide a solution for avoiding sudden blade loads due to material blockages.

In particular, the pulp cutter of the drying machine creates situations in which a so-called blockage occurs between the rotating and the counterblade. In this case, the rotation speed of the roll has to be slowed down quickly. This causes high loads on the ra-25 structures such as blades, bearings, etc., which easily break the blades. The bearing housings are also easily damaged.

The invention seeks to find a solution to this problem. In the invention, it has been realized to use a method in which the kinetic energy of a rotating roll in the event of a blockage is converted into the potential energy of the traction field of the earth in a controlled manner. In the event of a blockage, the rotating roller is adapted to rise and pivot on pivoted bearing housings. Thus, the high kinetic energy of the rotating blade is substantially converted into potential energy. The descent of the raised blade roller is damped, for example, by a damping cylinder or other damping pads.

2 79572 1 The method according to the invention for minimizing the loads caused by material jams is mainly characterized in that in the event of a jam the blade roll is allowed to rise freely upwards, whereby the kinetic energy of the blade roll is converted substantially entirely into potential energy.

The device according to the invention is mainly characterized in that the apparatus comprises bearing housings allowing the blade roller to rise, articulated to pivot in the joints, whereby during the blockage 10 the blade roller rises between the blade moving in the cutting operation and the counterblade.

The invention will now be described with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1 shows an axonometric view of a sheet cutter, in particular in connection with a cellulose dryer.

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Figure 2 shows the rise of the roll in the event of a blockage. The figure is closest to the arrow C direction in Figure 1.

Figure 3 shows the damping means used in the lowering of the roll.

25 illustration is taken along an arrow C direction in Figure 1.

Figure 4 shows the dimensions of the calculation model used in the method according to the invention. The representation is a cross-sectional view of a blade roll.

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Figure 1 shows a sheet cutter 10. The sheet cutter 10, preferably in connection with a cellulose dryer, comprises a rotatable blade roll 11 and at least one blade 11a therein. The apparatus comprises a counter-blade 12 in a fixed position during cutting.

Il 3 79572 ^ The output shaft 15 of the drive motor 13 comprises, at the end of the gearbox 14, a drive wheel 16, e.g. a gear wheel. The gearbox 14 comprises a shaft 18 mounted for rotation therein. The shaft 18 comprises a drive wheel, preferably a gear wheel 17. Power-5 transmission means, e.g. a chain 19, are connected between the wheels 16 and 17. The rotation is thus transmitted from the drive motor 15 via the wheel 16 transmission means 19 to the shaft 18 drive wheel. 17. Thus, a shaft 18 is rotated, the other end of which has a drive wheel 20, e.g. a pulley. The pulley 20 is associated with power transmission means 21, e.g. a V-belt, which is adapted to join 10 to the drive wheel 22 connected to the shaft 23, preferably also to the pulley.

The shaft 23 passes through the bearing housing 24a and is connected to the shaft pin 25a of the rotatable blade roll 11.

The bearing housing 24a comprises a leveling point 26a at one end of the bearing housing. The bearing housing 24a is adapted to pivot about the leveling point 26a. The bearing housing 24a comprises the bearing means 27a of the shaft 23.

Correspondingly, a bearing housing 24b adapted to pivot is connected to the second shaft pin 25b of the rotatable blade roller 11. The bearing housing 24b comprises bearing means 27b for the shaft 25b. The bearing housing 24b is correspondingly adapted to pivot about a pivot and articulation point 26b arranged at an angle to the bearing housing. Preferably, the articulation pads 26a and 26b are formed by bearing means, e.g. a hinge pin. The motor 13 rotates the blade 11 of the blade-25, whereby the material M intersects between the blade 11a of the blade roller 11 and the fixed counterblade 12.

In the embodiment shown in Fig. 1, the apparatus further comprises a breaking pin 29, upon breaking of which the blade roller 11 rises upwards. The rise prevents damage to the blades and bearing means.

Figure 2 shows the situation during blockage T. The kinetic energy of the rotating blade roller 11 is converted into potential energy. In the figure, the rise of the blade roll 11 is indicated by the arrow L 2.

Figure 3 shows an embodiment of the invention in which the fall of the blade roll 11 back into the lower position is damped by a damping device 30.

35 a 79572 1 The damping device 30 can be, for example, a liquid training device. This damping device 30 allows the blade to rise freely upwards »but in the other direction of movement the actuator 30 dampens the movement and converts this potential energy into e.g. thermal energy or energy stored in the actuator 30 5 which can be released after the roll is raised and further lowered and thus brought back into training mode. . The damper may also be a flexible return damper pad or the like.

Figure A shows the method according to the invention as a calculation model.

The weight of the roll in the calculation model is 8000 kg and its rotational speed is 333 revolutions per minute.

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The kinetic energy is W = h .1 ω. When the kinetic energy of the blade roll is used to lift 15 rolls in the ground traction field to height h, the following equation is obtained: 2 mgh = J ω * "20 From the equation we can decide what the lifting height should be so that the total kinetic energy can be converted to potential energy: 1 The following values were used in the calculation: J = hm (R ^ 2 + R ^ 2) if R ^ = 36 cm and R2 53 cm ω = 2 = 6.3 Rad / s <*> 2 = AO 1/52 30 J = h 8000 kg (0.362 m2 + 0.532 m2) = ¼ 8000 0.A3 kg m2 = 1720 kg m2 where J = moment of inertia; R1 and R2 are radii of the blade roll shell; u) angular velocity; m = mass; g = acceleration due to traction; h = lift height 35 for the center of gravity li 5 79572 ^ The required lift height h is given by the above values 0.44 m.

If there are two blades, the lifting height is obtained with the corresponding values of h = 0.1 m.

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Claims (4)

6 79572 A method for avoiding impact loads g due to a blockage of the material (M) to be cut in a sheet cutter (10), in particular a cellulose dryer, characterized in that in the event of a blockage the blade roll (11) is allowed to rise freely upwards. . -jQ Method according to Claim 1, characterized in that the fall of the blade roller (II) back into the lower position is damped by a separate damper (30). 1 Claims Sheet cutter (10) used in a method according to one of the preceding claims, comprising a rotatable blade (11a) for rotating the material (M) and a counter-blade (12) cooperating therewith, characterized in that the apparatus comprises bearing housings allowing the blade roll (11) to rise (24a, 24b) articulated to pivot in the joints (26a, 26b), allowing the blade roll (11) to rise during the blockage (T) - 20 between the blade (11a) moving in the slicing event and the counterblade (12), whereby the blade roll (11) the kinetic energy is converted into the potential energy of the gravity field. Sheet cutter according to Claim 3, characterized in that the apparatus comprises at least one damping element (30) for preparing the lowering of the blade roller (11). 30 I! 35