FI121891B - A bending compensated roller for a fiber web machine or a fiber web finishing machine, a method for controlling the vibrational properties of a roller for a fiber web machine or a fiber web finishing machine, and a method for equipping a bending compensated roller for a fiber web machine or a fiber web finishing machine - Google Patents

Description

Deflection compensated roll of a fiber web or fiber web finishing machine, a method for adjusting the vibration properties of a deflection compensated roll of a fiber web machine or fiber finishing machine, and a method of deflecting a fiber web or fiber finishing machine with a press compensated roll 5

The present invention relates to a deflection compensated roll of a fiber web machine or a fiber web finishing machine, which roll includes a stationary shaft, a shaft rotatably supported on the shaft, hydraulic actuators arranged on the shaft and having at least one of the hydraulic equipped with at least one pressure accumulator.

The present invention further relates to a method for adjusting the vibration characteristics of a deflection compensated roll of a fiber web machine or a fiber web finishing machine, which roll includes a stationary shaft, a shaft rotatably supported on a shaft, a hydraulic actuator equipped with at least one pressure accumulator, changing the rigidity of the roll shell support.

The present invention further relates to a method for providing a deflection compensated roll of a fiber web machine or a fiber web finishing machine with a pressure accumulator having a stationary shaft, a shaft rotatably supported on the shaft, a hydraulic actuator mounted on the shaft, and .

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Such rollers with pressure accumulators are known from, for example, Finnish Patent Publication FI 120409 and one solution is disclosed in EP 1155190 B1.

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The arrangement according to the Fl patent is effective in itself, i.e. it eliminates vibrations in rolls due to unevenness of the material web or deformation of the coating or fabric and receives the sudden change in load caused by the threading of the head. The problem with such an arrangement is that adding such a feature (pressure accumulator) to an old roll, for example, would require transporting the entire roll to a suitable workshop (service point) and disassembling, additional machining, reassembling, etc., which are expensive measures. The problem with the arrangement according to the EP patent is its uncertain operation. The pressure peak may dampen in the ductwork, and 10 will never reach the membrane of the battery. Even at its best, a state-of-the-art battery pack responds slowly.

The object of the present invention is to eliminate or at least substantially reduce the above-mentioned drawbacks.

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To achieve the object of the aforementioned invention, the present invention is characterized in that the pressure accumulator is arranged in connection with the load shoe and that means for controlling the pressure accumulator are provided in connection with the load shoe.

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The roller according to the present invention avoids the above disadvantages. Thus, the addition of the pressure accumulator to the old roll can be done by changing the configuration of the load element to the old shaft. The change can be made at the customer simply by removing the roll cover and replacing the load element assembly. The necessary additional piping can be made to the surface of the shaft io by drilling and fastening at the installation site.

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C \ l | Preferred embodiments of the present invention are set forth in the dependent claims.

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In the following, the present invention will be described in more detail with reference to the accompanying drawing, in which Figure 1 is a cross-sectional view of a roller according to the present invention and a hydraulic actuator provided with a pressure accumulator.

Thus, Figure 1 is a cross-sectional view of a hydraulic actuator 5 according to the invention, designated herein by reference numeral 1. The hydraulic actuator 1, or loading member, comprises a piston portion 2 disposed in a cylinder bore 22 on a roll shaft 20. , to which a hydraulic pressure medium, such as an oil, is fed in a manner known per se, e.g. via flow paths 21 formed in the shaft 20. A loading shoe 3 is disposed on the piston portion 2 of the hydraulic actuator 1, which remains in the space between the roll shaft 20 and the roll shell 21. Here, the roll is a fiber grate of a deflection compensated roll of a machine or fiber web finishing machine, and the hydraulic actuator 1 here is a loading element 3 for loading the inner surface of the roll shell 4. The deflection compensated roll typically comprises several dozens of such loading elements, to which the pressure medium can be supplied either individually or in a group of elements, i.e. zones, formed by a plurality of loading elements, for example 3-10. The bearing surface, i.e. the load shoe 3 ', rests against the inner surface of the roll shell 4 and loads it with a load proportional to the load exerted by the hydraulic pressure medium supplied to the pressure chamber 16. The hydraulic pressure medium in the pressure chamber 16 is arranged to move the piston 2 in the cylinder space 22 and to load the loading surface 5b formed on the lower part of the load shoe 3 with an upward force in Figure 1. The loading element 1 is provided with flow paths 17,18 through which the hydraulic medium is directed from the pressurized space 16 to the pockets 00 'on the upper surface (bearing surface) of the load shoe 3 and further between the bearing surface 3' and the inner surface of the roller sheath 4. soil lubricant layer.

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2 shows that the load shoe 3 is provided with a pressure accumulator according to the invention, denoted by reference numeral 5a, and means 11 for controlling the pressure accumulator. This structure and operation will now be explained in more detail.

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Preferably, a pressure accumulator block 5 is provided at the load shoe 3, the part 3 below its sliding surface 3 ', i.e. the piston 2, and in which the pressure accumulator 5a is arranged, and control means 11 are provided for controlling the accumulator 5a. and is attached to the underside of the load shoe 3 ". The block 5 thus comprises control means 11 for the pressure accumulator 5a and the necessary duct system (15a, 12 for controlling the pressure accumulator 5a, for creating a flow connection between the pressure chamber 16 and the pockets 24, the pressure accumulator 5a. to limit the cavity rubber membrane 6 which divides the interior of cavity 30 or pressure accumulator 5a into two separate spaces 7 and 8. The walls 31 and 32 are shaped so as to secure the rubber membrane 6 at their edges. 17) .The bottom wall 32 interacts with the loading medium of the hydraulic actuator, for example, through the flow passages 9. In the figure, the upper space 7 is reserved for a constant amount of a fluid such as gas by changing the volume of the space 7 by controlling the pressure accumulator 5a. 6 out of 7 difference 8 pressurized hydraulic fluid in the following manner. The means for controlling the pressure accumulator 5a 20 include a valve 11, which is preferably of the socket type. The slide, denoted by reference numeral 13, is disposed in a cylindrical space 12 formed in the block of a pressure accumulator 5a. The cylindrical space 12 opens at its first (and lower) end to the pressure space 16 and at its second r 15. The pressure medium o fed through the flow path 15 is applied to the cylindrical space 12 to form a cv force acting on the slide 13 to guide the slide 13 to open or close the flow path | between pressure chamber 16 and space 8 below pressure accumulator 5a. The pressurized medium load g into the flow path 15 formed by the shoe 3 is brought, for example, to the shaft 20.

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g 30, not shown, which can also be surface mounted on the shaft 20 and, if necessary, can be mounted to retrofit old rolls.

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Figure 1 illustrates a situation in which a pressure medium is supplied to control the valve slide 13 in the lower position (shown). The seat 14 at the lower end of the valve 11, which has closed the flow port 10, then moves away from the flow port 10, thereby creating a hydraulic connection between the lower space 8 of the pressure accumulator 5a and the pressure space 16. Thus, the pressurized hydraulic fluid enters the pressure chamber 8 through a pressure opening flow opening 10 and a pressure accumulator flow paths 8 to exert a force on the pressure accumulator diaphragm 6. Thus, the compressible gas 5 accumulates into a smaller space as the rubber membrane succumbs 8 pressures that have a predetermined relationship to each other. There is a back pressure in the space 7 which receives, through deformations of the rubber membrane 6, the pressure fluctuations in the space 8 which result from, for example, track head displacement or track irregularities.

15

The present invention is not limited to the claims presented but can be applied in many ways within the scope of the claims defined.

The pressure accumulator according to the invention can thus be used to actively control the stiffness of the roll, i.e. the roll frequency, i.e. the vibration characteristics of the roll. The stiffness of the roll shell support can be varied by opening and closing the valve 11 oscillating at regular intervals or as needed, e.g., over critical and semi-critical speed ranges.

<m 25 i o According to the invention, the deflection compensated roll of a fiber web machine can be easily fitted with pressure accumulators after retrofitting of the roll casing 4 | the load element 1 is removed. The load shoe is machined from the flow channels 15 to control the pressure accumulator 5a. Load shoe underside 3 "

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g 30 (or the parts directly associated therewith) inside the piston 2 assemble the components of the pressure accumulator 5 or connect a pre-assembled pressure accumulator 5.

The loading element 1 is thus provided with a pressure accumulator 5a and can be mounted 6 back into the cylinder bore 22. The pressure supply piping necessary for controlling the pressure accumulator 5a is provided as a surface mounting on the shaft surface. No axis machining is required to control the pressure accumulator. Instead of using the existing loading elements of the roll, it is of course also possible to manufacture new load cells with a pressure accumulator 5 and replace them. Finally, the roll cover is reattached.

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Claims (7)

1. A deflection compensated roll of a fiber web machine or a fiber web finishing machine, the roll comprising a stationary shaft (20), a shaft rotatably supported by 5 roll shells (4), hydraulic actuators (1) arranged on the shaft (20) and hydraulically actuated ), wherein at least one of the hydraulic actuators (1) is provided with at least one pressure accumulator (5a), characterized in that the pressure accumulator (5a) is imitated in connection with the load shoe (3), and ) are provided with control means (11) for controlling the pressure accumulator (5a). Roll according to Claim 1, characterized in that the control means (11) for controlling the pressure accumulator comprises a valve which is controlled by the valve control means (15) arranged to open and close the hydraulic fluid flow opening (10) leading to the pressure accumulator (5a). through. Roll according to Claim 2, characterized in that the valve control means (15) include a flow path for introducing the hydraulic medium into the valve. Roll according to Claim 2 or 3, characterized in that the valve r- (11) is a socket-type valve. O -, Γ- <m 25 Roll according to one of Claims 1 to 4, characterized in that the pressure accumulator (5a) and the valve (11) are arranged on the load shoe (3) | block (5). CO CO g 30 A method for adjusting the vibration characteristics of a deflection compensated roll of a fiber web machine or a fiber web finishing machine, the roll including a stationary shaft (20), a shaft rotatably supported on a shaft (4), hydraulic actuators (1) arranged on a shaft (20) ) can be loaded via a loading shoe (3) belonging to the hydraulic actuator (1), at least one of which is provided with at least one pressure accumulator (5a), by changing the stiffness of the support 5 of the roll shell (4). in connection with the load shoe (3), and that control means (11) are provided in connection with the load shoe (3) for controlling the pressure accumulator (5a). A method for providing a deflection-compensated roll of a fiber web machine or a fiber web finishing machine with a pressure accumulator comprising a stationary shaft (20), a shaft rotatably supported on the shaft (4), hydraulic actuators (1) arranged on the shaft (20) 4) can be loaded via the load shoe (3) of the hydraulic actuator (1), characterized in that the method comprises: 15 - removing the roller sheath (4), - removing the hydraulic actuator (1) from the shaft (20), ) for control, 20. fit the pressure accumulator (5a) to the load shoe (3), - mount the load shoe (3) with the pressure accumulator (5a) back to the shaft (20), - arrange the supply piping () to the surface to supply pressure medium, <m 25 and CO 9. Reinstall the sheath (20). σ> (M X en CL CD CO CD O) o o {M