CN202688762U

CN202688762U - Vibratory equipment and machine for manufacturing web of fibers

Info

Publication number: CN202688762U
Application number: CN 201120290415
Authority: CN
Inventors: A.希尔兹; H.P.威耶曼
Original assignee: Voith Paper Patent GmbH
Current assignee: Voith Patent GmbH
Priority date: 2010-08-11
Filing date: 2011-08-11
Publication date: 2013-01-23
Anticipated expiration: 2021-08-11
Also published as: EP2418320A1; DE102010039197A1

Abstract

The utility model relates to vibratory equipment and a machine for manufacturing a web of fibers. The machine includes the vibratory equipment. The vibratory equipment enables a roller to move along a shaft of the roller in a reciprocating mode. The roller is especially used for manufacturing the web of fibers, especially a paper web, a paperboard web or a paper web wrapping machine. The vibratory equipment is provided with a first decentration driver connected with the roller along the roll shaft direction and a second decentration driver connected with the roller along the roll shaft direction, wherein the two decentration drivers are driven by at least one motor, preferably by two motors. The two decentration drivers are arranged on or inside the same movable or removable device. The roller and the device are connected directly or indirectly to each other by means of a vibratory rod. The vibratory equipment is characterized in that the vibratory rod is divided into at least two parts, especially into at least a basic element and at least a preferred single-piece prolonging element, wherein at least one element, especially at least one prolonging element is supported by means of at least one keeping system.

Description

Vibratory equipment and for the manufacture of the machine of web of fiber

Technical field

The utility model relates to a kind of roller that makes along the reciprocating vibratory equipment of its axle, and described roller is particularly useful for making the machine of web of fiber, especially paper web, board web or packing paper web.

Background technology

This vibratory equipment is for example open by patent documentation EP 1624102B1.

The vibratory equipment of working under this condition almost there not being reaction force is based on by means of mass highly dynamic, that directly drive with the ac driver of angle synchronous governor pair, wherein, mass is on the device that is arranged in hydrostatic support, for example on slide plate, support or the framework.Yet two masses of this vibratory equipment are to also driving by means of the drive unit that only has a drive motors.In addition, also can use the hydraulic motor instead of electr ic motor.

By from 0 to 180 degree (along direction of rotation) regulate two masses to the angle inertia force of regulating action on vibrating arm infinitely.By the right velocity of rotation of two masses regulating frequency equally infinitely.

The rotating energy that produces is delivered to breast roll machine, example (Brustwalze) for the manufacture of web of fiber by means of vibrating arm." with the slide plate of breast roll " unit is the system of along continuous straight runs (with common mechanical zero) free vibration.

This vibratory equipment also has following characteristics:

-high-frequency vibration

Even if in machine speed until during 1.200m/min, also can obviously improve the shaping in the web of fiber to be manufactured.

-controlled the length ratio of tearing

Stroke by coupling vibration and frequency can freely be selected the length ratio of tearing in the web of fiber to be manufactured in wide scope.

Therefore produced the following most common use for the network operator of vibratory equipment:

-in the situation that obviously improve paper quality and distribute by uniform fiber and realize that the best in web of fiber to be manufactured is shaped, process continuing, be coated with, flood and be favourable when printing web of fiber to be manufactured,

-by in web of fiber to be manufactured targetedly fiber alignment improved DIMENSIONAL STABILITY,

-reduced maintenance cost by little stress and the wearing and tearing that reduce.

Special purpose for the network operator of vibratory equipment is:

-obviously improve the shaping in the web of fiber to be manufactured;

-reduce the length ratio of tearing in the web of fiber to be manufactured

-improve other mass parameter in the web of fiber to be manufactured, such as fracture strength, upset resistance (SCT-CD) etc.,

-there is not a reaction force.The deadweight that vibratory equipment only must be supported in the basis is not to the other parts of machine, such as the vibration of disturbing to head box and wet end transmission.

-compact conformation, firm and packed.Device or the supporting of the preferred static pressure of slide plate ground are guaranteed to lubricate according to Principle of Rotating to the system integration.

Known vibratory equipment always has fixing spacing usually between roller to be moved respectively and affiliated movable device, therefore can use identical and standardized vibrating arm at once.Therefore, the installability of shortcoming occurred under normal conditions and be difficult near other parts, in particular for the machine part of the machine of making web of fiber.In addition, in the situation that structure is little, require expending of raising, lay conduit and the existing device that staggers that has existed because must stagger.

Although use in some cases shorter vibrating arm can remedy described shortcoming, yet expend relevant with higher calibration.To shorter vibrating arm lack calibration in known manner at bearing unit and the other end of movable device, namely cause the wearing and tearing, the power of raising, the especially cross force that improve at roller to be moved, and therefore bring the temperature of raising.Therefore the base bearing of bearing, especially vibratory equipment and/or breast roll bearing often lost efficacy in advance.This raising of addressing for example finally causes the maintenance cost that in the usually shorter life-span shorter vibrating arm improved.

Use long vibrating arm also can proofread and correct described shortcoming in some cases, yet it is characterized in that the quality of higher not supporting, larger deflection and the higher radial load of thrust bearing.And cause in known manner the raising of temperature in vibratory equipment inside and therefore cause reducing of life-span with the better quality than the high rim load.

Summary of the invention

Therefore, technical problem to be solved in the utility model is that the vibratory equipment of the described type of improvement beginning so that reduce to a great extent described shortcoming of the prior art, preferably even is fully avoided these shortcomings in this wise.Especially should create the possibility of variable spacing between each roller to be moved and the affiliated movable device.At this, should avoid most possibly extra load and the aligning expense of raising, and this design should be simple in structure and reliable.

This technical problem solves thus according to the utility model in the vibratory equipment of the described type of beginning, namely, described vibratory equipment has the first eccentric driver of being connected with roller along roll axial direction and second eccentric driver of being connected roll axial direction and being connected with roller, wherein, two eccentric drivers are by at least one motor, preferred two motor-driven, wherein, two eccentric drivers be bearing in same movable or movably device upper or in, and, described roller and device interconnect indirectly or directly by means of vibrating arm, vibrating arm is divided at least two parts, especially the prolongation element of at least one base components and at least one preferred single-piece, wherein, at least one element, especially at least one prolongs element by means of at least one keeping system supporting.

Solved fully in this way by technical problem of the present utility model.

Vibrating arm is divided at least two variable parts by the utility model so that avoided so far constant spacing between roller respectively to be moved and affiliated movable device.According to by the design of vibrating arm of the present utility model, avoided the installability of shortcoming fully and be difficult near other parts, in particular for the machine part of the machine of making web of fiber.Now, described spacing can be configured to variable, even if therefore transform conduit and the existing device that also no longer needs to stagger and lay existence significantly.

Because at least one element, especially at least one prolongs element by means of at least one keeping system supporting, optimal absorption possible extra mass and avoided to a great extent the larger deflection of thrust bearing and higher radial load.The rising of temperature and reducing of vibratory equipment life-span have effectively been suppressed.

Be designed in the preferred form of implementation of the first, vibrating arm is divided into two parts, wherein, prolongs element and preferably directly is connected with device or with roller.This design is the simplest possibility of dividing basically, yet is realizing by closing to reality in the advantage of the present utility model.

And in the second form of implementation, be designed to, vibrating arm is divided into three parts, wherein, prolong arrangements of elements between two base components or base components be arranged in two and prolong between the elements.Certainly, two identical elements of function also can be arranged on direct neighbor ground.Being divided in of design realized the described wide scope of application that has by advantage of the present utility model the time again like this.

Support at least one element, especially at least one keeping system that prolongs element preferably is equipped with for the element of guide support point-blank point-blank or almost, especially prolongs the guidance system of element.Keeping system can be to hang and the effect of being erected at this.To the element of supporting, especially prolong the straight line of element or near the guiding of straight line so that effectively avoided stress and power, especially cross force.

In the first design, be used for straight line or almost point-blank the element of guide support, the guidance system that especially prolongs element comprise at least one spring system, this spring system is with at least two spring elements that are arranged in parallel and/or spring lamination.Therefore guarantee guidance system in the stability of other direction and effectively avoided the bending of guidance system.Spring system can hang or be erected to effect according to arranging at this.

Spring system preferably includes at least two parallel single springs and/or spring lamination, and it is preferably made by glass fiber compound material.Single spring and/or the spring lamination of spring system preferably have 200 to 2000mm, preferably from 500 to 1500mm, especially the elastic length in 800 to the 1200mm scopes, 50 to 600mm, preferably from 100 to 500mm, the width of the spring in 150 to 400mm the scope especially, and 1 to 20mm, preferred 5 to 15mm, especially the spring thickness in 8 to the 12mm scopes.This characteristic has been guaranteed the most H.D spring system.

In the second design structure, be used for straight line or almost the element of guide support, the guidance system that especially prolongs element comprise at least one tethered system, belt system or band system point-blank.Again provide thus guidance system in the stability of other direction and effectively avoided the bending of guidance system.Yet this system only can act on hangingly.

And in the third design structure, be used for straight line or almost the element of guide support, the guidance system that especially prolongs element comprise at least one linear guiding system, especially roller support or static pressure guiding device point-blank.The feature of this linear guiding system especially is the high accuracy under the little maintenance cost.

Connection by means of vibrating arm between roller and device preferably includes the cup-and-ball joint that at least one can temporarily be fixed at least, especially can clamp.This cup-and-ball joint guarantees to transmit as far as possible axial force and effectively avoid transmitting disadvantageous cross force.In the situation that calibrating with device again, two construction unit rollers also obviously reduced up to now demanding alignment precision.Cup-and-ball joint fixing, especially clamp and in the vibratory equipment running, occur at least.

Vibratory equipment with vibrating arm, this vibrating arm has at least one cup-and-ball joint this and that can temporarily fix, especially can clamp at least, the identical applying date, applicant's file number is German patent application " DS-Sch ü ttelstange (Kugel) " (the corresponding German application number: open 102010039195.6) of HPB14657DE.Therefore, with the corresponding disclosure of this German patent application theme as this specification.

In addition, vibratory equipment preferably has 1500 to 6000[1000/min] vibration constant in the scope, wherein, vibration constant is calculated by following formula:

Vibration constant=(vibration frequency ²* vibratility adjustment)/filter screen speed

The unit of parameters is as follows: the unit of vibration constant SKZ is [1000/min], and that vibration frequency n is [1/min], and vibratility adjustment s is [mm] and filter screen speed V _{Filter screen}Be [m/min].

And each eccentric driver 100 to 7001/min, especially from 150 to 6001/min vibration frequency and 0.1 to 30mm, have during preferably from 0.1 to 25mm vibratility adjustment preferably 100 to 750Nm, preferably from 125 to 700Nm, 150 to 600Nm maximum drive moment especially.This specific character is important for realizing the described advantage of beginning and utilizing vibratory equipment.

The bearing of vibratory equipment is regulated and for example can be carried out according to the disclosure of the patent documentation EP1624102B1 that has addressed.At this, device can have for aiming at and the system that keeps roller with the common zero point of the interference volume of the relative external action of device.The motor adjusting device that loaded by control device can be set as this system.

Can also be applied in the machine for the manufacture of web of fiber, especially paper web, board web or packing paper web in outstanding mode by vibratory equipment of the present utility model.At this, then obtained aforesaid by advantage of the present utility model.

At this, machine can be designed to have roller in the preferred form of implementation of the first, especially vertical screen(ing) machine of breast roll.At this, make roller, especially breast roll reciprocating motion by vibratory equipment of the present utility model.This vertical screen(ing) machine is for example open by patent documentation DE10116867A1, and the corresponding contents of this patent documentation is therefore also as the theme of this specification.

In the preferred form of implementation of the second, machine can be designed as the multilayer machine with at least one roller, especially breast roll.At this, make at least one roller by vibratory equipment of the present utility model, especially breast roll reciprocating motion.This multilayer machine is for example by patent documentation DE4031038A1, and DE10015828A1 and DE10223398A1 are open, and the corresponding contents of described patent documentation is therefore also as the theme of this specification.

Description of drawings

Other features and advantages of the utility model are by drawing referring to the explanation of accompanying drawing to a plurality of preferred embodiments.

Shown in the drawings:

Fig. 1 is used in the diagrammatic side view that the roller part reciprocating, known vibratory equipment of the machine of making web of fiber is dissectd;

Fig. 2 is used in the roller of the machine of making web of fiber diagrammatic side view reciprocating, that dissect by the part of the vibratory equipment of the preferred form of implementation of the first of the present utility model;

Fig. 3 is used in the roller of the machine of making web of fiber diagrammatic side view reciprocating, that dissect by the part of the vibratory equipment of the preferred form of implementation of the second of the present utility model;

Fig. 4 is used in the roller of the machine of making web of fiber diagrammatic side view reciprocating, that dissect by the part of the vibratory equipment of the third preferred form of implementation of the present utility model; And

Fig. 5 A-Fig. 5 C is used in the roller of the machine of making web of fiber diagrammatic side view reciprocating, that dissect by the part of the guidance system of three kinds of examples of vibratory equipment of the present utility model.

The specific embodiment

Fig. 1 shows the diagrammatic side view that the part that is used in the roller 2 reciprocating known vibratory equipments 1 of making machine web of fiber, that be not shown specifically is dissectd.At this, roller 2 is along its longitudinal axis L reciprocating motion.

Web of fiber can be paper web, board web or packing paper web.

Roller 2 rotatably and vertically, namely be bearing on the roller bearing 3,4 that schematically illustrates along its longitudinal axis L movingly.Roller 2 is connected with vibratory equipment 1 by the shaft coupling 5 of usually removably constructing.Vibratory equipment 1 is used for vibration, also is used for making roller 2 along its longitudinal axis L reciprocating motion, as passing through shown in the double-head arrow A.

Vibratory equipment 1 has device 6, and slide plate for example, support or framework, described device be along the direction of double-head arrow A, and is namely movable along the direction of the longitudinal axis L of roller 2 or be bearing in movably on the device bearing 7,8.

Device 6 is equipped with vibrating arm 9 rigidly at an axial end portion, and this vibrating arm is transitioned into shaft coupling 5 rigidly, so that install the corresponding reciprocating motion that 6 reciprocating motion causes roller 2.

For this reason, at device 6 the first eccentric driver 10 and the second eccentric driver 11 are set.

The first eccentric driver 10 forms by a pair of vibrating body 13,14, but roll axis 12 symmetrical rotaries of described vibrating body opposed roller 2 ground is bearing in the device 6 and for example by the first motor driver driving that does not illustrate.The second eccentric driver 11 forms by a pair of vibrating

body

15,16, but same opposed roller axis 12 symmetrical rotaries of described vibrating body ground is bearing in the interior and described device 6 of device 6 for example by the second motor-driven that does not illustrate.Yet only drive unit with drive motors also can be set, be used for driving two pairs of vibrating

bodies

13,14,15,16.The eccentric position of two

eccentric drivers

10,11 can be regulated relative to each other, so that dancer rools 2 reciprocating strokes.

Now, Fig. 2 shows and is used in the roller of making machine web of fiber, that be not shown specifically diagrammatic side view 2 reciprocating, that dissect by the part of the first form of implementation of vibratory equipment 1 of the present utility model.Roller 2 at this along its longitudinal axis L reciprocating motion.

For shown in the common structure of vibratory equipment 1 with reference to the explanation at the vibratory equipment 1 shown in Fig. 1.

Vibrating arm 9 is divided into two parts now, and the prolongation element 9.2 of base components 9.1 and preferred single-piece wherein, prolongs element 9.2 and keeps by means of keeping system 17.Prolong element 9.2 indirectly, namely be connected with roller 2 by means of the shaft coupling 5 of usually removably constructing.

The supporting system 17 that supporting prolongs element 9.2 is equipped with for straight line or the guidance system 18 of the prolongation element 9.2 of linear guiding supporting almost.

In form of implementation shown in Figure 2, be used for straight line or almost the guidance system 18 of the prolongation element 9.2 of linear guiding supporting comprise at least one tethered system, belt system or band system 18.1, described system act on hangingly prolong on the element 9.2 and have at least two separately rope, belt or be with 18.11,18.12.

Roller 2 and the connection V that installs between 6 comprise at least one that can temporarily fix, that especially can clamp at least cup-and-ball joint 19 now.In current form of implementation, in the both sides of the base components 9.1 of vibrating arm 9, namely can temporarily fix at least at origination side and each one of distolateral setting, especially clamp and comprise the cup-and-ball joint 19 of ball 20 and tumbler bearing 21.The ball 20 of each cup-and-ball joint 19 is arranged on the base components 9.1 of vibrating arm 9 at this, and the tumbler bearing 21 of each cup-and-ball joint 19 arranges on the adjacent device, namely is arranged on device 6 and the prolongation element 9.2.

Now, Fig. 3 shows the roller that is used in the machine of making web of fiber diagrammatic side view 2 reciprocating, that dissect by the part of the vibratory equipment 1 of the preferred form of implementation of the second of the present utility model.At this, roller 2 is along its longitudinal axis L reciprocating motion.

Vibrating arm 9 is divided into three parts now, and the prolongation element 9.2 of two base components 9.1,9.3 and preferred single-piece wherein, prolongs element 9.2 again by means of keeping system 17 supportings.At this, prolong element 9.2 and be arranged between two base components 9.1,9.3.Two base components 9.1,9.3 can be that structure is identical, but two base components also can have different characteristics, such as length, and diameter, material etc.

The keeping system 17 that supporting prolongs element 9.2 is equipped with for straight line or the guidance system 18 of the prolongation element 9.2 of guide support point-blank almost.

In form of implementation shown in Figure 3, be used for straight line or almost the guidance system 18 of the prolongation element 9.2 of linear guiding supporting comprise at least one tethered system, belt system or band system 18.1, described system act on hangingly prolong on the element 9.2 and have at least two separately rope, belt or be with 18.11,18.12.

Roller 2 and the connection V that installs between 6 comprise at least one that can temporarily fix, that especially can clamp at least cup-and-ball joint 19 now.In current form of implementation, in the both sides of each base components 9.1,9.2 of vibrating arm 9, namely at origination side and each cup-and-ball joint 19 that can temporarily fix at least, especially clamp and comprise ball 20 and tumbler bearing 21 of distolateral setting.The ball 20 of each cup-and-ball joint 19 is arranged on the base components 9.1 of vibrating arm 9 at this, 9.3 on, and the tumbler bearing 21 of each cup-and-ball joint 19 is arranged on the adjacent device, namely is arranged on device 6 and prolongs on the element 9.2 or be arranged on to prolong on element 9.2 and the shaft coupling 5.

Prolong element 9.2 and can as shown in other two views, have different length l such as example ground.

Now, Fig. 4 shows the roller that is used in the machine of making web of fiber diagrammatic side view 2 reciprocating, that dissect by the part of the vibratory equipment 1 of the preferred form of implementation of the second of the present utility model.At this, roller 2 is along its longitudinal axis L reciprocating motion.

In form of implementation shown in Figure 4, be used for straight line or almost the guidance system 18 of the prolongation element 9.2 of linear guiding supporting comprise at least one spring system 18.2, this spring system 18.2 is with two spring elements that are arranged in parallel 18.21,18.22.Described spring system 18.2 is erected to act on the prolongation element 9.2 and two spring elements 18.21,18.22 are for example made by glass fiber compound material 22.

The single spring 18.21 of each of spring system 18.2,18.22 have 200 to 2000mm, preferably from 500 to 1500mm, especially the elastic length L in 800 to the 1200mm scopes, 50 to 600mm, preferably from 100 to 500mm, especially the width of the spring in 150 to 400mm the scope B.18.2, and 1 to 20mm, preferred 5 to 15mm, and especially the spring thickness in 8 to the 12mm scopes D.18.2.

Roller 2 and the connection V that installs between 6 comprise at least one that can temporarily fix, that especially can clamp at least cup-and-ball joint 19 now.In current form of implementation, in the both sides of each base components 9.1,9.2 of vibrating arm 9, namely at origination side and each can temporarily fix at least, especially can clamp and cup-and-ball joint 19 that comprise ball 20 and tumbler bearing 21 of distolateral setting.The ball 20 of each cup-and-ball joint 19 is arranged on the base components 9.1 of vibrating arm 9 at this, 9.3 on, and the tumbler bearing 21 of each cup-and-ball joint 19 arranges on the adjacent device, namely is arranged on device 6 and prolongs on the element 9.2 or be arranged on to prolong on element 9.2 and the shaft coupling 5.

Fig. 5 A-Fig. 5 C schematically illustrated the roller that is used in the machine of making web of fiber reciprocating, by the partial sectional view of the guidance system 18 of three kinds of examples of vibratory equipment 1 of the present utility model.

Each guidance system 18 is erected to act on the prolongation element 9.2 that only illustrates in the structure of spring system 18.2.

In the form of implementation on spring system 18.2 left sides, be provided with two spring elements that are arranged in parallel 18.21,18.22, and in the form of implementation on spring system 18.2 the right, be provided with three spring elements that are arranged in parallel 18.21,18.22,18.23, with preferred identical spacing.And be provided with two spring laminations 18.24,18.25 that are arranged in parallel in the form of implementation in the middle of spring system 18.2.

About shown in other characteristic of spring system 18.2, such as spring length, width of the spring and spring thickness are referring to form of implementation shown in Figure 4.

Shown in Fig. 2 to Fig. 4 and Fig. 5 A to Fig. 5 C, be used for the element of straight line or almost linear guiding supporting, yet the guidance system 18 that especially prolongs element can comprise also that at least one is not shown specifically well known to a person skilled in the art linear guiding system, especially roller bearing or static pressure guiding device.

In addition, at least shown in local in Fig. 2 to Fig. 4 and Fig. 5 A to Fig. 5 C respectively, have 1500 to 6000[1000/min by vibratory equipment 1 of the present utility model] vibration constant SKZ in the scope, wherein, vibration constant SKZ calculates (referring to Fig. 2) by following formula:

SKZ=((vibration frequency n) ²* (vibratility adjustment s))/(filter screen speed V _{Filter screen})

The unit of parameters is as follows: vibration constant SKZ is [1000/min], and vibration frequency n is [1/min], and vibratility adjustment s is [mm] and filter screen speed V _{Filter screen}Be [m/min].

Being 100 to 7001/min at vibration frequency n, especially is 150 to 6001/min, and vibratility adjustment s is 0.1 to 30mm, be preferably in 0.1 to 25mm the situation, each eccentric driver has preferably 100 to 750Nm, preferably from 125 to 700Nm, and 150 to 600Nm maximum drive moment M especially _Max

Shown in local at least respectively in Fig. 2 to Fig. 4 and Fig. 5 A to Fig. 5 C, can also be applied in for the manufacture of web of fiber in outstanding mode by vibratory equipment 1 of the present utility model, especially in the machine of paper web, board web or packing paper web.

At this, machine can be designed as have roller, vertical screen(ing) machine of breast roll especially.At this, make roller, especially breast roll reciprocating motion by vibratory equipment of the present utility model.Scheme as an alternative, machine can be designed as the multilayer machine with at least one roller, especially breast roll.At this, make at least one roller by vibratory equipment of the present utility model, especially breast roll reciprocating motion.

Generally speaking, created a kind of vibratory equipment that starts described type by the utility model, this vibratory equipment has reduced the shortcoming of described prior art to a great extent, preferably even has fully avoided shortcoming.Especially roller to be moved respectively and variable spacing between the affiliated movable device have been created.At this, avoided as much as possible aligning expense and this project organization of extra load and raising simple and reliable.

List of numerals

1 vibratory equipment

2 rollers

3 roller bearings

4 roller bearings

5 shaft couplings

6 devices

7 device bearings

8 device bearings

9 vibrating arms

9.1 base components

9.2 prolongation element

9.3 base components

10 first eccentric drivers

11 second eccentric drivers

12 roll axis

13 vibrating bodies

14 vibrating bodies

15 vibrating bodies

16 vibrating bodies

17 keeping systems

18 guidance systems

18.1 tethered system, belt system or band system

18.11 rope, belt or band

18.12 rope, belt or band

18.2 spring system

18.21 spring element

18.22 spring element

18.23 spring element

18.24 spring lamination

18.25 spring lamination

19 cup-and-ball joints

20 balls

21 tumbler bearings

21 bolts

22 glass fiber compound materials

The A double-head arrow

B.18.2 width of the spring

D.18.2 spring thickness

The L longitudinal axis; Axle

L.18.2 spring length

L length

M _MaxMaximum driving moment

The n vibration frequency

The S vibratility adjustment

The SKZ vibration constant

V connects

V _{Filter screen}Filter screen speed

Claims

1. one kind makes roller (2) along the reciprocating vibratory equipment of its axle (L) (1), described roller (2) is for the manufacture of the machine of web of fiber, described vibratory equipment has the first eccentric driver (10) of being connected with roller (2) along roll shaft (L) direction and second eccentric driver (11) of being connected roll axial direction (L) and being connected with roller (2), wherein, two eccentric drivers (10,11) by at least one motor-driven, wherein, two eccentric drivers (10,11) be bearing in same movable or movably device (6) upper or in, and wherein, described roller (2) and device (6) interconnect indirectly or directly by means of vibrating arm (9), it is characterized in that, described vibrating arm (9) is divided at least two parts.

2. vibratory equipment as claimed in claim 1 (1) is characterized in that, described web of fiber is paper web, board web or packing paper web.

3. vibratory equipment as claimed in claim 1 (1) is characterized in that, described two parts are at least one base components (9.1,9.1,9.3) and at least one prolongation element (9.2), wherein, at least one element supports by means of at least one keeping system (17).

4. vibratory equipment as claimed in claim 3 (1) is characterized in that, described at least one prolongation element (9.2) supports by means of at least one keeping system (17).

5. vibratory equipment as claimed in claim 1 (1) is characterized in that, described two eccentric drivers (10,11) are by two motor-driven.

6. vibratory equipment as claimed in claim 1 (1) is characterized in that, described vibrating arm (9) is divided into two parts (9.1,9.2), wherein, prolongs element (9.2) and directly is connected with device (6) or with roller (2).

7. vibratory equipment as claimed in claim 1 (1), it is characterized in that, described vibrating arm (9) is divided into three parts (9.1,9.2,9.3), wherein, prolonging element (9.2) is arranged between two base components (9.1,9.3) or base components is arranged in two and prolongs between the elements.

8. such as each described vibratory equipment (1) in the claim 1,6,7, it is characterized in that, the keeping system (17) that supports at least one element is equipped with for straight line or the guidance system of the element that supports of guiding point-blank almost.

9. vibratory equipment as claimed in claim 8 (1), it is characterized in that, be used for straight line or almost point-blank the guidance system of the element of guide support (18) comprise at least one spring system (18.2), this spring system is with at least two spring elements that are arranged in parallel (18.21,18.22; 18.21,18.22,18.23) and/or spring lamination (18.24,18.25).

10. vibratory equipment as claimed in claim 9 (1) is characterized in that, described spring system (18.2) comprises at least two parallel single springs (18.21,18.22; 18.21,18.22,18.23) and/or spring lamination (18.24,18.25).

11. vibratory equipment as claimed in claim 10 (1) is characterized in that, described single spring (18.21,18.22; 18.21,18.22,18.23) and/or spring lamination (18.24,18.25) made by glass fiber compound material (22).

12. vibratory equipment as claimed in claim 10 (1), it is characterized in that, the single spring (18.21 of spring system (18.2), 18.22) and/or the spring lamination have elastic length (L.18.2) in 200 to 2000mm scopes, width of the spring in 50 to 600mm scope (B.18.2), and the spring thickness (D.18.2) in 1 to 20mm scope.

13. vibratory equipment as claimed in claim 12 (1) is characterized in that, the single spring (18.21,18.22) of spring system (18.2) and/or spring lamination have the elastic length (L.18.2) in 500 to 1500mm scopes.

14. vibratory equipment as claimed in claim 13 (1) is characterized in that, the single spring (18.21,18.22) of spring system (18.2) and/or spring lamination have the elastic length (L.18.2) that arrives in the 1200mm scope 800.

15. vibratory equipment as claimed in claim 12 (1) is characterized in that, the single spring (18.21,18.22) of spring system (18.2) and/or spring lamination have the width of the spring (B.18.2) in 100 to 500mm scope.

16. vibratory equipment as claimed in claim 15 (1) is characterized in that, the single spring (18.21,18.22) of spring system (18.2) and/or spring lamination have the width of the spring (B.18.2) in 150 to 400mm scope.

17. vibratory equipment as claimed in claim 12 (1) is characterized in that, the single spring (18.21,18.22) of spring system (18.2) and/or spring lamination have the spring thickness (D.18.2) in 8 to 12mm scope.

18. vibratory equipment as claimed in claim 8 (1) is characterized in that, be used for straight line or almost point-blank the guidance system of the element of guide support (18) comprise at least one tethered system or band system (18.1).

19. vibratory equipment as claimed in claim 8 (1) is characterized in that, be used for straight line or almost point-blank the guidance system of the element of guide support comprise at least one linear guiding system.

20. vibratory equipment as claimed in claim 19 (1) is characterized in that, described linear guiding system is a roller support or static pressure guiding device.

21. such as each described vibratory equipment (1) in the claim 1,6,7, it is characterized in that, the connection (V) by means of vibrating arm (9) between roller (2) and device (6) comprises the cup-and-ball joint (19) that at least one can temporarily be fixed at least.

22. such as each described vibratory equipment (1) in the claim 1,6,7, it is characterized in that, described vibratory equipment has 1,500,000 to 6,000,000min ^-1Vibration constant in the scope, wherein, described vibration constant is calculated by following formula:

Vibration constant SKZ=((vibration frequency n) ²* (vibratility adjustment s))/(filter screen speed V _{Filter screen}).

23. such as each described vibratory equipment (1) in the claim 1,6,7, it is characterized in that, be 100 to 700min in vibration frequency (n) ^-1And when vibratility adjustment (s) was 0.1 to 30mm, each eccentric driver (10,11) had the maximum drive moment (M in 100 to 750Nm scope _Max).

24. vibratory equipment as claimed in claim 23 (1) is characterized in that, each eccentric driver (10,11) has the maximum drive moment (M in 150 to 600Nm scope _Max).

25. the machine for the manufacture of web of fiber is characterized in that, described machine comprises that at least one is by the described vibratory equipment of one of claim 1 to 24 (1).

26. machine as claimed in claim 25 is characterized in that, described Machinery Design is the vertical screen(ing) machine with roller (2), and makes roller (2) reciprocating motion by the described vibratory equipment (1) of one of claim 1 to 24.

27. machine as claimed in claim 25 is characterized in that, described Machinery Design is the multilayer machine with at least one roller (2), and makes at least one roller (2) reciprocating motion by the described vibratory equipment (1) of one of claim 1 to 24.