CN105555437A - Apparatus for continuous casting and method to assemble said apparatus for continuous casting - Google Patents

Abstract

Apparatus for continuous casting comprising a support frame (26) and a plurality of plates (28a, 28b, 29a, 29b) coupled to each other to define a tubular element (27) provided with a casting cavity (30). Positioning members (50) are provided to connect the plates (28a, 28b, 29a, 29b) to the support frame (26). The positioning members (50) comprise attachment devices (52) suitable to connect at least a first plate (28a) to a wall of the support frame (26), and thrust devices (57) configured to compress the other plates (28b, 29a, 29b) with respect to each other, in correspondence with respective connection edges (35) and against the at least one first plate (28a).

Description

For the device cast continuously and the method for assembling for the device cast continuously

Technical field

The present invention pays close attention to a kind of device for casting continuously, and this device allows cast metallic products, such as bloom, the slab with square-section, billet and have the bar (being also known as " shaped blank ") in two " T " cross section.

Especially, the device for casting continuously according to the present invention is configured to allow mounting plate type crystallizer.

The present invention also pays close attention to a kind of method of assembling device for casting continuously.

Background technology

The known device for casting continuously comprises supporting construction, is after this designated as die main body, is arranged to support crystallizer.

Die main body depends on that its structure constructs, and can allow to install tubular type or plate type crystallizer.

Tube type mold allows to obtain the metal product with very simple and uniform cross-section, such as, have bloom or the billet of circle or square sectional, or has bloom or billet that more complicated cross section still has arrowhead.

Known plate type crystallizer is commonly used to cast billet, bloom, slab or shaped blank.

Described plate type crystallizer comprises four plates be connected to each other, in order to the casting chamber being defined for liquid metals during use towards their surface of inner side and passing through.

The plate of crystallizer relies on the framework be arranged in die main body reciprocally to connect.Framework is provided with four frame elements, and one of them plate is associated with each frame element.

The transverse edge that four frame elements correspond to them reciprocally connects, thus at they enclose inside plates.These plates are connected each other and are acted on by being interconnected between frame element and keep compact each other corresponding to the corresponding edge that connects.

Especially, setting, frame element is connected to each other by interface unit, and interface unit can comprise screwed hole or non-threaded holes, and screw, post bolt are screwed into this some holes, and the pin centered or holding pin insert this some holes and/or flexible member associates this some holes.

The plate with transverse edge is shaped to the connection limiting corresponding same shape together.

Card edge conntecter part is not arranged between the plates because they can increase plate thickness or by overvulcanization structure, cause the appearance of inner tensions due to thermal stress.On the other hand, in the number of components of built-up time and use, the connection between plate and framework is complicated and uneconomical especially.Only illustrate, some examples connected between plate and support frame are illustrated in document JP-A-S61, and 137651, US-A-4,002,317 and US-A-6,041, in 848.These known schemes are not only complicated and uneconomical especially in built-up time, and they can not ensure the various plate in correct and accurate location mutually, to determine the final mass of cast article.

The port introducing and discharge cooling liquid (being generally water) can also be associated with framework.Cooling liquid is provided to continue cooling to keep the plate of crystallizer.

Summary of the invention

An object of the present invention is to manufacture the device for casting continuously, this device allows in die main body, to assemble crystallizer simply and rapidly.

Another object of the present invention is the complexity of the connection reduced between plate type crystallizer plate.

The present invention also aims to manufacture device for casting continuously, providing this device with the quantity being interconnected required parts between the plate reducing plate type crystallizer.

The present invention also aims to optimize simply and the fast method of assembling for the device that casts continuously.

Applicant designs, test and implement the present invention to overcome the defect of this area of statement and to obtain these and other objects and advantage.

Set forth the present invention and feature thereof in the independent claim, subclaims describe other characteristic of the present invention or the modification to central inventive viewpoint simultaneously.

According to above-mentioned purpose, comprise for the device cast continuously: support frame; And multiple plate each other of being attached to is to limit tube element or crystallizer, it is provided with casting chamber, and during use, deposite metal is cast and by this casting chamber.Align member is arranged to plate to locate relative to support frame.Align member comprises attached peripheral device or thrust devices often kind of situation.

According to a feature of the present invention, only the first plate of these plates relies on corresponding attached peripheral device to be attached to the wall of support frame.

According to another characteristic of the invention, thrust devices is associated with other plate, and is configured to promote these other plates towards support frame inside and correspond to corresponding connection edge and relative to each other compressed by these other plates against at least one first plate.

No longer need in like fashion between the parts of support frame, to provide align member as prior art provides: it is enough to use corresponding attached peripheral device that the first plate is attached to framework, and utilize thrust devices subsequently, other plate relative to each other and against the first plate is compressed.

Significantly reduce the quantity of attachment component relative to prior art, in production cost and in built-up time, provide advantage.

First plate constitutes the frame of reference for locating other plate in practice.The compression applied by thrust devices makes plate relative to each other compact, defines casting crystallizer.The indirect connection function of thrust devices allows other plate being different from first plate to adapt to occur possible distortion/expansion due to thermal stress.Can prevent the appearance of inner tensions in like fashion, the appearance of inner tensions can make crystallizer bulk deformation and reduce its operation life-span.

A form according to an embodiment of the invention, thrust devices comprises thruster element, and it is installed on the support frame and is configured to promote to be different from towards lower portion other plate of first plate.Thruster element allows the mutual pressure between adjustment plate in like fashion.

According to another form of embodiment, thrust devices comprises: elastomer block, and it is attached to the outer surface of the plate of the wall not being constrained to support frame; And thruster element, it is installed on the support frame, and is configured to elasticity of compression block.

By adjustment thruster element to the effect of elastomer block, plate can be adjusted and apply compression between which, meanwhile, ensure possible the laying of the plate caused due to vibration, distortion or the thermal expansion that causes.

The present invention also pays close attention to the method for assembling above-mentioned casting device.

Accompanying drawing explanation

With reference to accompanying drawing, provide Nonlimiting examples, by the following description of some forms to embodiment, these characteristics of the present invention and other characteristic will become obvious, in the accompanying drawings:

Fig. 1 is the schematic cross-section according to the device for casting continuously of the present invention;

Fig. 2 is the sectional view from II to II in Fig. 1;

Fig. 3 is the sectional view from III to III in Fig. 1;

Fig. 4 shows the amplification detail view of Fig. 3;

Fig. 5 and Fig. 6 shows the amplification detail view of Fig. 3.

In order to be beneficial to understanding, use same reference numerals to indicate identical common elements in the accompanying drawings.It should be understood that the element of a form embodiment and characteristic can be incorporated to other form embodiment and easily without the need to further explanation.

Detailed description of the invention

With reference to figure 1, indicated by Reference numeral 10 for its entirety of device cast continuously, comprise supporting construction or die main body 11, plate mold 12 is associated with supporting construction or die main body 11.

Mould 12 is axis Z longitudinal design along the longitudinal: if device 10 is arranged in the continuous casting machine of vertical type, mould 12 can have linear design, if or device 10 is arranged in bending continuous casting machine, it can have the design of slight curvature.

Mould 12 comprises support frame 26 and the tube element be arranged in support frame 26 or crystallizer 27.

Support frame 26 also can have tubular structure as Figure 1-3, or alternatively, it can be provided with multiple frame element be suitably connected to each other to allow crystallizer 27 to be inserted therein portion.Such as, frame element can comprise and such as connect multiple plates, blade or sheet metal each other by firm welding.

Hollow space 51 is limited between support frame 26 and crystallizer 27, and it considers the thermal expansion that crystallizer 27 may stand during use.

Crystallizer 27 comprises multiple plate 28a, 28b, 29a and 29b of being connected to each other in mode described below, to be defined for the through casting chamber 30 that deposite metal is passed through.

Through chamber 30 has the cross sectional shape roughly the same with the product be cast, and under this example, two " T " is shaped to acquisition product, such as shaped blank.

Each plate 28a, 28b, 29a and 29b are provided with multiple passage channel 31, and passage channel 31 is for extending through the cooling water of the whole length of plate 28a, 28b, 29a, 29b.

As Figure 1-3, passage channel 31 can such as use punch operation to be manufactured on completely in the thickness of each plate 28a, 28b, 29a, 29b.Other form (in the accompanying drawings not shown) of embodiment in conjunction with the form of embodiment described herein, can provide, and passage channel 31 is limited by longitudinal fluting, and longitudinal fluting is opened toward the outer side and closed by closing element subsequently.

Each passage channel 31 has inlet end portion 32a and outlet end 32b, and they are positioned to rely on transverse direction to be manufactured on each plate 28a, 28b, 29a and are communicated with 33b fluid with the interface channel 33a in the thickness of 29b.

Inlet end portion 32a is closed by the closedown flange 34 be attached in die main body 11 at their end sections.

On the other hand, outlet end 32b is closed by the upper flange 24 being also attached to die main body 11.

Each plate 28a, 28b, 29a and 29b are disposed with and are connected edge 35 (Fig. 3) accordingly, connect the connection that edge 35 is suitably shaped to the mutual same shape between limiting plate 28a, 28b, 29a and 29b.

One or more connecting elements is attached to support frame 26 in a known manner, and be arranged to supply cooling liquid discharge cooling liquid to passage channel 31 or from passage channel 31.

In the form of the embodiment shown in Fig. 1 and Fig. 2, connecting elements comprises Inlet sleeve 37a and outlet bosses 37b, and they are fluidly connected to inlet end portion 32a and the outlet end 32b of passage channel 31 respectively.

Some forms of embodiment, provide, and Inlet sleeve 37a and/or outlet bosses 37b serves one or more passage channel 31.

Align member 50 is arranged to locate crystallizer 27 relative to support frame 26.

Especially, align member 50 can be suitable for the mutual location of the outer wall determining plate 28a, 28b, 29a, 29b and support frame 26.

In the form of the embodiment illustrated at Fig. 1-6, align member 50 comprises attached peripheral device 52, and attached peripheral device 52 is arranged to be attached the wall of the first plate 28a to support frame 26 of crystallizer 27.

According to a form of embodiment, attached peripheral device 52 is configured to maintain the first plate 28a during use and is in fixing and mutual preposition relative to support frame 26.In like fashion, the first plate 28a is defined for the reference of all other plate 28b, 29a, 29b and accurate navigation system.

Some forms of the embodiment of the present invention provide, and the first plate 28a is the plate arranged towards the hogback of the curve of mould 12.

With reference to figure 3, provide, attached peripheral device 52 comprises multiple screws 53 that can be associated with the first plate 28a.Especially, screw 53 can be inserted in the through hole 54 manufactured in the thickness of support frame 26.

On the outer surface that the screw 53 being screwed into bolt apertures 55 is manufactured on the first plate 28a and transverse to longitudinal axis Z.

In the form of the embodiment of Fig. 3, between the first plate 28a and the wall of support frame 26, there is the distance piece 56 with isolation features.

Some forms of embodiments of the invention provide, the wall of the support frame 26 attached by the first plate 28a is provided with the reference element of such as outstanding adjacent part, which defines benchmark for the location correcting the first plate 28a relative to support frame 26, therefore also for the location of other plate 28b, 29a, 29b.

Thrust devices 57 (Fig. 3) is arranged to the mutual location of the second plate 28b (opposed with the first plate 28a), the 3rd plate 29a and the 4th plate 29b (opposed with the 3rd plate 29a), 3rd plate 29a is positioned at the first plate 28a and the second plate 28b two first and is connected in edge 35, and the 4th plate 29b is positioned at the 3rd plate 29a and the 4th plate 29b two second and is connected in edge 35.

Especially, thrust devices 57 is configured to compress the second plate 28b, the 3rd plate 29a and the 4th plate 29b corresponding to their corresponding connection edge against the first plate 28a.The compression applied is combined towards the impetus of support frame 26 inside with plate 28b, 29a, 29b.

According to an embodiment of the invention may form, thrust devices 57 can be selected from following group: spiro connecting element, screw, nut, pin, actuator, worm mechanism, rackwork, motor or they may combine.

One of embodiment may form can provide, such as thrust devices 57 to be arranged on support frame 26 and to have terminal contact end portion, and terminal contact end portion optionally can move towards support frame 26 inside and contact plate 28b, 29a, 29b during use.One of embodiment may form can provide, and such as thrust devices 57 comprises the one or more screws in the through hole being arranged on and manufacturing in the thickness of the wall of support frame 26.

Screw is manufactured to towards support frame 26 inside outstanding, and by the entity of adjustment screw, can adjust the thrust be applied on plate 28b, 29a, 29b.

May form according to one of embodiment, thrust devices 57 to be arranged on support frame 26 and to be configured to towards support frame 26 inner slurcam 28b, 29a, 29b, to be compressed against the first plate 28a by these plates.

Some forms of embodiment, in shown in Fig. 4 one form, provide, thrust devices 57 comprises multiple elastomer block 58, elastomer block 58 is attached to the outer surface of the second plate 28b, the 3rd plate 29a and the 4th plate 29b, be attached to the outer surface of the 4th plate 29b in this case, thruster element 64 works during use on the 4th plate 29b.The outer surface that thruster element 64 is arranged on support frame 26 is configured to elasticity of compression block 58.

Elastomer block 58 comprises the accommodation main body 59 with roughly cylindrical shape, holds main body 59 and is arranged to hold multiple flexible member 60 therein.

In the form of the embodiment shown in Fig. 4, flexible member 60 comprises cup-shaped spring, although can comprise coil-type compression springs, cone dish spring or flat spring etc. at other form elastic element 60 of embodiment.

Hold main body 59 and comprise container 61, container 61 is provided with the aperture 65 for introducing flexible member 60.

The aperture 65 of container 61 is partly closed by lid 62, and this maintains the flexible member 60 being compressed in container 61 inside, and generates its first prestrain.

Container 61 is incorporated in by mechanical interference in the corresponding blind hole 63 manufactured in the thickness of the second plate 28b, the 3rd plate 29a and the 4th plate 29b.

Being interconnected between container 61 and lid 62 can be bolt connection type, or in other form of embodiment, by connection or the interference of same shape, such as, provides the occlusion attachment teeth of non-release type.

Lid 62 arranges porose 67, and this allows thruster element 64 to cooperate with flexible member 60.Between flexible member 60 and lid 62, the platelet 66 that passing hole 67 gives prominence to toward the outer side is inserted with in the inside of container 61.

Suitable abutment 68 is arranged in platelet 66 and is arranged in lid 62, leaves from container 61 to prevent platelet 66.

Thruster element 64 comprises thrust screw 69, and thrust screw 69 is screwed into the bolt apertures 70 running through and manufacture in the thickness of support frame 26.

Especially, the position manufactured by bolt apertures 70 is to the blind hole 63 be applied to set by storage elastomer block 58.

The thrust screw 69 of each second attached peripheral device 57 presses platelet 66, thus is compressed in the flexible member 60 holding main body 59 inside.

The compression being associated with the flexible member 60 of the second plate 28b, the 3rd plate 29a and the 4th plate 29b is respectively passed to them.

Therefore the population effect of compression elastic element 60 is converted into the second plate 28b, the 3rd plate 29a and the 4th plate 29b to the pinch effect of the first plate 28a, and the first plate 28a is the unique plate being directly attached to support frame 26.

What assembling crystallizer 12 and support frame 26 comprised first is operating as that only the first plate 28a to be connected in support frame 26 inner, arranges that the first plate 28a contacts the wall of support frame 26.If necessary, distance piece 56 can be arranged to as mentioned above to get involved between the first plate 28a and support frame 26.

First plate 28a is attached in support frame 26 by attached peripheral device 52, and attached peripheral device 52 applies the maintenance effect of the first plate 28a against the wall of support frame 26.

The second plate 28b, the 3rd plate 29a and the 4th plate 29b are introduced in the inside that subsequent operation is arranged in support frame 26, arrange that they make their connection edge 35 to contact with each other the connection edge 35 of the first plate 28a.

Some forms of embodiment are arranged, and the operation that the second plate 28b, the 3rd plate 29a and the 4th plate 29b are introduced into support frame 26 are occurred simultaneously.

Equipment special can be set in this case to make before insertion, be interconnected the second plate 28b, the 3rd plate 29a and the 4th plate 29b, thus their are arranged their positions that will present during use.

This equipment and the second plate 28b, the 3rd plate 29a and the 4th plate 29b mono-are used from and allow to insert the second plate 28b, the 3rd plate 29a and the 4th plate 29b in the inside of support frame 26 simultaneously.

Other form of embodiment can provide, and the insertion of the second plate 28b, the 3rd plate 29a and the 4th plate 29b occurs in order.

Once the second plate 28b, the 3rd plate 29a and the 4th plate 29b insert in support frame 26, thrust devices 57 is activated.The activation of thrust devices 57 allows to compress the second plate 28b, the 3rd plate 29a and the 4th plate 29b against the first plate 28a.

In fact, when the first plate 28a is kept against support frame 26 by attached peripheral device 52, the second plate 28b, the 3rd plate 29a and the 4th plate 29b are advanced towards the inside of support frame 26, assembling condition is determined in the mutual cooperation connected between edge 35.

In fact, direct connection is not provided between plate 28b, 29a, 29b and support frame 26, but only mutually compress, this allows to give the larger adaptive capacity of crystallizer 27 to its stress stood during use, and prevents the appearance of all plate 28a, 28b, 29a, 29b inner tensions.

Other form of embodiments of the invention, such as shown in Fig. 1-3, Fig. 5 and Fig. 6, provide, align member 50 comprises: the first positioning equipment 71a and 71b (Fig. 1-Fig. 6), and they are arranged to the accurate location of the first plate 28a and the second plate 28b; And second positioning equipment 72, it is arranged to the 3rd plate 29a and the 4th plate 29b (also namely along the longitudinal axis Z) and in a lateral direction relative to the accurate location of support frame 26 in the axial direction.

First positioning equipment 71a, 71b and the second positioning equipment 72 comprise multiple pin 73 (Fig. 5 and Fig. 6), and pin 73 is suitable for, according to the axis be positioned to transverse to longitudinal axis Z, being inserted in the respective through hole 74 manufactured in the thickness of support frame 26.

The position of pin 73 in through hole 74 is maintained by connecting elements 75, and in this case, connecting elements 75 comprises screw 76, and screw 76 is inserted in the through hole 77 manufactured in the head 78 of pin 73.

Each first positioning equipment 71a, 71b (Fig. 5 and Fig. 6) comprises the first casing base 79,80, first casing base 79,80 respectively and make blind hole in the thickness of the first plate 28a and the second plate 28b.

First casing base 79 of the first positioning equipment 71a (Fig. 5) be configured to relative to support frame 26 on the direction being parallel to longitudinal axis Z and also in a lateral direction (such as perpendicular to longitudinal axis Z) retrain the position of the first plate 28a and the second plate 28b.

On the other hand, first casing base 80 of the first positioning equipment 71b (Fig. 6) is configured to restraining plate 28a, 28b in a lateral direction (in this concrete condition, perpendicular to longitudinal axis Z) position, and can to move freely on the direction being parallel to longitudinal axis Z.

Each second positioning equipment 72 comprises the second casing base 81, second casing base 81 and make blind hole in the thickness of the 3rd plate 29a and the 4th plate 29b (Fig. 2 and 3).

Finally, second casing base 81 of the second positioning equipment 72 (Fig. 2 and 3) is configured to position on the direction being parallel to longitudinal axis Z of restraining plate 29a, 29b and can moves freely to allow the amendment of any necessity in a lateral direction, in this concrete condition, horizontal direction is perpendicular to longitudinal axis Z, and if if the thickness of plate 28a, 28b, 29a, 29b regeneration distance piece 56 is modified, then allow the amendment of any necessity.

In fact, due to the wearing and tearing of plate 28a, 28b, 29a, 29b, the surface (being inner during use) of the latter is stood mechanical work thus causes removing materials, makes plate 28a, 28b, 29a, 29b change their gross thickness.

First plate 28a changes its gross thickness, and is not changed relative to the location of machine to maintain Internal periphery, is inserted by the distance piece 56 relative to support frame 26 with calibrated thickness.The movement that the theoretical center that these operations produce plate 28b, 29a, 29b is very small.

In a word, the location of crystallizer 27 in support frame 26 is given by the abutment attached by the first plate 28a.Rigidity position constraint makes to assemble crystallizer 27 in support frame 26.

In this respect, first casing base 80 and the size of the second casing base 81 on the direction allowing plate 28a, 28b, 29a, 29b movement are all greater than the diameter dimension of pin 73, and they have interference fits connection on the direction preventing movement simultaneously, matched in clearance connects or interference fit connects.

Plate 28a, 28b, 29a, 29b consider relative to the permission that moves freely of pin 73 the possible thermal expansion that the latter stands during use, thus prevent the internal stress that crystallizer 27 can be made to be out of shape from occurring, otherwise the cast article having and do not want geometry and microstructure characteristic can be generated, and reduce the service life of crystallizer 27 itself.

According to the possible form of embodiment, in the accompanying drawings not shown, in the first casing base 79,80 and/or in the second casing base 81, the lining lining utilizing abrasion-resistant material (also namely, hard than the material of manufactured Board 28a, 28b, 29a, 29b material) to make can be inserted.

Lining can insert the first casing base 79,80 and/or second casing base 81 by interference fit, and can have the seat of circle or oblong shape successively, and the end sections of above-mentioned pin 73 is arranged in this seat.The seat of lining can be configured to allow plate 28a, 28b, 29a, 29b in vertical, level or in a lateral direction relative to the movement of longitudinal axis Z.

In like fashion, because may being out of shape of standing of 28a, 28b, 29a, 29b or stress that thermally expandable sheet causes act directly on lining, this prevents casing base 79,80 and 81 from wearing and tearing and possible plastic deformation.

The program guarantees location correct relative to support frame 26 in the whole time of crystallizer 27.

It is clear that can modify to the part of previously described continuous casting apparatus and/or add, this exceed the field of the invention and scope.It is also clear that; although describe the present invention with reference to some object lessons; but those skilled in the art should be able to realize the continuous casting apparatus of other equivalents many, there is the characteristic stated in claim, therefore all fall in the protection domain limited thus.

Claims (15)

1. the device for casting continuously, comprise: support frame (26) and multiple plate (28a, 28b, 29a, 29b), multiple plate is attached to each other to limit the tube element (27) being provided with casting chamber (30); Align member (50), it is arranged to described plate (28a, 28b, 29a, 29b) to locate relative to described support frame (26); Attached peripheral device or thrust devices is comprised in described align member (50) each situation, it is characterized in that, in described plate, only first plate (28a) relies on corresponding attached peripheral device (52) to be attached to the wall of described support frame (26), and thrust devices (57) is associated with other plate (28b, 29a, 29b) to promote other plate described towards described support frame (26) inside, and corresponding to connecting edge (35) accordingly and against described first plate (28a), other plate described relative to each other being compressed.

2. device according to claim 1, is characterized in that, described thrust devices (57) is arranged on described support frame (26).

3. device according to claim 2, is characterized in that, described thrust devices (57) comprising: elastomer block (58), and it is attached to the outer surface of described plate (28b, 29a, 29b); With thruster element (64), it is attached to described support frame (26) and is configured to compress described elastomer block (58).

4. device according to claim 3, it is characterized in that, each described elastomer block (58) comprises holds main body (59), and described accommodation main body (59) is attached to described plate (28b, 29a, 29b) and is configured to hold multiple flexible member (60).

5. device according to claim 4, is characterized in that, described accommodation main body (59) is accommodated in the hole (63) in the thickness being manufactured on described plate (28b, 29a, 29b).

6. the device according to claim 4 or 5, it is characterized in that, described accommodation main body (59) comprises container (61), described container (61) is provided with the aperture (65) for introducing described flexible member (60), and described aperture (65) are closed by lid (62) to hold described flexible member (60).

7. according to described device arbitrary in claim 2 to 6, it is characterized in that, each described thruster element (64) comprises propeller screw (69) and bolt apertures (70), described bolt apertures (70) is manufactured in described support frame (26), and described propeller screw (69) is screwed into described bolt apertures (70).

8. according to device in any one of the preceding claims wherein, it is characterized in that, described attached peripheral device (52) comprises multiple screw (53), and described screw (53) can be associated with described support frame (26) and be associated with first plate (28a).

9. device according to claim 8, it is characterized in that, described support frame (26) is provided with through hole (54), described screw (53) inserts described through hole (54), and the first plate (28a) is provided with bolt apertures (55) described at least one, described screw (53) is screwed into described bolt apertures (55).

10. according to device in any one of the preceding claims wherein, it is characterized in that, described align member (50) comprises positioning equipment (71,72), and described positioning equipment (71,72) is arranged to relative to described support frame (26) axially and locate described plate (28a, 28b, 29a, 29b) in a lateral direction.

11. 1 kinds of methods of assembling for the device cast continuously, comprise: rely on align member (50) by multiple plate (28a, 28b, 29a, 29b) be positioned to support frame (26), to limit the tube element (27) being provided with casting chamber (30), the feature of described method is, it comprises the wall relying on attached peripheral device (52) only first plate (28a) of described plate to be attached to described support frame (26), and second operates, described second operation is by other plate (28b, 29a, 29b) relative to each other connect and be attached to described first plate (28a), by the effect of thrust devices (57) by described other plate (28b, 29a, 29b) promote towards described support frame (26) inside and correspond to connect other plate (28b described in edge (35) compression accordingly, 29a, 29b).

12. methods according to claim 11, is characterized in that, the described attachment of described first plate (28a) provides and the first plate (28a) described at least one is retained to the effect of described support frame (26).

13. methods according to claim 11 or 12, it is characterized in that, described second operation provides following adjustment: the adjustment of the pressure effect to described other plate (28b, 29a, 29b) that be associated with described support frame (26), that applied by described thrust devices (57).

14. methods according to claim 13, it is characterized in that, during described second operation, the corresponding elastomer block (58) of thruster element (64) to the outer surface being attached to described plate (28b, 29a, 29b) of described thrust devices (57) works.

15. according to claim 11 to described method arbitrary in 14, it is characterized in that, described second operation provides inserts described plate (28b, 29a, 29b) in described support frame (26), and the connection edge (35) they being arranged to they contacts with each other.