DE3635949A1 - Guiding device for an oscillating mould in a continuous casting plant - Google Patents

Abstract

In a guiding device (10) for a continuous casting mould mounted on a frame-like lifting table (3) oscillating relative to a supporting framework (4), a spring carrier (13) extends transversely to the direction of oscillation, a spring (16) extending parallel to it being fastened to it at the ends and the guiding device (10) being fastened, in each case centrally with respect to its longitudinal extension (17), on the one hand to the lifting table (3) and, on the other hand, to the supporting framework (4). In order to be able to use a light spring carrier (13) which is economical on materials and nevertheless to ensure satisfactory guidance of the mould, the spring carrier is formed by a tube (13), the neutral axis of the spring (16) in the condition of rest coincides with the axis (14) of the tube (13) and the tube (13) has, centrally with respect to its longitudinal extension, at least one opening (34) through which a support (35) that can be clamped to the spring (16) projects into the interior (22) of the tube (13) (Fig. 3). <IMAGE>

Description

The invention relates to a guide device for a on an oscillating with respect to a scaffold frame-like lifting table with a mold Continuous caster, with one across Outer direction extending spring carrier, on the Ends one extending parallel to the spring support Spring is attached, the guide device in each case in the middle of their longitudinal extent on the one hand on the lifting table and on the other hand is attached to the scaffold.

A guide device of this type is known from EP-A 1 01 50 357 known. The spring support is as Longitudinal beam formed in the middle area is supported on the scaffold. It faces the end Elevations on which a leaf spring is clamped, the leaf spring bridging the side member spanned. The leaf spring is also in the middle Fixed area of the mold lifting table.

The side member must be particularly solid so that changes in shape as a result of Bending of the leaf spring caused tensile stress be avoided. Such changes in shape are disadvantageous because this changes the preload of the leaf spring can, which makes the guidance of the mold inaccurate. Since the Side members also have high bending stresses, which the Affect the lifespan of the guide device, is exposed, he must also for these reasons be built heavy and stable.

The invention aims to avoid these disadvantages and Difficulties and faces the task of a To create facility that requires the use of a  enables lightweight, material-saving spring support and nevertheless a perfect guidance of the mold guaranteed. In particular, the spring support should not exposed to high bending stresses.

This object is achieved in that the Spring support is formed by a tube and the neutral Fiber of the spring at rest with the axis of the tube coincides and that the tube is in the middle of it Longitudinal extension has at least one opening through one support that can be clamped onto the spring into the interior of the pipe protrudes.

According to a preferred embodiment, the tube is closed at the ends with a lid, each centrally are penetrated by a spring holder. This is it easily possible, disturbing bending stresses on Avoid all spring supports.

The spring holder preferably has a Spring clamping device to which one in the longitudinal axis direction the spring-oriented clamping bolt which connects through a central opening of the lid protrudes, whereby expediently the clamping bolt a coupling device for Has connection to a hydraulic clamping device and by means of a fixing device, such as a mother, in tensioned position is fixable. This makes it possible in a simple way, by means of a hydraulic Clamping device to pre-tension the spring exactly.

In the device known from EP-A 1 01 50 357 the spring is compared to the spring support by means of wedges preloaded, but the spring does not open exactly a certain value can be biased.

In order to reduce the bending stresses in the spring  advantageously the spring of at least two, preferably three, spaced apart and parallel leaf springs lying towards each other.

To feathers with continuous over their longitudinal extent to be able to use the same cross section preferably the spring clamps of two Jaws formed on both sides of the spring or on both sides of the package formed by the leaf springs are arranged and against each other by means of clamping screws are pressable.

According to that known from EP-A 1 01 50 357 The guiding device is the leaf spring on their Attachment points provided with thickening, which the Manufacture of the leaf spring, which then as a forged part must be produced, is complex and expensive.

According to the invention is designed as a tube Spring supports also protect the spring so that its own Housing for the spring and its fastening devices is not required. There is a desire for absolute Tightness of the interior of the pipe - for example, um filling the interior with a liquid - is advantageous between the support and the outside of the A tube covering the opening of the tube and the Support surrounding sealing device, such as a bellows, intended.

According to a preferred embodiment, the tube is as Square tube trained and are conveniently the Spring clamps against the pipe by means of a Protection against rotation, in particular by means of the pipe wall penetrating, attached to the spring clamp Led screws.  

The invention is explained in more detail with reference to the drawing, in which Fig. 1 shows a plan view of a mold attached to a lifting table and Fig. 2 illustrates a partially sectioned side view in the direction of arrow II. FIG. 3 shows a section along the line III-III of FIG. 1 and FIG. 4 shows a section on the line IV-IV of FIG. 3 on an enlarged scale.

A continuous casting mold 1 with a straight mold cavity 2 is removably attached to a lifting table 3 . The lifting table 3 executes a vertically oscillating movement with respect to a stationary support frame 4 . To generate this movement, an oscillation drive 5 is used which drives eccentric shafts 7 via corner gears 6 , which set the lifting table 3 into vertically directed vibrations via articulated brackets 8 .

In order to ensure a strictly vertical oscillation movement of the mold 1 without lateral offset directed transversely to the vertical axis 9 of the mold cavity 2 , the lifting table 3 is guided on the stationary support frame 4 by means of two guide devices 10 . As seen from Fig. 1, a guide device 10 is arranged aligned parallel to the broad sides 11 of the mold 1 and a guiding device 10 parallel to the narrow sides 12 of the mold 1. The structure of the two guide devices 10 is identical to one another; one of these guide devices 10 is shown in section in FIGS. 3 and 4.

Each of the guide devices 10 is formed by a tube 13 having an approximately square cross-section, in the center, at the axis 14 of which a spring 16 formed from three leaf springs 15 is arranged, the neutral fiber of the tube (i.e. the axis 14 ) with the neutral one Fiber of the spring 16 stretched at rest coincides. The tube 13 is supported in the middle of its longitudinal extent 17 on the lifting table 3 of the mold 1 by means of support brackets 18 which are welded to the tube 13 and are screwed to the lifting table 3 by means of flange plates 19 . The tube 13 is closed at the end by means of covers 20 screwed to end flanges of the tube 13 , which are penetrated centrally by clamping bolts 21 .

The ends of each clamping bolt 21 lying in the tube interior 22 are fastened to spring clamping devices 23 , in each of which the ends of the three leaf springs 15 are clamped with the interposition of spacer plates 24 . Each spring clamping device 23 has two clamping jaws 25 which are pressed against one another by clamping screws 26 .

The ends 27 of the clamping bolts 21 projecting outwards through the cover 20 can be coupled by means of an external thread 27 'to a hydraulic clamping device for the purpose of applying a pretension for the spring 16 . After the preload has been applied, the clamping bolts 21 can be fixed relative to the covers 20 by means of a nut 28 . A protective cap 29 can be attached to the ends of the clamping screws.

In the middle of the longitudinal extent 30 of the spring 16 , a further spring clamping device 31 is provided , which is also formed by two clamping jaws 33 that can be clamped against one another by clamping screws 32 . On the lower of the two jaws 33 , outwardly projecting, closely adjacent supports 35 are fastened through openings 34 in the tube 13 , these supports 35 being rigidly fastened to the stationary support structure 4 . To prevent the ingress of splash water etc. into the interior 22 of the tube 13 , the openings 34 of the tube, through which the supports 35 protrude outwards, are sealed by means of a bellows 36 fastened on the one hand to the tube 13 and on the other hand to the supports 35 .

In order to secure a flat position of the leaf springs 15 in their idle state and a rigid position of the spring clamping devices 23 arranged at the ends of the spring 16 and thus to prevent deflections or inclined positions of the tensioning bolts 21, the spring clamping devices 23 arranged on the tube ends have anti-twist devices which are each formed by screws 37 which pass through reinforcing plates 38 inserted into the tube wall and are fastened to the spring clamping devices 23 , the spring clamping devices being pressed onto the reinforcing plates 38 via spacer blocks 39 .

To stiffen the receptacle on the support frame 4 , guide plates 42 arranged on both sides of the tube 13 are fastened to the stationary support frame 4 parallel to the vertically directed tube side walls 40 and at a small distance 41 from these tube side walls 40 .

Claims (9)

1. Guide device ( 10 ) for a mold ( 1 ) mounted on a frame-like lifting table ( 3 ) oscillating with respect to a supporting frame ( 4 ), with a continuous support ( 13 ) extending transversely to the direction of oscillation, at the ends of which one parallel to the spring support ( 13 ) extending spring ( 16 ) is fastened, the guide device ( 10 ) being fixed in the middle of its longitudinal extension ( 17 ) on the one hand on the lifting table and on the other hand on the supporting frame ( 4 ), characterized in that the spring support is formed by a tube ( 13 ) and the neutral fiber of the spring ( 16 ) which is in the idle state coincides with the axis ( 14 ) of the tube ( 13 ) and that the tube ( 13 ) has at least one opening ( 34 ) in the middle of its longitudinal extension, through which an opening on the spring ( 16 ) clampable support ( 35 ) protrudes into the interior ( 22 ) of the tube ( 13 ). 2. Guide device according to claim 1, characterized in that the tube ( 13 ) is closed at the end by means of a cover ( 20 ), each of which is penetrated centrally by a spring holder ( 21 , 23 ). 3. Guide device according to claim 2, characterized in that the spring holder ( 21 , 23 ) has a spring clamping device ( 23 ), to which a in the longitudinal axial direction of the spring ( 16 ) directed clamping bolt ( 21 ) connects which through a central opening of the cover ( 20 ) protrudes outwards. 4. Guide device according to claim 3, characterized in that the clamping bolt ( 21 ) has a coupling device ( 27 ') for connection to a hydraulic clamping device and can be fixed in a tensioned position by means of a fixing device, such as a nut ( 28 ). 5. Guide device according to one or more of claims 1 to 4, characterized in that the spring ( 16 ) is formed by at least two, preferably three, mutually spaced and parallel leaf springs ( 15 ). 6. Guide device according to one or more of claims 3 to 5, characterized in that the spring clamping devices ( 23 ) are each formed by two clamping jaws ( 25 ) which are formed on both sides of the spring ( 16 ) or on both sides of the leaf springs ( 15 ) Package are arranged and can be pressed against each other by means of clamping screws ( 26 ). 7. Guide device according to one or more of claims 1 to 6, characterized in that between the support ( 35 ) and the outside of the tube ( 13 ) covering the opening ( 34 ) of the tube and the support ( 35 ) surrounding sealing device, such as a bellows ( 36 ) is provided. 8. Guide device according to one or more of claims 1 to 7, characterized in that the tube ( 13 ) is designed as a square tube. 9. Guide device according to one or more of claims 3 to 8, characterized in that the spring clamping devices ( 23 ) against the tube ( 13 ) by means of an anti-rotation, in particular by means of the pipe wall penetrating, attached to the spring clamping device screws ( 37 ) are guided.