DE102012107968A1 - Glass production tool comprises supporting body having many support elements with strip-like supporting sections to form mold portion, and storage areas having guide elements at opposite sides of mold portion with supporting sections - Google Patents

Abstract

Glass production tool comprises: a supporting body having a number of support elements (30) with linear, strip-like or similar supporting sections (10) to form a mold portion, and storage areas having guide elements (20) at opposite sides of the mold portion with supporting sections, which are connected to the mold portion. The guide elements of the opposing storage areas are adjustable. An independent claim is also included for forming at least a sheet, and plastically deformable workpiece (50) made of glass, comprising placing a sacrificial plate (40) made of a plastically deformable material on supporting sections of mutually spaced-apart guide elements, such that the workpiece to be positioned on the sacrificial plate and the plate are heated, and plastically deforming the sacrificial plate and the workpiece until the plate is supported on linear or strip-shaped or the similar supporting sections of supporting elements.

Description

The invention relates to a glass production tool having a support body, which has a plurality of support elements with linear or strip-like or similar support portions for forming a molding area, wherein adjoin the molding area bearing areas, which have on opposite sides of the mold area guide elements with support portions.

The invention further relates to a method for forming a flat and plastically deformable workpiece, in particular consisting of glass.

From the EP 2 167 435 B1 a method for forming a sheet-like glass panel is known. In this case, a support structure is used, consisting of a plurality of support elements arranged parallel to one another. Each of the support members has a support portion to which the glass sheet can be lowered. To reshape the glass, this is placed on the support structure. Then the glass is heated and it deforms under the influence of gravitational forces. The forming takes place until the glass pane comes to rest on the support sections of the support elements. Subsequently, the glass material is cooled and the reshaped glass panel lifted from the support structure of the glass production tool. In this manufacturing process, there may be shifts between form and glass. In particular, it may happen that the glass pane does not center exactly to the center of the glass production tool, so that the individual glass sheets produced are not exactly identical or symmetrical. Furthermore, the sheet-like or linear support portions of the support elements can leave marks in the glass material, which may ultimately represent a visual defect.

It is an object of the invention to provide a glass production tool of the type mentioned, with which the quality of the formed workpiece can be improved.

It is a further object of the invention to provide a method by which one or more flat and plastically deformable workpieces can be reshaped with high quality.

The object of the invention relating to the glass production tool is achieved by virtue of the fact that the guide elements of the opposite bearing areas are adjustable relative to one another. In this way it is achieved that a resting on the guide elements to be reshaped workpiece or workpieces (bending a plurality of slices or a stack is also possible or intended) is performed during the forming process. In this case, the workpiece can be centered in particular during the forming process towards the center of the glass production tool. In this way, the manufacturing process can be set reproducible and the dimensional accuracy of the finished workpieces is significantly improved.

According to a preferred variant of the invention it can be provided that the guide elements are coupled together by means of an actuating arrangement. In this way, the adjusting movement of the guide elements can be matched to one another, in particular synchronized. As a result, a further improvement in manufacturing quality is possible.

A particularly simple construction results in this case when the actuator assembly comprises at least one transmission element which synchronizes the movement of the one guide element with the movement of the other guide element. The transmission element provides a mechanical coupling between the two guide elements.

A conceivable simple construction results for the guide element, if it is provided that it has a wall which forms a support section. High forces can be dissipated via the wall so that a stiff and stable support of workpieces with a high dead weight is possible.

A glass production tool according to the invention can be such that a pivot bearing is effective between the guide elements and the supporting parts, by means of which the guide elements are pivotable about a pivot axis extending in the direction of the longitudinal extension of the guide elements. Such a pivotal mounting is easy to implement and performs the workpiece with high accuracy.

According to a preferred variant of the invention, it may be provided that the pivot bearings are each formed by slot-like bearing recesses of the support members and the guide elements, wherein the slot-like bearing recesses are plugged into each other to form the pivot bearing. Such a camp training can be designed simply constructive. On the other hand, the guide elements can be easily and quickly replaced, so that the glass production tool can be converted with little expenditure of time.

In order to achieve a reproducible glass production, it can be provided that the adjusting movement of the guide elements can be limited by means of stops.

If it is provided that each guide element has two mutually spaced support portions, and that between the support portions a return is arranged, which is arranged opposite the support portions set back in the direction of gravity, then the glass workpiece can be deformed during the forming process in the region of the recess. Thus, the guide element does not hinder the free deformability of the workpiece.

Accurate bearing guidance of the guide elements can be realized simply by arranging surface sections in the region of the bearing sections of the guide elements, which guide the pivoting movement on the support parts and / or block an offset of the guide elements in the direction of the pivot axis relative to the support parts.

The object of the invention relating to a method for forming a flat and plastically deformable workpiece, in particular consisting of glass, is achieved in that a sacrificial disc made of plastically deformable material is placed on support sections of two spaced-apart guide elements that positions the workpiece on the sacrificial disk is that the workpiece and the sacrificial disc are heated and that deform the sacrificial disc and the workpiece plastically until the sacrificial disc is supported on line or strip-shaped or similar support portions of support members. The sacrificial disk serves to prevent the workpiece from coming into contact with the support sections. Thus, although the sacrificial disc is deformed on the support sections. However, this deformation is not transmitted to the workpiece. This can produce a high surface quality on the workpiece.

According to a preferred variant of the invention it can be provided that the guide elements are adjusted against each other during at least a part of the deformation of the sacrificial disk. In this way, the sacrificial disk is centered towards the center of the glass production tool, so that it settles reproducibly on the support elements. But this also the workpiece, which rests on the sacrificial disc, deformed exactly and defaults.

A particularly simple procedure results from the fact that the guide elements are pivoted about mutually substantially parallel pivot axes.

To achieve a uniform centering to the glass manufacturing tool center. it can be provided that the adjustment movement of the guide elements is synchronized.

A method variant according to the invention can be such that the sacrificial disk deforms into a recess of the guide element. Thus, the guide element can be arranged close to the actual mold area and it does not hinder the free deformability of the sacrificial disk.

The invention will be explained in more detail below with reference to an embodiment shown in the drawings. Show it:

1 a glass manufacturing tool in perspective view,

2 the glass production tool according to 1 in side view and a supporting structure,

3 a in 2 detail marked III,

4 a in 2 with IV marked detail,

5 a cross section along the in 2 with VV marked cutting process,

6 in side view a supporting part of the glass production tool,

7 a stiffening of the glass production tool in side view,

8th in front view a support element,

9 - 12 a guide element in different views.

1 shows a glass production tool with a workpiece 50 consisting of a glass pane and using a sacrificial disk 40 , also consisting of a glass material is deformed. The glass production tool has two carrier parts arranged at a distance from one another 10 on whose construction in detail the 6 is removable. As this illustration shows, the supporting part 10 manufactured as a cutting, laser or water jet bending part of a sheet metal material. It has a vertical bridge 13 on, of which a horizontal support section 15 is angled. In the jetty 13 are plug-in shots 11 brought in. Here are the plug-in receptacles 11 as slot-shaped recesses in the bridge 13 eingebacht. The plugins 11 are arranged at equal pitch to each other. They serve to receive support elements 30 , like this 1 shows.

8th shows an example of a support element 30 , As this illustration shows, is the support element 30 made of a sheet-like blank, in particular a sheet metal blank. It has a lower horizontal edge 32 on, at its longitudinal ends with recesses 33 provided in the form of material notches. Opposite the lower edge 32 owns the support element 30 an upper contoured support section 31 ,

The support elements 30 be with their vertical edges in the plug receptacles 11 the supporting parts 10 plugged in. Here are the recesses 33 in the groove bottom of the plug-in receptacles 11 used. The bottom edge 32 beats inside on the bridge 13 and thus positioned exactly the support elements 30 opposite the supporting parts 10 , In the area between the two supporting parts 10 is a stiffener 80 according to 7 positioned. This stiffening 80 is made of a sheet metal material as a stamped part. It has slit-shaped recesses that as plug-in receptacles 81 are formed. The plugins 81 are on the plugins 11 the supporting parts 10 aligned. So that the support elements 30 with its bottom edge 32 in these plug-in shots 81 the stiffeners 80 be used. The stiffener 80 prevents bending of the support elements 30 transverse to its longitudinal extent.

As the 1 and 2 can be seen, at the opposite ends of the glass production tool guide elements 20 installed. The design of the guide elements 20 you can do that 9 to 12 take closer. As these drawings show, the guide elements are 20 manufactured as stamped and bent parts from a sheet metal blank. They have a vertical wall 21 on, the upper side with two mutually spaced support sections 22.1 concludes. In the area between the support sections 22.1 is a return 22.2 arranged in the form of a concave monotony. From the vertical side edges of the wall 21 are holding sections 24 bent at right angles. At the bottom of the wall 21 is a fold 23 bent. In the area between the longitudinal ends of the fold 23 and the holding sections 24 There are recesses provided as bearing sections 26 serve.

As the 10 to 12 let recognize, are in the holding sections 24 two mounting shots each 25 brought in. The guide elements 20 can in camps 12 the supporting parts 10 to be assembled.

As 6 recognize, have the support parts 10 these camps 12 at their longitudinal ends in the form of plug-in receptacles 11 on. In the present embodiment, the plug-in receptacles 11 formed in cross-section V-shaped. The guide elements 20 can with their storage sections 26 in the camps 12 the supporting parts 10 be plugged in. In the inserted state, the holding sections are 24 outside on the bridge 13 of the respective supporting part 10 at. The fold 23 is in the area of the inside of the bridge 13 guided. The groove boundary walls of the bearings 12 serve as stops for the guide element 20 , Accordingly, the guide element 20 be pivoted about a horizontal pivot axis between two parking positions. The pivot axis runs according to 2 deep in the direction of the image, with the pivot axes of the two guide elements 20 are parallel to each other. In the individual pivot positions is the wall 21 at the Nutbegrenzungswänden of the bearings 12 at.

To the adjusting movement of the two guide elements 20 to synchronize against each other is an actuator assembly 60 used as in the 1 and 2 is recognizable. The positioning arrangement 60 has two transmission elements 61 . 62 on, which are designed as tie rods. The transmission elements 61 . 62 have at their longitudinal ends coupling pieces 64 with which they attach to the mounting fixtures 25 the guide elements 20 can be attached. The transmission elements are 61 . 62 crossed over like this 2 lets recognize. Consequently, the transmission element 61 in 2 left at the lower attachment 25 and on the right guide element 20 at the upper attachment 25 attached. Correspondingly reversed is the second transmission element 62 assembled. This cross over the transmission elements 61 . 62 in their middle areas. For play-free recording, each of the transmission elements 61 . 62 with an adjustment mechanism 63 fitted. By means of this adjustment mechanism 63 can be the length of the transmission elements 61 . 62 be varied steplessly. The adjustment mechanism is in 4 indicated. As this diagram shows, the transmission elements are 61 . 62 in the field of adjustment mechanics 63 cut and have threads at their ends 65 on. The threads 65 are in a threaded sleeve of the adjustment mechanism 63 screwed, each with a left and a right-hand thread at the ends of the transmission elements 61 . 62 are provided.

3 leaves the coupling of the transmission elements 61 . 62 to the guide elements 20 recognize more clearly. By means of the transmission elements 61 . 62 it is achieved that the guide elements 20 must move synchronously against each other.

As the 2 and 5 can recognize, is the glass production tool according to 1 with the support sections 15 the supporting parts 10 on a supporting frame of a supporting structure 70 supported. The supporting structure 70 has four frame profiles 72 . 73 which are assembled into a frame. This frame is by means of the frame profiles 72 on vertical supports 71 attached. The pillars 71 have consoles for this purpose 75 on, both with the supports 71 as well as connected to the frame. At the upper longitudinal ends are the supports 71 with stack pieces 74 equipped. As 2 can recognize, so that several identical constructions 70 be stacked with appropriate glass production tools.

In the 2 and 5 are the supporting structures 70 dashed lines for clarity.

5 indicates that by means of the support elements 30 and the linear support sections 31 form a three-dimensional support surface.

For the production of a corresponding to the support surface of the support elements 30 domed workpiece 50 first becomes a sacrificial disk 40 with their longitudinal ends on the support sections 22.1 the guide elements 20 like this 2 lets recognize. Subsequently, at least one workpiece 50 , in this case a glass pane, on the sacrificial disk 40 , also made of glass material, laid on top. Subsequently, the glass production tool is placed in an oven, in which both the sacrificial disk 40 as well as the workpiece 50 heat. This is the sacrificial disc 40 and the workpiece 50 converted into a temperature state, which allows a plastic deformation under gravity. Accordingly, both the sacrificial disc lower 40 as well as the workpiece 50 in the direction of gravity, until the sacrificial disc 40 on the support sections 31 the support elements 30 comes to rest. In this lowering process tilt the guide elements 20 and thus keep the victim disc 40 and with it the workpiece 50 centered. As soon as the sacrificial disk 40 on the support sections 31 hangs up, can not relative movement of the sacrificial disk 40 more about the support elements 30 occur. In this process state, the sacrificial disc must 40 thus no longer mandatory on the guide element 20 be supported.

1 shows the final state of completion, with the sacrificial disc 40 on the support sections 31 the support elements 30 rests. According to the design of the support sections 33 has thus the victim disc 40 and with it the workpiece 50 deformed. After a certain cooling time can now the workpiece 50 be lifted off. It points to the sacrificial disc due to the extensive contact 40 a completely flat contour with high surface quality. The sacrificial disc 40 can be disposed of or recycled.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2167435 B1 [0003]

Claims (15)

Glass manufacturing tool comprising a support body having a plurality of support elements ( 30 ) with line or strip-like or similar support sections ( 31 ) to form a molding area, wherein adjoin the molding area bearing areas, which on opposite sides of the molding area guide elements ( 20 ) with support sections ( 22.1 ), characterized in that the guide elements ( 20 ) of the opposite bearing areas are mutually adjustable. Glass production tool according to claim 1, characterized in that the guide elements ( 20 ) by means of an actuating arrangement ( 60 ) are coupled together. Glass production tool according to claim 2, characterized in that the actuating arrangement ( 60 ) at least one transmission element ( 61 ), the movement of the one guide element ( 20 ) with the movement of the other guide element ( 20 ) synchronized. Glass production tool according to one of claims 1 to 3, characterized in that the guide element ( 20 ) a wall ( 21 ) having a support portion ( 22.1 ). Glass production tool according to one of claims 1 to 4, characterized in that between the guide elements ( 20 ) and the support body, a pivot bearing is effective, by means of which the guide elements ( 20 ) about one in the direction of the longitudinal extension of the guide elements ( 20 ) extending axis are pivotable. Glass production tool according to claim 5, characterized in that the pivot bearings each of slot-like bearing recesses ( 12 ) of supporting parts ( 10 ) and the guide elements ( 20 ) are formed, wherein the slot-like bearing recesses ( 12 ) are plugged into each other to form the pivot bearing. Glass production tool according to one of claims 1 to 6, characterized in that the adjusting movement of the guide elements ( 20 ) is limited by stops. Glass manufacturing tool according to one of claims 1 to 7, characterized in that each guide element ( 20 ) two mutually spaced support sections ( 22.1 ), and that between the support sections ( 22.1 ) a return ( 22.2 ) arranged opposite the support sections ( 22.1 ) is arranged in the direction of gravity reset. Glass production tool according to one of claims 1 to 8, characterized in that in the region of the bearing sections ( 26 ) of the guide elements ( 20 ) Surface sections (holding section ( 24 ) and bevel ( 23 )) are arranged, the pivoting movement of the supporting parts ( 10 ) and / or an offset of the guide elements ( 20 ) in the direction of the pivot axis relative to the supporting parts ( 10 ) To block. Method for forming at least one flat and plastically deformable workpiece ( 50 ), in particular consisting of glass, characterized in that on support sections ( 22.1 ) of spaced-apart guide elements ( 20 ) a sacrificial disc ( 40 ) is placed from plastically deformable material that on the sacrificial disc ( 40 ) the workpiece ( 50 ) or the workpieces are positioned so that the workpiece ( 50 ) and the sacrificial disc ( 40 ), and that the sacrificial disc ( 40 ) and the workpiece ( 50 ) plastically deform until the sacrificial disc ( 40 ) on line or strip-shaped or similar support sections ( 31 ) of supporting elements ( 30 ) is supported. Method according to claim 10, characterized in that the guide elements ( 20 ) during at least a part of the deformation of the sacrificial disk ( 40 ) are adjusted against each other. Method according to claim 10 or 11, characterized in that the guide elements ( 20 ) are pivoted about mutually substantially parallel axes. Method according to one of claims 10 to 12, characterized in that the adjusting movement of the guide elements ( 20 ) is synchronized. Method according to one of claims 10 to 13, characterized in that the sacrificial disc ( 40 ) into a return ( 22.1 ) of the guide element ( 20 ) deformed into it. Method according to one of claims 10 to 14 characterized by the use of a glass production tool according to one of claims 1 to 9.

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