EP0960708B1 - Tile making press - Google Patents

Description

The invention relates to a roof tile press with the in the preamble of Claim 1 specified features. Such a roof tile press is from the DE 195 14 045 A1, from DE 43 44 636 C1 and from WO 96/32237 A1 known.

The removal of roof tile blanks from the lower molds of a roof tile press usually takes place with a suction plate, which sucks in the roof tile blank, then detached from the lower mold by train, moved away and on a conveyor stores. That known from WO96 / 32237 A1 and from DE 19514 045 A1 Roof tile press has several on a divided anvil side by side Subforms and on a common in the stand up and down movable Pressure piece an equal number of upper molds, which work with the lower molds. There is a loading device on one side of the stand attached, which the lumps to be pressed into roof tile blanks in the sub-molds inserts. On the other side of the stand is an unloading device attached which the roof tile blanks formed in the press from the lower mold extracts. The chunks are brought up on a first roller conveyor and the roof tile blanks conveyed on a second roller conveyor.

The loading device has guides on which a carriage with a suction lifting device runs, which picks up the slugs from the roller conveyor, into the open one Press between the upper molds and lower molds and the Put chunks in the lower molds. The removal device has a similar structure.

The well-known roof tile press works with open forms. With open forms is worked with 20% to 50% excess material, depending on the type of roof tile. The excess material of the batz to be formed occurs laterally between the Upper form and the lower form, which is why the forms referred to as open forms become. Open forms are mainly used as a plaster cast forming roof tile. Due to the highly porous surface of the plaster and due to the water film that forms when the roof tile blank is formed the roof tile blank is sucked into the plaster mold from a chunk. In order to remove the roof tile blank, large release forces must therefore be of the order of 3000 to 5000 N can be overcome, many times over are higher than when working with closed forms. With one often used three-field press, in which three roof tile blanks in simultaneously three adjacent molds are pressed, the release forces are taken together three times as high.

If you work with closed forms, then the size of the chunks becomes like this dimensioned that at most 1% to 2% excess material is available. There When pressing in closed molds, higher pressures are required than with open molds, closed molds are made from a cast steel alloy sprayed with kerosene as a release agent. It is also closed Steel molds are known to use ejectors for the roof tile blank, which with the frequently changing open plaster molds for cost reasons and because of the precise guidance of the ejector, which is hard to achieve in plaster molds have not been able to enforce so far.

They are also forms lined with a rubber blanket, so-called rubber forms known. With them you only need to remove the roof tile blanks very low release forces, because the roof tile blanks can thereby from the Form solved that the rubber blankets are inflated somewhat. The removal device then only the weight of the roof tile blanks move.

About the when removing the roof tile blanks from plaster molds in a press of the type mentioned above, high transfer forces without damage for To be able to apply the roof tile blanks requires a rigid training and strong support of the unloading device. Such training is at the roof tile press known from WO 96/32237 A1 and from DE 195 14 045 A1 difficult because of the slide with the suction lifting device, which has to remove the roof tile blanks, with a cantilever and on bend engage the stressed arm in the area between the upper and lower mold got to. Therefore, tilting moments act on the roof tile blanks when they are detached, which affect the shape retention of the roof tile blanks. Also the trimming work that is usually done by the suction lifting device on the roof tile blank be carried out (the suction devices are from one so-called knife case), can under the circumstances described not be carried out with the desired accuracy.

It is also known to insert the lumps and remove the roof tile blanks with the help of installed on both sides of the roof tile press Robot, which with one arm in the area between the lower mold and engage the upper form. This solution is necessary because of this Length of the robot arms and the releasing forces to be applied even more unfavorable than that known from WO 96/32237 A1 and from DE 19514 045 A1 Technology.

The robot needs so much mass on its arm that it can be used for modern Roof tile presses become too slow and slow. In order to achieve the necessary working speed, one would have to have a robot use only approx. 800 N load capacity. However, this can be used for roof tile blanks do not detach from plaster molds. The situation becomes particularly difficult when one considers multi-field roof tile presses, e.g. a three-field roof tile press, because the robot will even have a load capacity of around 9,000 N to 15,000 N would.

In the case of multi-field turret presses for roof tiles, the removal forces have so far been used by a swivel drive mechanically derived from the press drive for the Unloading device applied. The required 9000 N to 15,000 N release force in a three-field press, you can only do it with a very rigid design of the mechanical elements. With a less rigid design, the Drives for the drum and for the unloading device do not match. The known designs of multi-field turret presses are regarding the removal devices therefore expensive.

Up to now, roof tile presses with open forms have usually been used as turret presses or swivel beam presses, for example as in DE 43 44 636 C1. The lower molds are located in a turret press on a hexagonal drum, which can be moved up and down step by step Thrust piece is moved through and an obliquely upwards pointing loading station on one side of the press stand and one unloading station on the other side of the press stand passes. In a swivel beam press, as in DE 43 44 636 C1 shown, there is a swivel bar instead of a hexagonal drum, which is between a correspondingly obliquely upward Loading station and an obliquely upward unloading station and herschwenkt. The loading device and the unloading device are in both Cases pivoted to move between the diagonally after Make the bottom mold pointing upwards and a horizontal conveyor belt can.

A roof tile press is known from CH 412 681, in which a roof tile blank is released from a lower mold by means of an unloading device by this sucks it to an abutment, which is similar to the roof tile blank Has contour. This will release the roof tile blank from the lower mold supported by an overpressure, which when pressing the roof tile blank is generated between this and the lower mold.

From DE 32 34 284 A1 a suction lifter is known with which a concrete slab after setting by suction from a plastic mold can.

The present invention has for its object to show a way how to facilitate the removal of roof tile blanks from plaster molds can, so that this is accessible for handling by a robot, in particular also for roof presses with several fields.

This object is achieved by a roof tile press with the in the claim 1 specified characteristics. Advantageous developments of the invention are the subject of the subclaims.

While so far the release force for the roof tile blanks from the drive of the Removal device had to be applied, which the roof tile blanks also transferred to a conveyor who deposited the roof tile blanks of her feeds further processing, the invention provides that for A separate drive removes the roof tile blanks from the lower molds is provided, which on the one hand can provide the high release force, which is a lot is higher than that for the subsequent transfer of the roof tile blanks is required, but on the other hand this high power is only available in a short way, because it's all about the roof tile blanks with the separate drive detach from the lower mold. Therefore, the dedicated one Drive, although powerful, is relatively small and light be so that it does not make the unloading device undesirably sluggish. The invention thus creates the prerequisite for this as an unloading device a versatile and sufficiently fast hand-held To use articulated arm robots with the usual drives of an articulated arm only the roof tile blanks detached from the lower molds on a conveyor, e.g. B. must be transferred to a roller or belt conveyor and the one on top of his articulated arm due to the extra on releasing specialized drive, not too heavily loaded because of this arranged drive only needs a short stroke and therefore small and can be easily formed. Because the usual drives for moving the articulated arm do not have to provide the transfer force, but only a transport task have, they can also be designed slightly, so that the inertia the robot can be kept relatively low.

The invention is suitable for different roof tile presses, for anvil presses, for turret presses, also for swivel beam presses, the use of an articulated arm robot because of its versatility and mobility is particularly advantageous for turret presses.

The unloading device expediently has lifting devices that operate with suction on, e.g. one equipped with air intake openings or suction cups, from a knife box for trimming the edges of the roof tile blank equipped suction plate, which can be lifted and lowered on a carrier is. This carrier can be a plate which is at the top an articulated arm of a robot is attached.

A lifting device working with suction is particularly suitable for an anvil press, which is attached to a sled, which on guides is movable, directly or indirectly on the stand of the roof tile press are attached. The lifting device can be moved from this carriage to the one in the Roof tile blank lying below the mold, suck it out loosen the form, lift it up a short distance, then slide it lengthways the guides move up to a conveyor and put it down there again.

The lifting device is preferably by one or more pressure medium cylinders actuated, in particular by hydraulic cylinders, because these are compact Dimensions and low weight allow high forces in short strokes. It but it is also possible to use electromechanical drives to the roof tile blanks can be removed from its lower mold with a short stroke, e.g. electromotive driven spindles, cams, eccentrics, toggle levers and the like for the transmission of high forces during short strokes suitable gear elements.

Toggle lever drives generate close to the according to the toggle lever characteristics Extended position of the toggle lever high forces with low strokes. You can do that by taking advantage of that by lifting the device and its carrier connects one or two pairs of toggle levers and one at the knee joint Pressure cylinder connects. Another option is power cylinders to use, which work according to the wedge lever principle and depending on the design overcome a large stroke (the attack stroke) in a short time and in a previous one or subsequent power stroke a much higher force than a conventional pressure medium cylinder with the same piston diameter within one can transmit short distance. The power cylinder is preferred pneumatically operated, but could also be driven hydraulically or by a spindle his. For lifting, transferring and depositing the roof tile blank only a low suction power is required, which depends on the weight of the roof tile blank is determined.

An embodiment of the invention is particularly preferred in which the peeling force is applied in that the effecting the stroke of the lifting device separate drive elements not between the lifting device and their carrier, but between the lifting device and the carrier of the lower molds are effective so that the lifting device is pushed away from the lower molds becomes. The easiest way to do this is to use the lifting device, e.g. on the suction plate for the roof tile blanks, several short-stroke pressure medium cylinders are provided, preferably at the four outer corners the lifting device one each, the piston rods against the carrier of the sub-molds are directed and pressed against it in order to detach it cause.

Figur 1

zeigt eine als Amboßpresse ausgeführte Dachziegelpresse in einer teilweise geschnittenen Seitenansicht,

Figur 2

zeigt die Dachziegelpresse aus Figur 1 in einer Vorderansicht ihres unteren Abschnitts,

Figur 3

zeigt in vergrößertem Maßstab einen Ausschnitt aus Figur 1,

Figur 4

zeigt eine als Revolverpresse ausgeführte Dachziegelpresse in einer teilweise geschnittenen Seitenansicht beim Beginn des Entladevorgangs,

Figur 5

zeigt im vergrößerten Maßstab einen Ausschnitt aus Figur 4,

Figur 6

zeigt die Dachziegelpresse aus Figur 4 nach dem Ablösen eines Dachziegelrohlings aus seiner Unterform,

Figur 7

zeigt in vergrößertem Maßstab einen Ausschnitt aus Figur 6,

Figur 8

zeigt die Dachziegelpresse aus Figur 4 nach dem Ablegen eines Dachziegelrohlings auf einen Waagerechtförderer, und

Figur 9

zeigt in vergrößertem Maßstab einen Ausschnitt aus Figur 8.

Two embodiments of the invention are shown in the accompanying drawings and are described below.

Figure 1

shows a roof tile press designed as an anvil press in a partially sectioned side view,

Figure 2

1 shows the roof tile press from FIG. 1 in a front view of its lower section,

Figure 3

2 shows a section of FIG. 1 on an enlarged scale,

Figure 4

shows a roof tile press designed as a turret press in a partially sectioned side view at the beginning of the unloading process,

Figure 5

4 shows a section of FIG. 4 on an enlarged scale,

Figure 6

4 shows the roof tile press from FIG. 4 after a roof tile blank has been removed from its lower form,

Figure 7

2 shows a section of FIG. 6 on an enlarged scale,

Figure 8

shows the roof tile press from Figure 4 after placing a roof tile blank on a horizontal conveyor, and

Figure 9

shows a section of FIG. 8 on an enlarged scale.

The roof tile press according to Figure 1 to Figure 3 has one on a floor 1 anchored stand 2, in which a pressure piece 3 in the form of a horizontal Beam slidably mounted up and down and for this purpose with its Is guided in vertical guide devices 4 of the stand. to Movement of the pressure piece 3, a drive unit 5 is provided at the top in the stand 2, which acts on the pressure piece 3 via a toggle lever arrangement 6. The drive unit 5 can be a hydraulic cylinder or an electric motor, which acts on the toggle lever arrangement 6 by means of a spindle.

On the underside of the pressure piece 3, four upper molds 7 are spaced next to one another arranged. Clamping surfaces 8 for the upper molds 7 on the underside of the pressure piece 3 are separated from one another by recesses 9, which horizontally from one side to the other through the pressure piece 3 extend through and are open towards the bottom. On both sides of the The upper molds 7 arrangement are located below the ends of the Pressure piece 3 two mutually parallel guide rods 10, which differ from a tripod 11 on one side of the stand 2 by the bordered by the stand 2 Room through to a tripod 12 on the other side of the stand 2 extend and on these tripods 11 and 12 and on the stand 2 itself are attached directly, which is indicated in Figure 1 by tabs 13. Three further guide rods 14 run parallel and at the same height to the guide rods 10 in the three recesses 9 and are on the stands 11 and 12 attached. The other guide rods 14 are advantageous, but unnecessary.

Each upper mold 7 is assigned a lower mold 17, which is on a stationary in the Stand 2 arranged anvil 15 is clamped. The anvils can be individually be anchored in the stand 2, but can also be combined to form a structural unit be, 17 recesses 16 being present between the subforms are located between the anvils 15 or in which a unitary assembly forming anvil 15 downward, as shown in Figure 2, so that when closing the molds excess material from the molds on all sides step out, fall off and can be transported away, as in the WO 96132237.

The lower molds 17 are located directly below the upper molds 7 preferably open plaster molds; instead of the open forms made of plaster can e.g. B. also open forms can be used with a rubber blanket are covered.

A roller conveyor 18 is provided on one side of the roof tile press, on which piece 19 of the still moist ceramic material to be molded be promoted. Instead of the roller conveyor 18, a Belt conveyors are used. The chunks 19 are usually thereby formed that they are cut from a strand emerging from an extruder become.

On the same side of the roof tile press is a slide 20 with a suction plate 21 slidably mounted on the guide rods 10, 14. The suction plate 21 is liftable and lowerable on the slide 20 and is used to on the Roller conveyor 18 sucked up batches 19, from the roller conveyor 18 take off, along the guide rods 10 and 14 in the roof tile press to be transported to a position vertically above the lower molds 17 and in to file them. Since four sub-molds 17 are provided, four chunks are made 19 simultaneously taken up side by side and placed in the lower molds 17. The carriage 20 then moves back to the position shown in FIG pick up next batches 19. The pressure piece 3 is then moved down, to press the upper molds 7 against the lower molds 17 and the molds thereby closing, whereby the lumps are reshaped and the excess Material of the bats comes out of the open forms and drops. Once this has been done, the pressure piece 3 with the upper molds 7 is raised and a carriage 22 provided on the other side of the stand 2, which is displaceable on the same guide rods 10 and 14 moves into the open roof tile press and is positioned over the lower molds 17. A knife box 23, which is open at the bottom, is suspended on the carriage 22, in which suction cups or suction plates, not shown, are arranged are. The circumference of the knife box 23 is determined by a frame-shaped knife formed, which determines the size of the roof tile blanks to be pressed and serves to trim the roof tile blanks and on their edge through the Press to separate ridges formed. The knife box 23 is together with the suction cups or suction plates, which he surrounds by means of toggle levers 24, which by a pressure medium cylinder, e.g. an air cylinder 25 are actuated, exactly vertically up and down, the lower end position by stops 26 is determined. When the carriage 22 is positioned exactly over the anvil 15 is, a knife box 23 is lowered over each sub-mold 17, trims the pressed Roof tile blanks, and sucks using the suction cups or suction plates stuck on this. Then the toggle 24 by pressing the Air cylinder 25 bent and the sucked roof tile blanks 28 exactly lifted vertically upwards from the lower molds 17; then they will join the carriage 22 moved out of the roof tile press into the one on the left Side of the stand 2 shown position (see Figures 1 and 3) and on a roller conveyor 27 provided there, which the roof tile blanks 28 promotes. 1 and 3, the carriage 22 is shown in two positions, once exactly over the lower molds 17 and once in its position the roller conveyor 27. There are not two such slides 22 in a row intended.

The recesses 9 in the pressure piece 3 are dimensioned so that the upper forms 7 can be placed on the lower molds 17 without the guide rods 10, 14 abut on the underside of the pressure piece 3.

In the second embodiment of a roof tile press according to the invention it is a turret press. Corresponding to each other in the sense of the invention Parts are the same in the two exemplary embodiments Reference numbers designated.

The basic structure of a turret press for roof tiles is, for example known from DE 44 01 506 A1, DE 44 01 507 A1 and from EP 0 434 863 B1, which is referred to for further details. The one in the figures 4 to 9 shown turret press has a hexagonal drum 29, which is rotatably supported in a stand 2 about a horizontal axis. On each of the six drum surfaces 30, at least one lower mold 17 is provided, in particular a plaster mold, which is attached to a platen 10a. There are preferably several each on the six drum surfaces 30 Subforms 17 side by side, in particular three or four subforms, and the same number on each of the drum surfaces 30. The at least one associated Upper mold 7 or the several associated upper molds 7 are located on the underside of a pressure piece 3, which is above the drum 29 and slidably mounted in the stand 2 and driven by a drive unit 5 is. The vertical guidance of the pressure piece 3, the drive unit 5 and the gear elements provided between them can be more conventional Be construction and are therefore not shown. The drive can either hydraulically directly or via knee lever or electromotively via knee lever or via a spindle.

A horizontal roller conveyor 18 is provided on one side of the stand 2, on which batches 19 are brought in, from which roof tile blanks to be pressed. On the opposite side of the stand a further horizontal conveyor 27 is provided, which is designed as a belt conveyor is and serves to remove the pressed roof tile blanks 28. The two horizontal conveyors 18 and 27 can be of a known type. Instead of of the roller conveyor 18, a belt conveyor can be provided instead of the belt conveyor 27 also a roller conveyor.

On the same side of the stand 21 on which the horizontal conveyor is located 27 for the roof tile blanks 28, a robot 31 is provided, which serves to remove the roof tile blanks 28 from the drum 29 and to put on the horizontal conveyor 27. The robot 31 is around a conventional articulated arm robot, the arms 32, 33, 34 of different, horizontally or vertically oriented axes are pivotable. Therefore, the outermost arm 34 can perform a spatial movement with multiple degrees of freedom perform. At the end of the outermost arm 34 is a plate Carrier 35 attached, which carries a lifting device 36, which on Bars 37 is slidably mounted, which extend at right angles from the carrier 35, so that the distance between the lifting device 36 and the carrier 35th is changeable. Coil springs 38 which surround the rods 37 are between the carrier 35 and the lifting device 36 and press the lifting device 36 away from the carrier 35, at most up to one, not shown Attack. The lifting device 36 has one or more suction plates 21, which to form a knife box 23 from a projecting edge 39 are surrounded. The lifting device 36 has a multiple function: your suction plate 11, 21 sucks the roof tile blanks 28 and therefore has one of the shape of the roof tile blank 28 adapted surface contour. The knife box 23 carries out the necessary trimming work on the roof tile blank with its edge 39 28 through before it is removed from the lower mold 17. At the four Corners of the lifting device 36, of which only two corners are shown one hydraulic cylinder 41 each is attached. Their piston rods 42 run parallel to the rods 37 and can be advanced beyond the edge 39.

The turret press works as follows:

The drum 29 can be rotated in steps of 60 °. There is always one in the rest position the drum surfaces 30 opposite the pressure piece 3, so that the upper molds 7th each have the same number of sub-molds 17. On the roller conveyor 18 batches 19 are transported by a conventional loading device placed on the lower molds 17, which are inclined upwards on the facing drum surface 30a in the vicinity of the roller conveyor 18. The structure of the loading device can be selected and is conventional not part of the invention, so the loading device in this example is not is shown. By turning the drum 29 by 60 °, the lump 19 comes along his subform 17 under the pressure piece 3. By moving the pressure piece down 3 against the lower molds 17 located on the top of the drum 29 a roof tile blank 28 is formed from the lump 19. By turning on the drum 29 by 60 °, the roof tile blank 28 reaches the position 30b, in which the drum surface 30 carrying it adjoins the horizontal conveyor 27 is and points obliquely upwards. The robot 31 sets in this position 30b the lifting device 36 on the roof tile blank 28, which the knife box 23 forming edges 39 trim the roof tile blank 28 and the resulting waste pieces 43 fall down. By means of a suction unit, not shown the roof tile blank 28 to the suction plate 21 in the lifting device 36 sucked in. The piston rods 42 of the hydraulic cylinders 41 are advanced, hit the platen 17a of the lower molds 17 and press the lifting device 36 together with its suction plate 21 away from it, so that the roof tile blanks 28 are detached from their lower molds 17 (FIG. 7). Once this has been done, the robot 31 moves the carrier 35 together with the lifting device 36 away from the platen 17a of the drum 29 and transfers the Roof tile blank 28 to the horizontal conveyor 27, on which he deposits it. During this time, the helical springs 38 push the lifting device 36 back into theirs Starting position (Figure 5) back and the piston rods 42 are retracted (Figure 9). The robot 31 moves the lifting device 36 back into hers Position in which they the next roof tile or tiles 28 in the drum position 30b can take over.

Loading, pressing and unloading are carried out in time with the turret press, i.e. six times in the course of a drum revolution.

The high adhesive forces that occur with plaster molds, which occur when detached the roof tile blank 28 must be overcome by the lower mold 17, are overcome by the compact hydraulic cylinders 41, which are in the Support the detachment process against the respective drum surface 30 and thus in cooperation with the suction of the roof tile blank 28 through the suction plate 21 bring about the detachment. Because the hydraulic cylinder 41 the required They can generate release forces even with small sizes the preferred means for detaching roof tile blanks 28 from sub-molds 17. Since the motion drives of the robot 31 have the release force According to the invention, a commercially available articulated arm robot does not need to apply used for removing roof tile blanks 28 from plaster molds , although the release forces are the load capacity of a commercially available articulated arm robot exceed.

The possibility shown in FIGS. 4 to 9, by means of hydraulic cylinders 41, which are supported on the platen 17a of the lower molds, can also with an anvil press, as shown in Figures 1 to 3, come into use. Conversely, using the example of the anvil press shown way of detaching the roof tile blanks 28 by means of pressure-operated toggle lever can be used on a turret press.

Claims (15)

1. Tile-making press comprising

   a stand (2);

   means (15, 29) seated in the stand (2) for carrying lower dies (17);

   one or more lower dies (17) arranged one beside the other on the carrying means (15, 29);

   a ram (3) being guided on the stand (2) for upward and downward movement;

   a drive unit (5) moving the ram (3);

   a number of upper dies (7), arranged on the bottom surface of the ram (3), corresponding to the number of lower dies (17) arranged one beside the other;

   a charging device (20, 21) arranged on the one side of the stand (2) and

   a discharging device (22, 31) arranged on the other side of the stand (2) and provided with means adapted to grip the roof-tile compacts (28) by suction, to release them from the respective lower die (17), to remove them from that die and to deposit them at a different position;

   characterised in that separate drives are provided, which act upon a device in contact with the picked-up roof-tile compact (28) for releasing the roof-tile compacts (28) after they have been picked up by suction, on the one hand, and for removing and depositing the roof-tile compacts (28) on the other hand, the one or more drives (24, 25; 41) for releasing the roof-tile compacts (28) applying a higher force, for a shorter displacement of the roof-tile compacts (28), as compared to the drives intended for removing and depositing the roof-tile compacts (28).
2. The tile-making press as defined in Claim 1, characterised in that the discharging device (22, 31) comprises suction-operated lifting means (22, 23, 24, 25; 36).
3. The tile-making press as defined in Claim 2, especially an anvil press, characterised in that the lifting means (22, 23, 24, 25) comprises a slide (22) arranged for being displaced along guides (10, 14).
4. The tile-making press as defined in Claim 3, characterised in that the guides (10, 14) are mounted on the stand (2) directly or indirectly.
5. The tile-making press as defined in Claim 2, especially a revolving press, characterised in that the lifting means (36) is mounted on the end of a jointed arm (34) of a robot (31).
6. The tile-making press as defined in any of Claims 2 to 5, characterised in that the lifting means (22-25; 36) can be moved up and down by means of one or more fluid cylinders (25, 41), especially hydraulic cylinders.
7. The tile-making press as defined in any of Claims 2 to 5, characterised in that the lifting means can be moved up and down by means of an electric motor.
8. The tile-making press as defined in Claim 6 or 7, characterised in that the one or more fluid cylinders (25) act upon one or more toggle joints (24), cams, eccentric movements, or similar elements transmitting mechanical force and producing a stroke.
9. The tile-making press as defined in Claim 6, characterised in that the fluid cylinders (41) as such directly produce the stroke of the lifting means (36).
10. The tile-making press as defined in Claim 6 or Claim 7, characterised in that for operating the lifting means (23), there are provided one or more force-producing cylinders that operate according to the wedge lever principle.
11. The tile-making press as defined in any of the preceding claims, characterised in that the separate drive (25) for releasing the roof-tile compacts (28) from their lower die (17) acts between the device (21), with which the picked-up roof-tile compact (28) is in contact, and its mounting (22) on the discharging device.
12. The tile-making press as defined in any of Claims 1 to 10, characterised in that the separate drive (41) for releasing the roof-tile compacts (28) from their lower die (17) acts between the device (21), with which the respective picked-up roof-tile compact (28) is in contact, and the means (29) for carrying the lower dies (17).
13. The tile-making press as defined in Claim 12, characterised in that the drives (41) for the lifting means (36) are mounted on the device (21) with which the picked-up roof-tile compact (28) is in contact.
14. The tile-making press as defined in Claim 11, 12 or 13, characterised in that the device (21), with which the picked-up roof-tile compact (28) is in contact, is a suction plate which, preferably, is surrounded by means (23) for trimming the roof-tile compact (28).
15. The tile-making press as defined in any of Claims 12 to 14, characterised in that the separate drives (41) are arranged at four outer comers of the device (21) with which the respective picked-up roof-tile compact (28) is in contact.

Images