FR2478519A1 - Automatic machine making annular cement roof fittings - uses rail guided slidable mould reciprocating between casting and striking posts - Google Patents

Abstract

The automatic machine makes annular cement roof fittings, using a ram to drive a mould (9) which travels back and forth on rails (7, 22) between casting (A) and striking (B) posts. One of the posts (A) uses a hopper (17) fed sliding gauge box (19) to introduce cement paste into the volume between the mould and counter-mould (10). A vibrator (16) aiding the filling process, and a ring (14) applies vertical pressure to the contained paste. The other post (B) comprises rails (22) cantilevering from a panel (23) which can rotate about a horizontal axis (X-X), to invert the mould (9). A second vibrator (24) expels the product onto a palette, and uses a pusher to move the palette onto a conveyor belt.

Description

 The present invention relates to an automatic machine intended for making prefabricated elements in cement paste, in particular annular elements of the kind used for making roofs or the like.

 the object of the invention is to produce a machine of the above type which, in addition to allowing automatic manufacture, possibly a program of the above elements, even with any desired internal profile but without a support frame, has a simple construction, robust and at the same time economical, as well as safe and continuous operation, without risk of waste and unwanted stops.

 For this purpose, the machine of the invention is characterized in that it comprises an assembly station and a disassembly station, as well as at least one handle which can be moved on rectilinear horizontal guides from a filling position in the molding station, to an emptying position in the demolding station, and vice versa, the molding station being provided with means for introducing the cement paste into the mold, and with a vibrating member as well as pressing members for compressing the cement paste in the mold, while the demolding station is provided with means for temporarily turning the mold over and means for expelling the assembled element from the mold and inverting it on a support plate as well as means for transferring the support plate with the molded element onto a load-carrying member.

Other characteristics and advantages of the machine according to the invention resulting from the description below relating to two exemplary embodiments with reference to the accompanying drawings in which
- Figure 1 is a vertical sectional view of a machine according to the invention by plane II of Figure 2 with the counter punch in the raised position in the left part and in the lowered position in the right part of the figure
- Figure 2 is a plan view of the machine seen from above in the left half, and in horizontal section through II-II of Figure 1 in the right half
- Figures 3 and 4 are views in vertical section, respectively by III-III and IV-IV of Figure 2
- Figure 5 is a particular view of Figure 3 in another operating position
- Figure 6 shows a detail of Figure 1 on an enlarged scale
- Figure 7 is an alternative embodiment of the machine of the invention, in a partial vertical sectional view through VII-VII of Figure 8, with the counterweight lowered in the left half and raised in the right half of the figure
- Figure 8 is a vertical sectional view through VIII-VIII of Figure 7.

 The automatic machine represented in FIGS. 1 to 6, intended for the manufacture of prefabricated elements in cement paste, in particular annular elements 1, molded flat and of any profile in cross section, naturally without support frame , and especially prefabricated annular elements for roofs.

 The machine shown is constituted by a molding station A- and a demolding station B flanked against the molding station A. b molding station A comprises a rotary turret constituted with four vertical legs 6 which extend at the top by four vertical uprights 106. Between the legs 6 are provided two horizontal rectilinear guide crosspieces 7 on which is movably mounted the mold 9 which is supported in its filling position by support cupolas 8 fixed to the legs 6. Below these support brackets 8, a vibrator device 76 is fixed.

 On the upper end of the uprights 106, a head 5 is fixed which comprises a vertical central oil cylinder 12 and another lateral vertical annular cylinder 13. The piston rod 112 of the central cylinder piston 12 extends downwards, and it carries the mass of the counterweight 10 associated with the mold 9. The piston of the annular cylinder cylinder 13 is integral with two or more rods 113 which extend downwards and support an annular member of position 14 provided all around the counter-punch 10 on the periphery of the mold 9 is supported a small flat console 15 Xui also serves as an upper guide for the mold 9 itself and which is adjustable in vertical alignment with the legs 6 according to the thickness and height of the mold 9.

 On the outside, on two pairs of legs 6, and uprights 106 corresponding to the sliding guides 7 for the mold 9, are mounted vertically sliding and can be locked in the desired position, two support structures 117 which each carry a hopper 17 for the cement paste and at a certain distance from the lower mouth of each hopper 17, there is provided a sliding horizontal plane 18 projecting outward. The lower mouth of each hopper 17 is closed by means of a plate horizontal 217 sliding in both directions D and D ′ in FIG. 1, being actuated by a cylinder cylinder 317. the horizontal sliding plane 18 provided below each hopper 17 can be adjusted in height by means of the structure of support 117 as well as the respective hopper 17, in exact alignment with the flat console 14 which rests on the upper edge of the mold 9.

 On each hroziontal sliding plane 18 a bottomless box 19 moves filled with the cement leg. This box 19 can be moved by means of a suitable jack 119 in one direction or the other according to the arrows E and E2 of FIG. 2, so as to be carried alternately in a loading position under the mouth of the respective hopper 17, and in an unloading position on the mold 9. the two supply boxes 19 move alternately in opposite directions, so that, when one of the boxes 19 is extracted outwards in its position loading under the mouth of the respective hopper 17, the other box 19 is moved inwards in the unloading position above the mold 9.

 The shape of the periphery of each of the supply boxes 19 essentially corresponds to that of the mold 9.

 Given that, as will be seen below, each box is placed on the mold 9 when the counter-punch 10 is lowered and inserted into the mold itself, each box present on its inner edge, returned to the opposite box , a recessed housing 219 into which is inserted the piston rod 112 which carries the lowered counter-punch 10. To avoid that, during the filling of the box 19, the cement paste also falls into this recessed housing 219, the lower mouth of the respective hopper 17 is partially closed by means of a fixed inner plate 417 which covers said housing 219.

The mold 9 can be moved from the molding station A of the machine to the corresponding demolding station B by means of a jack 20, the piston rod 120 of which is guided in longitudinal sliding in a robust support 21 provided next to the framework 6, î06, at a certain distance from it, ci. The piston rod 120 of the jack 20 crosses the distance between the support 21 and the frame 6.106 and is connected to the mold 9
At the same time, the piston rod 120 of the jack 20 constitutes the shaft on which is mounted, with free rotation, a mold release plate 23, able to rotate always in the same direction, or alternatively 180 degrees in each direction, as indicate the arrows M and M 'in FIG. 4. The release plate 23 can be actuated by a reversible motor 31, by means of any transmission, for example with pin 131.

 On the side of the demoulding plate 23 which is turned towards the molding station A, the rectilinear displacement guides 22 for the mold are fixed. These guides advance towards the molding station A and, in the angular position of rest of the release plate 23, they are arranged in a horizontal plane passing through the axis of the piston rod 120, being aligned and connected with the fixed guides 7 provided between the legs 6 of the molding station A. On this Caté and in this rest position of the release plate 23, on the pair of guides 22, is provided a horizontal plate 25, for example a grid, carried by a rocking arm by means of a jack 27, by which it can between close to or distant from the pair of guides 22, as indicated by the arrows F? ' in Figure 3.

 This plate 25 is intended to receive and support in its inverted position, a plate 26 for supporting the mounted element 1. For this purpose, on its side facing the pair of guides 22, this plate 25 has two lateral guides 125 mutually parallel and transverse to the guides 22. Between these guides 125 of the plate 25 can be slidably accommodated the support plate 26.

 On this side and in this rest position of the demoulding plate 23 below the pair of guides 22, is mounted a vibrator 24, supported by a rocking arm by means of a jack cylinder 28. By means of this jack 28, all the pairs of guides 22 can be moved away and brought closer together according to the arrows F and F 'in FIG. 3.

Crosswise to the pair of guides 22 of the demolding plate 23, on one side thereof, there is provided, in the demolding station B, a conveyor belt 30 for the removal of the pre-molded demolded elements. On the opposite side, a thrust cylinder 29 is provided (FIG. 4),
At the start of a machine working cycle, the release plate 23 is in its rest position described above, with the vibrator 24 snus the guides 22 and the grid plate 25 on the guides 22, as shown in FIG. 3. The plate 25 and the vibrator 24 are removed from the guides 22.

 After mounting the mold 9 in the lateral guides 7 between the legs 6 on the support console 8 and under the upper console 15, the counter-punch 10 is lowered and inserted into the mold 9 itself, preferably not completely, that is to say without reaching its lower extreme position, indicated by the dashed line N in FIG. 6. Next, the lower closing plate 217 of one of the two hoppers 17 is opened for a period sufficient time to drop into the feed box 19 a predetermined amount of cement paste. After this, the box 19 is brought above the mold 9 and it discharges its cement content through the annular space left free all around the counter-punch 10. Meanwhile, the opposite supply box has been filled and moved, above the mold 9 in which it unloads its contents, while the empty box 19 is brought back below the respective hopper 17, to be loaded again and then discharged in turn in the mold 9. the two boxes supply 19 thus fill the mold 9 in actuated displacements. During and after filling the mold 9, it is subjected to the action of the lower vibrator 16.

 After the mold 9 has been completely filled, the counter-punch is lowered to its lower extreme position, indicated by the dashed line N in FIG. 6.

 First of all, during the lowering stroke of the counter-punch 10, the pressure ring 14 is lowered in the direction of the arrow P and it compresses the cement paste contained in the annular space between the mold 9 and the counter punch 10, as shown in the right part of FIG. 1.

Given the conical shape of the counter-punch 10, the stroke mentioned below also determines a lateral compression of the cement paste in the mold 9.

Then, the pressure ring 14 and 3rd counter-punch 10 are again raised in the position indicated in the left-hand part of FIG. 1. The mold 9 with the element 1 of cement paste content is compressed and is transferred to the station B of the machine by means of the cylinder 20 which retracts its piston rod and consequently moves the mold 9 in the direction of the arrow C in FIG. 2. the mold 9 thus aligns with the fixed guides 7 provided between the legs 6 and it is carried on the guides towards a plate, the tilting 22 integral with the demold table flap plate 23 as shown in FIG. 3. The demoulding plate 23 is always in its position rest described above
On the extracted mold 9 are then placed on the support plate 26 and the superimposed plate 25 and the vibrator 24 located below, and are moved by means of the respective jacks 27, 28, towards the guide 22, so as to s '' apply one above and the other below against the mold. 9. The mold release plate 23 is then turned upside down, so that the plate 25 with the support plate 26 is placed below the mold 9 while the vibrator 24 is located above the mold 9.

 Under the action of the vibrator 24, the element 1 of cement paste molded in the mold 9 is expelled from the mold and it is placed on the lower support plate 26 disposed between the lateral guides 125 of the plate 25. The plate 25 itself is then lowered at the same time as the support plate 26 and the molded element, thereby achieving the final demolding of this element, that is to say its extraction from the mold 9 located above as shown in the FIG. 5. The support plate 26 with the molded element 1 are then transferred by the pusher 29 to the conveyor 30 in the direction of the arrow 4 in FIG. 4.

 Then, the release plate 23 is returned to its angular position of rest and the vibrator 24 is detached from the mold 9 which emerges from the piston rod 120 of the jack 20 of the tilting guides 22 of the plate 23 which rocks in the direction of arrow C 'in Figure 3 and rests on the fixed guides 22 of the molding station A to start a new work cycle.

 The variant embodiment of the machine shown in FIGS. 7 and 8 is intended for molding an annular concrete element identical to that of FIGS. 1 to 6, but provided at its upper ends with a projecting flange 101 (FIG. 7) outwards and extending around its entire periphery in the form of a small console. Such a rim 101 is formed on the plane of the upper edge of the mold 9 using a flange 32 intended to delimit the periphery of the rim, while the pressure ring 14 also extends above this rim . The flange 32 is supported by four vertical rods 33, provided in correspondence with the legs 6 and the respective uprights 106, and which pass through the support console 8 of the mold 9. At their lower ends these rods 33 are interconnected by means of a horizontal structure 34 so that they move simultaneously upwards or downwards, at the same time as the flange 32, in the direction of the arrows X and i 'shown in FIGS. 7 and 8.

 Below the horizontal lower structure 34-connecting between the rods 33, are provided two pairs of levers coupled in scissors 35 and 36. These levers are interconnected in their middle by means of a transverse axis 37 and preferably also by their ends by means of similar transverse axes. The upper ends of the set of scissor levers 35, 36 of each pair of levers are guided by means of rollers in a horizontal U-shaped profile 39 which is fixed low to the structure 34 of connection between the rods 33.L the lower end of a lever 34 of each of the pairs of levers 35, 36 is locked at a fixed point 37, while the lower end of the other lever 36 is guided by means of a rolling roller in a profile in a horizontal U 38 fixed to the legs 6.

 This movable lower end of the lever 36 is connected to the piston rod 140 of a cylinder of the jack 40 which is fixed at its other end to a fixed point 37. It is obvious that by extending the lower end of the lever 36 by means of the jack 40, so as to move it away or bring it closer to the fixed lower end 37 of the other lever 35, the pair of scissor levers 35, 36 can be closed or opened, to raise or lower the structure 34 with all vertical rods 33 and flange 32.

 For the rest, the machine according to Figures 7 and 8 corresponds to the machine of Figures 1 to 6, and the identical parts are provided with the same reference numbers.

Claims (8)

 10) Automatic machine for making prefabricated elements or cement pits, in particular annular elements for roofs, machine characterized in that it comprises a molding station (A) and a demolding stage (B), as well as at least one mold (9) which can be moved on rectilinear horizontal guides (7,22), from a filling position in the molding station, to a emptying position in the demolding station, and vice versa the molding station (A) being provided with means (17, 117, 217, 317, 19, 119) for introducing the cement paste into the mold (9), and with a vibrating member (16) thus as pressure members (14) for compressing the cement paste in the mold, while the demolding station (B) is provided with means (23) for temporarily turning the mold (9) and means (24) for expel from the mold the molded element (1) and overturn it on a support plate (26) as well as means (29) for transferring the support plate (26) with the molded element (1) on a discharge conveyor (30).  20) Machine according to claim 1, characterized in that, in the case of annular elements (1) made of cement paste, the molding station (A) is provided with a counter punch (10) which can be lifted and lowered, for between inserted from the top into the mold (9) before the introduction of the cement leg, and to be extracted from the mold after compression of the cement paste.  30) Machine according to claim 2, characterized in that the counter-punch (10) has, at least in part, a conical shape, and it is introduced into the mold first of all partially then it is brought to its final position after the cement paste has been introduced into the mold  40) Machine according to any one of claims 1 to 3, characterized in that the pressure means consist of a horizontal pressure ring (14) disposed around the counter-punch (10) and which can be raised or lowered to be applied to the cement paste between the mold (9) and the counterpunch (10).  50) Nachine according to any one of claims 1 to 4 characterized by a horizontal flange (32) which extends outwards all around the pressure ring (14) and which can between raised and lowered so as to come to bear on the upper face of the mold (9) to peripherally limit a part (101) of the molded element (1).  60) Machine according to any one of claims 1 to 5, characterized in that the counter-punch (10) and the pressure ring (14) are raised and lowered by means of a hydraulic cylinder cylinder (12, 112, 13, 113) arranged above the mold (9) while the flange (32) can be raised and lowered by means of another cylinder cylinder (40, 140) arranged below the mold (9) in particular using a system of scissor levers (35, 36) and a structure (34) raised and lowered by means of this system of levers, as well as rods (33) fixed to the structure and supporting the flange (32).  70) Machine according to any one of claims 1 to 6, characterized in that on horizontal planes (18) provided on two opposite sides of the mold (9) in the molding station (A) of the machine, are arranged at sliding two bottomless feed boxes (19) alternately movable each from a loading position, in which it is below an associated hopper (17) and receives a certain quantity of cement paste, towards a position unloading above the mold (9) in which it lets its contents touch in the mold and vice versa.  80) Machine according to any one of claims 1 to 7, characterized in that the horizontal guides (22) for sliding for the mold (9) provided in the demolding station (B) are separable from the horizontal guides (7) of sliding of the mold (9) provided in the molding station (A) and are tiltably fixed on a support (23) rotatable and foldable alternately in opposite directions of 1800 around an axis (120) parallel to the guides (22), this support (29) being provided, on one side of the guides (22); a vibrator (24), and on the opposite side, a support (25) with guides (125) for a plate (26) supporting the molded element (1), the vibrator (24) and the 'support (25) being brought closer to the mold (9) when the latter is between their tilting guides (22) in the demolding position, and then distant from the latter.  90) tachine according to any one of claims 1 to 8, characterized in that the rotary and folding structure (23) provided in the demolding station (B) which carries the tilting guide (22) for the mold (9) , is mounted for free rotation on the piston rod (120) of a hydraulic cylinder cylinder (20) this rod being connected to the mold (9).