Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B28—WORKING CEMENT, CLAY, OR STONE
  • B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
  • B28B21/00—Methods or machines specially adapted for the production of tubular articles
  • B28B21/86—Cores
  • B28B21/88—Cores adjustable, collapsible or expansible

Definitions

• the present invention concerns a collapsible core for the casting of well articles or the like and comprising an annular shell which substantially forms a pipe having a longitudinal axis extending between the ends of the pipe- said shell being flexurally flexible about the longitudi ⁇ nal axis of the pipe, said shell having opposed side edges defining a slot along the longitudinal axis on one side of the pipe, said collapsible core additionally com ⁇ prising an elongate wedge element, and means for moving the wedge element between an extended position in which it covers the slot and a retracted position in which it is pulled out of the slot and into the interior of the collapsible core, as well as means for pulling the two opposed side edges of the shell toward each other in the retracted position of the wedge element.
• collapsible core is known e.g. from US Patent No. 3 570 802 and from US Patent No. 1 101 204, in which the collapsible core is used for casting tubular articles in concrete, said collapsible core forming part of a com ⁇ plete mould and defining the mould cavity inwardly.
• the collapsible core hereby forms the inner contours of the cast article during the casting process.
• collapsible cores are superior to other types using rigid mould sections which are mutu- ally hinged, in that owing to the flexible shell the use of separate hinges is not necessary to reduce the cross- sectional dimension of the collapsible core.
• Such hinges are relatively expensive to provide, as they must be ca ⁇ pable of withstanding the aggressive environment usually involved by casting in concrete because of e.g. the vi ⁇ brations which are imparted to the concrete and thereby the mould parts as well as the abrasive properties of the concrete, and as the hinges must be very tight to ensure that no concrete and water penetrate into the inner side of the mould core.
• the flexible shell involves a problem, as, pre ⁇ cisely because of its flexible properties, the shell may be deformed undesirably when concrete is filled into the mould in which it constitutes the mould core.
• de ⁇ formation may occur undesirably because of pressure dif ⁇ ferences which occur during filling of concrete into the mould, and which vary in proportion to the depth of the concrete below the surface of the concrete, as the con- crete behaves almost like a viscous liquid, or particu ⁇ larly in those cases where the mould core is not circu ⁇ larly cylindrical where a given pressure will deform the core most in the areas where the mould core has the least curvature or is plane.
• the flexible shell in the stated collapsible cores is constructed such that it exclusively consists of one area, which is to have sufficient rigidity to avoid unde ⁇ sired deformation, while being flexible enough to be de- formed sufficiently for the core to be stripped from the concrete article in practice.
• This will be extremely difficult when non-circular articles are in ⁇ volved, and in particular in case of small cross-sec ⁇ tional dimensions.
• the actual collapse must be of a cer ⁇ tain size so that the core will clearly release the pipe during stripping, as, otherwise, stripping will be diffi ⁇ cult without the concrete article being damaged by the core. If the core tips just slightly, particularly the pointed end may be damaged, which necessitates subsequent repair of the cast pipe article, which adds to the costs.
• the present invention is intended to provide a collaps ⁇ ible core of the type stated in the opening paragraph, with the advantages involved by such a core, but with the undesired deformations in the mould core wall during the filling process being minimized.
• the shell of the collapsible core may hereby be consid ⁇ erably more rigid in the first areas than in the second area, as the second area may be without support or have just a small support.
• the deformation in the shell neces- sary for the stripping is hereby concentrated in the sec ⁇ ond area of the shell, which thus serves as a plate hinge allowing the first areas in the shell of the collapsible core to turn with respect to each other.
• the mould core may e.g. be constructed such that the first, relatively rigid areas are positioned where the load is greatest, and material may be saved in the second, relatively flexurally flexible areas, as a greater flexibility is desired precisely there.
• the first, relatively rigid areas are wider transversely to the longitudinal direc ⁇ tion of the pipe than the second, relatively flexurally flexible areas, as this results in a great stability, be ⁇ cause the rigid areas are relatively close to each other and therefore cause some stiffening of the relatively flexurally flexible areas.
• the shell comprises plate of substantially even thickness which is provided with a plurality of stiffening ribs on the side facing inwards in the pipe, each said rib extending along the inner side of the shell, said ribs being constructed so as to pro- vide the greater flexural flexibility in the second area with respect to the corresponding flexural stability in the first areas.
• This embodiment is particularly simple to produce, as the ribs may very easily be formed with e.g. different heights so as to provide different rigid- ity in the various areas on the shell of the mould core.
• the ribs may particularly advantageously be constructed such that they are just secured to the plate at the first, relatively rigid areas.
• the means for moving the wedge element to an advanced po ⁇ sition in which it covers the slot, and a retracted posi- tion in which it is pulled out of the slot and into the interior of the collapsible core may expediently be se ⁇ cured to one or more of the stiffening ribs, as then no separate means are needed for securing these moving means, which usually comprise one or more actuators with associated guides or mechanisms to guide the wedge ele ⁇ ment during the movement.
• the means for pulling the two opposed side edges of the shell toward each other in the retracted po ⁇ sition of the wedge element may be secured to the op ⁇ posed side edges of the shell which define a slot along the longitudinal axis on one side of the pipe, thereby also obviating separate attachments for these on the shell itself, which is formed by a plate.
• the invention provides relatively great degrees of collapse, the invention may of course be applied for mould cores of different cross- sectional shapes, such as circular cross-sections which are used most frequently today.
• the invention is advantageous particularly in connection with mould cores having a cross-section of varying radius of curvature, such as an oval, an egg-shaped, a triangular or a quad- rangular cross-section, as the possibility of concentrat ⁇ ing the deformations in the second relatively flexurally flexible areas upon contraction of the mould core allows optimum stiffening of the areas along the cross-section of mould which have a relatively large radius of curva- ture, and which are therefore relatively weak.
• a first set of stiffening ribs is secured at the areas having a rela ⁇ tively small radius of curvature, and a second set of stiffening ribs at the areas having a relatively large radius of curvature, said first set of stiffening ribs having, at the ends thereof, a part which extends into the mould and which is provided with an engagement face facing toward the wall of the mould, said second set of stiffening ribs, at the ends thereof adjoining the first sets of stiffening ribs, having engagement faces which face inwards in the collapsible core, said engagement faces being positioned so as to engage each other in the advanced position of the wedge element and to be disen ⁇ gaged in the retracted position of the wedge element.
• the collapsible core has an egg-shaped cross-section
• the means for moving the wedge element are formed by one or more linear actuators, whose one end is secured with respect to the collapsible core opposite the slot, and whose other end is secured to the wedge ele ⁇ ment, and the means for pulling the two opposed side edges of the shell toward each other in the retracted po- sition of the wedge element are formed by a toggle mecha ⁇ nism, which extends between the opposed shell side edges defining the slot, and which is secured at the toggle with respect to the other end of the linear actuator, a particularly compact structure of maximum strength is ob ⁇ tained, as the linear actuators can extend along the greatest principal axis of the egg-shaped cross-section and may thus be relatively large with respect to the other dimensions of the collapsible core.
• the collapsible core is constructed such that one end of the linear actuators is rigidly mounted on ribs in the pointed end of the collapsible core in such a manner that the principal axis of the linear actuators is re ⁇ tained in the plane of symmetry of the collapsible core, it is ensured that the core is torsional stable both in its casting position and in its stripping position, so that the mould core is not twisted undesirably in the casting position because of possibly penetrating foreign matter between the wedge-shaped element and the lips, and because of a possible oblique pull in the mould during the stripping process.
• Fig. 1 shows a cross-section through a collapsible core according to the invention in the casting position of the collapsible core.
• Fig. 2 shows the cross-section of fig. 1 in the stripping position of the collapsible core.
• Fig. 3 shows a section through a collapsible core, as shown in figs. 1 and 2, seen from the side.
• Fig. 1 thus shows a cross-section through an egg-shaped collapsible core according to the invention, it being shown that the collapsible core has an outer shell which consists of a plate 1 extending all the way round most of the periphery of the cross-section. However, the plate is terminated with two lips 2 which face each other, said two lips having interposed between them a wedge-shaped element 3.
• the wedge-shaped element 3 hereby keeps the two lips 2 apart, and the plate 1 together with the wedge-shaped element 3 forms the wall of the mould core which forms the inner contours on the cast article during casting.
• Fig. 1 thus shows the position assumed by the plate 1 with the lips 2 and by the wedge-shaped element 3, re ⁇ spectively, in the casting position of the mould core.
• the mould core is provided with stiffening ribs 4 at the areas having the largest radius of curvature, and a further stiffening rib 5 at the pointed end of the egg-shaped cross-section, where the area of the smallest radius of curvature is present.
• the stiffening rib 5 at the pointed end has flange parts 6 extending into the interior of the mould core and provided with engagement faces 7 which face out- wards toward the plate 1.
• the stiffening ribs 4 at the areas having the largest radius of curva ⁇ ture are provided with flange parts 8 extending between the plate 1 and the flange parts 6 on the stiffening rib 4 at the pointed end.
• the flange parts 8 have engagement faces 9 which engage the engagement faces 7 on the flange parts 6 on the ribs 4 in the position of the mould core shown in fig. 1.
• the engagement faces 7, 9 hereby ensure that the ribs 4 at the areas having the largest radius of curvature are fixed toward the plate 1 in these areas, and thus stiffen the mould core in the position shown.
• a hydraulic cylinder 10 is provided in the interior of the mould core, and this cylinder is secured at one end to the rib 5 at the pointed end and secured at the other end to the wedge-shaped element 3, so that the hydraulic cylinder 10 is capable of moving and guiding the wedge-shaped element 3 into and out of slot between the lips 2 in determined and adjustable positions. This function will be described more fully with reference to fig. 2.
• the hydraulic cylinder 10 is rigidly secured to the rib 5 by means of a mounting flange 14 by means of bolts at a distance from both sides of the hydraulic cylinder 10, so that the principal axis 15 of the hydraulic cylinder 10 will always define the plane of symmetry of the mould core, irrespective of whether the mould core is in its casting position or its stripping position.
• two rods 11 are secured at their one end via ro ⁇ tatable links to the other end of the hydraulic cylinder.
• the rods 11 are moreover secured at their other end with respect to the lips 2, so that the rods 11 form a toggle mechanism, said hydraulic cylinder 10 being secured the toggle itself.
• the hydraulic cylinder 10 can hereby move the lips 2 away from and toward each other and away from and toward the wedge 3 and vary the width of the slot between the lips 2 , while the wedge-shaped element 3 is moved into and out of the slot. It will moreover be seen that the hydraulic cylinder 10 is secured to the rib 5 at the pointed end via a support element 12.
• Fig. 2 shows the same cross-section as is shown in fig. 1, but with the difference that the wedge-shaped element 3 has been pulled into the mould core by the hydraulic cylinder 10, and the lips 2 have been pulled toward each other by means of the toggle formed by the rods 11, so that the mould core has been deformed to assume a reduced cross-sectional area, the area marked in black showing how much the mould core collapses by this deformation.
• the deformation is concen- trated in the areas A, as the plate 1 is not secured at these areas A either to the ribs 4 or to the rib 5 at the pointed end.
• Fig. 3 shows a sectional view longitudinally through the collapsible core of figs. 1 and 2, it being seen that there are two identical sets of ribs with associated hy ⁇ draulic cylinders 10. Mounted between these are three further sets of ribs, which in principle operate in the same manner as the ribs 4, 5 of figs. 1 and 2, thereby additionally contributing to stiffening the mould.
• the inven ⁇ tion may be applied in connection with mould cores of other cross-sections, such as circular and edged cross- sections.
• the toggle formed by the rods 11 may be constructed in many other ways than the one shown and optionally be replaced by an entirely different struc ⁇ ture, optionally using separate actuators for moving the wedge-shaped element 3 and the lips 2, respectively.
• the skilled person will also be able to construct the stiffening ribs in many different ways, depending on the situation of use, such as e.g. the cross-sectional geometry of the mould core. It is also contemplated that it may be expedient to have more separate ribs than shown in connection with the em ⁇ bodiment concerned, which, however, is considered to be optimum for egg-shaped cross-sectional geometries.

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• Engineering & Computer Science (AREA)
• Manufacturing & Machinery (AREA)
• Chemical & Material Sciences (AREA)
• Ceramic Engineering (AREA)
• Mechanical Engineering (AREA)
• Molds, Cores, And Manufacturing Methods Thereof (AREA)
• Moulds For Moulding Plastics Or The Like (AREA)
• Materials For Medical Uses (AREA)
• Laminated Bodies (AREA)
• Wrappers (AREA)
• Shaping By String And By Release Of Stress In Plastics And The Like (AREA)
• Moulds, Cores, Or Mandrels (AREA)
• Dental Preparations (AREA)

Applications Claiming Priority (3)

Publications (2)

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• 1995
  • 1995-10-16 DK DK199501165A patent/DK173581B1/da not_active IP Right Cessation
• 1996
  • 1996-10-15 DE DE69632260T patent/DE69632260T2/de not_active Expired - Fee Related
  • 1996-10-15 AU AU72795/96A patent/AU7279596A/en not_active Abandoned
  • 1996-10-15 WO PCT/DK1996/000441 patent/WO1997014544A1/en active IP Right Grant
  • 1996-10-15 EP EP96934445A patent/EP0855951B1/de not_active Expired - Lifetime
  • 1996-10-15 AT AT96934445T patent/ATE264736T1/de not_active IP Right Cessation

Non-Patent Citations (1)

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