WO1996026820A1 - Shaping mould for manufacturing sleepers - Google Patents

Abstract

Shaping mould (1) for manufacturing sleepers with inserts (2) each consisting of an anchoring part (3) to be anchored in the sleeper body and a shoe part (4) projecting from the sleeper body, in which the bottom (10) of the shaping mould comprises elastically deformable sealing elements (5) each comprising a recess for sealingly accommodating the shoe part while the anchoring part projects from the bottom into the shaping mould, and in which holding means are present at the position of each opening for holding the insert in the shaping mould, characterized in that the holding means comprising clamping parts (6) with a shape which is adapted to the shoe part, and in that at least two rigid positioning stops (7, 8) are provided for the shoe part, in which the clamping parts pull an insert against the positioning stops, by which the correct position of the insert is ensured.

Description

Short title: Shaping mould for manufacturing sleepers.

The invention relates to a shaping mould for manufac¬ turing sleepers consisting of a concrete sleeper body and inserts cast in the sleeper body for the fixing of rails, which inserts each consist of an anchoring part to be anchored in the sleeper body and a shoe part projecting from the sleeper body, in which the bottom of the shaping mould comprises openings with in each opening an elastical¬ ly deformable sealing element bounding the opening and comprising a recess for sealingly accommodating the shoe part at the position of the bottom while the anchoring part projects from the bottom into the shaping mould, and in which holding means are present at the position of each opening for holding the insert in the shaping mould.

Such a shaping mould is known from US-A-4 253 817. The elastically deformable sealing element in this case has an internal shape corresponding with the shape of the shoe part of the insert. An insert which is placed in such a sealing element is kept in place by means of a closing pin. With this the closing pin is pushed through an eye of the shoe part. The closing pin hereby also extends through side flanges connected at right angles with the bottom of the shaping mould.

A disadvantage here is that the elastically deformable sealing element encloses the complete shoe part, and is closed in a downward direction. As a result small stones, concrete and other dirt may accumulate in the sealing element. This results in the fact that an insert which is subsequently placed therein can not be accurately posi¬ tioned. Furthermore only one rigid positioning stop is provided for the shoe part, namely there where the shoe part rests on the bottom of the shaping mould. Otherwise the shoe part rests on the sealing element which is elasti¬ cally deformable and therefore can not form a rigid stop. In this shaping mould it will frequently occur that it is not possible to push the closing pin through the eye in the shoe part. This is particularly disadvantageous because several closing pins are controlled at the same time and therefore it is very hard to discover which of the closing pins is blocked. The object of the present invention is to provide a shaping mould in which these disadvantages are eliminated.

According to the invention, this object is achieved through the fact that, the holding means comprising clam¬ ping parts with a shape which is adapted to the shoe part, and in that at least two rigid positioning stops are pro¬ vided for the shoe part, in which the clamping parts pull an insert, when placed in the shaping mould, against the positioning stops, by which the correct position of the insert is ensured. As a result of the presence of at least two rigid positioning stops the sealing element can be open in a downward direction, through which advantageously no dirt can accumulate in the sealing element. Furthermore the cooperation between the positioning stops and the force produced by the closing of the clamping part ensures an accurate positioning of the insert. The elastically defor¬ mable sealing element not only sealingly encloses the insert but also clamps it. This is in particular advantage¬ ous because, in order to compact the concrete the entire shaping mould is made to vibrate. In particular the clamping parts are formed by two bosses provided at opposite sides in each sealing element, the bosses in particular are manufactured from elastically deformable material, but can for example also be manufac¬ tured from metal. An insert which is placed in the sealing element is advantageously directly positioned and retained in the correct position, for this no extra operations are needed.

Further preferred embodiments of the invention are described in claims 4 - 10. The invention also relates to a system which comprises several shaping moulds according to the invention, in which the shaping moulds are placed one after another in the lengthwise direction without partitions, and the sleepers are not separated from each other until after hardening.

The invention will be explained in greater detail with reference to the drawing, in which: Fig. 1 is a diagrammatic representation of a sleeper manufactured using a shaping mould according to the inven¬ tion;

Fig. 2 is a longitudinal section of a particular embodiment of a part of a shaping mould according to the invention with two inserts placed therein, which are shown in view;

Fig. 3 is a cross-section along the line III-III in Fig. 2;

Fig. 4 is a cross-section along the line IV-IV in Fig. 2;

Fig. 5 is a top view of the part of the shaping mould of Fig. 2, without the inserts; and

Fig. 6 is a longitudinal section of another embodiment of a part of a shaping mould according to the invention, with two inserts placed therein, which are shown in view.

Fig. 1 shows an example of a sleeper which has been manufactured with a shaping mould according to the inven¬ tion. The sleeper in each case consists of a concrete sleeper body 20 and two pairs of inserts 21 cast therein. The inserts 21 serve for the fixing of rails, and for this purpose each consist of a shoe part 22 projecting from the sleeper body 20 and an anchoring part 23 anchored in the sleeper body 20.

Since the rails have to lie at an accurately predeter- mined distance from each other, must be at a specific angle, and must be firmly fixable between each pair of shoe parts 22, good positioning of the inserts 21 during the manufacturing process is essential.

Figs. 2 - 5 show various views of a preferred embodi- ment of a part of a shaping mould 1 which is used to manu¬ facture such a sleeper. The bottom 10 of the shaping mould 1 contains openings for the accommodation of the inserts 2. Each opening is bounded by a sealing element 5 which is connected to the bottom 10. The sealing element 5 is manu¬ factured from elastically deformable material such as, for example, polyurethane. Furthermore, the sealing element 5 is of such a shape that an insert 2 placed in the sealing - element 5 at the level of the bottom 10 is enclosed with its shoe part 4 in a sealing manner by the sealing element 5. The result of this is that no concrete moisture can leak out of the shaping mould l at the position of the inserts 2. The shape of the sealing element 5 can be such that the shoe part 4 is firmly clamped in a predetermined posi¬ tion, with the result that the insert 2 is not only enclo¬ sed in a sealing manner, but is also positioned relative to the bottom 10. As an alternative to or in addition to the above mentioned positioning, clamping parts for each insert 2 can be provided below the bottom 10, the shape of the clamping parts being adapted to the shoe part 4. Said clamping parts are opened prior to or through the forced insertion with pressure of the insert 2. The closure of the clamping parts combined with positioning stops for the insert 2 determines the position of the insert 2 after insertion.

In Figs. 2 - 5 the clamping parts are formed by two elastically deformable bosses 6 provided on opposite sides in the sealing element 5. The bosses 6 can advantageously also be integral with and be manufactured from the same material as the sealing element 5. The bosses 6 can also be manufactured from a hard material, for example metal. This is particularly advantageous in connection with the wear resistance of the bosses 6.

It can be seen in Fig. 3 that the bosses 6 are rounded and that at the position of each boss 6 recesses have been made between the bottom 10 and the outside of the sealing - element 5. This means that the bosses 6 can easily be moved apart when the insert 2 is being inserted. It can also be seen clearly in Fig. 3 that the bosses 6 grip at the under¬ side of a recess extending in the shoe part 4. The bosses 6 are provided at such a position in the sealing element 5 that they pull the insert 2 firmly down against the pos¬ itioning stops.

In the embodiment shown in Figs. 2 - 5, one of these positioning stops is provided in the sealing element 5 and 5 is formed in particular by a metal pin 7. In the top view of Fig. 5 it can be seen that the pin 7 extends between two opposite sides and near one of the other sides of the sealing element 5. This means that one side of the shoe part 4 is supported. A positioning stop for the other side

10 of the shoe part 4 can be formed by, for example, the bottom 10, on the condition that the insert 2 has been provided with a projection extending beyond the thickness of the sealing element 5. It is, of course, also possible that both positioning stops are being formed by the bottom

1510.

In Figs. 2 - 5 the bottom 10 in the regions of the openings is formed by an exchangeable bottom plate 8. The bottom plate 8, like the bottom 10, can be manufactured from various types of material. What is important here is

20 that the part of the bottom plate 8 or the bottom 10 which serves to support the insert 2 should be manufactured from a hard material, for example metal.

The sealing elements 5 are preferably connected to the bottom 10 in such a way that they can be exchanged easily,

25 for example in the case of wear.

In Figs. 2 - 5 a thick plate 11 is welded to the bottom 10 in the regions of the openings for this purpose. In the plate 11, combined with the bottom plate 8, recesses which run in a stepped fashion and correspond to the shape

30 of the sealing element 5 are provided, said recesses boun¬ ding the sealing element at the top. From the underside a cover plate 12 is fitted on the plate 11 and bounds the sealing elements 5 at the bottom. If desired, the cover plate 12 at the position of each shoe part 4 comprises

35 through recesses corresponding to the sealing elements 5, so that dirt cannot collect there and the underside of the shoe parts 4 can lie therein. By replacing the bottom plate 8 with, for example, the bottom plate 8' shown in Fig. 6, in which plate the two openings lie at a greater distance from each other, the two inserts 2 also ultimately lie at a greater distance a' from each other. For the same reason, the cover plate 12 is replaced by a cover plate 12' , and the middle part of the plate 11 is formed by a filler part 14, 14', likewise exchangeable. Since one side of each insert 2 rests against the plate 11 welded to the bottom 10, in this case the wall of the sealing element 5' situated at this side must be made thinner.

In this way, the positions of the inserts 2 relative to each other can advantageously be varied. This can be necessary, for example, because it has to be possible to place a rail of a smaller or greater width between each pair of inserts 2, or because the centre-to-centre distance between two rails must be smaller or greater.

In another embodiment, not shown, the plate 11, the bottom plate 8 and the filler part 14 are integral. The result of this is that the positions of the inserts 2 relative to each other is virtually fixed. The sealing elements 5 can still be exchanged after removal of the cover plate 12.

In a particular embodiment, the sealing element 5 is manufactured from one and the same elastically deformable material, but the bottom part, in which the clamping parts and the positioning stop are accommodated, is more rigid than the top part which encloses the insert in a sealing manner. Better positioning and/or better sealing of the insert is obtained in this way.

An important additional advantage of the exchangeability of the various parts is that the shaping mould 1 can be quickly and easily made suitable for posi¬ tioning other shapes of inserts 2 in a sealing manner. As a result of the invention, the shaping moulds in each case are quickly available for reuse. After the remo¬ val of a hardened sleeper, new inserts can quickly and easily be snapped into the sealing elements, following which concrete can be poured into the shaping mould. Due to the firm double clamping, the inserts remain accurately positioned even during the compacting of the concrete through vibration. After hardening, the shoe parts are simply pulled out of the sealing elements by removing the entire sleeper from the shaping mould.

In a particular application, several shaping moulds according to the invention are placed one after another in the lengthwise direction, in which the partitions are left out. This means that the concrete can be poured into all of the shaping moulds in one go. The sleepers are subsequently not separated from each other until after the concrete has hardened.

Claims

C A I M S

1. Shaping mould for manufacturing sleepers consisting of a concrete sleeper body and inserts cast in the sleeper body for the fixing of rails, which inserts each consist of an anchoring part to be anchored in the sleeper body and a

5 shoe part projecting from the sleeper body, in which the bottom of the shaping mould comprises openings with in each opening an elastically deformable sealing element bounding the opening and comprising a recess for sealingly accommo¬ dating the shoe part at the position of the bottom while

10 the anchoring part projects from the bottom into the sha¬ ping mould, and in which holding means are present at the position of each opening for holding the insert in the shaping mould, characterized in that the holding means comprising clamping parts (6) with a shape which is adapted

15 to the shoe part (4) , and in that at least two rigid posi¬ tioning stops (7, 8) are provided for the shoe part (4), in which the clamping parts (6) pull an insert (2) , when placed in the shaping mould, against the positioning stops (7, 8), by which the correct position of the insert (2) is

20 ensured.

2. Shaping mould according to claim 1, characterized in that the clamping parts are formed by two bosses (6) pro¬ vided at opposite sides in each sealing element (5) .

3. Shaping mould according to claim 2, characterized in 25 that the bosses (6) are manufactured from elastically deformable material.

4. Shaping mould according to one of the preceding claims, characterized in that one of the positioning stops is provided in the sealing element (5) .

305. Shaping mould according to claim 4, characterized in that the positioning stop for the insert (2) in the sealing element (5) is formed by a metal pin (7) placed therein.

6. Shaping mould according to one of the preceding claims, characterized in that the bottom of the shaping mould (1) in the regions of the openings is formed by at least one exchangeable plate (8, 8') .

7. Shaping mould according to claim 6, characterized in that a part of each plate (8, 8') serves as second positio- ning stop.

8. Shaping mould according to one of the preceding claims, characterized in that the top part of the sealing element (5) , which is intended for enclosing the shoe part (4) of the insert (2) in a sealing manner, is less rigid than the bottom part of the sealing element (5) .

9. Shaping mould according to one of the preceding claims, characterized in that the sealing elements (5, 5') are exchangeable.

10. Shaping mould according to one of claims 6 - 9, cha- racterized in that the positions of the inserts (2) relati¬ ve to each other can be varied by using plates (8, 8') and sealing elements (5, 5') of different dimensions.

11. System comprising several shaping moulds according to one of the preceding claims, characterized in that the shaping moulds (1) are placed one after another in the lengthwise direction without partitions.