NL1011531C2 - Bolt connection for cassette construction. - Google Patents

Description

BOLT CONNECTION FOR CASSETTE CONSTRUCTION

The invention relates to a bolt connection between a first and at least a second metal plate, which are separated by an element suitable for absorbing compressive forces, the bolt connection comprising at least one bolt, each of the bolts from a end successively comprises: - a drill point suitable for drilling a hole in the second plate; - a first threaded portion which is adapted to be connected to the second plate; a second threaded portion, the average diameter of which is greater than that of the first threaded portion, and which is adapted to be connected to the first plate; and - a woodhead,

Such a bolt connection is generally known.

Such a prior art bolt connection includes a bolt provided with a chest at the end of the first threaded portion. Fixation takes place between the second metal plate and the bolt. Since the breast has to be moved through the opening 25 provided in the first metal plate, it is necessary that this opening is pre-drilled. This pre-drilled hole must have a diameter equal to or greater than the diameter of the chest. Although the bolt according to the prior art connection is provided with a drill point 30, it is only dimensioned for making an opening in the second metal plate.

All this has the consequence that the hole must be pre-drilled in the first metal plate before the bolt connection is made. This is a time-consuming operation that requires additional tools.

GB-A-2 169 051 discloses such a bolt connection, in which a first extending part of increasing diameter is formed between the first threaded part and the second threaded part.

As a result of this measure, it is possible with the bolt to drill not only the opening in the second metal plate, but also in the first metal plate. Indeed, the running portion provides for increasing the diameter of the hole formed by the drill bit in the first metal sheet to the diameter necessary for the rest of the bolt to pass. It is pointed out here that the running part thus has a drilling property.

Of course, it would in principle be possible that the opening made in the second metal plate made by the drill bit would also be enlarged by the running part. Because the dimensioning of the bolt is such that when the running part of the bolt engages in the opening of the second metal plate, the wood head touches the first metal plate, this is prevented. The running part will turn crazy.

25 It should also be noted that the term "expired" includes various forms. First of all, of course, purely conical, but also such a rotationally symmetrical shape that the diameter increases from the small diameter to the large diameter, perhaps with the insertion of cylindrical parts, constrictions or protuberances. Furthermore, this term includes slight deviations from the rotation symmetry, such as thickenings, or screw thread.

It is pointed out here that often the second metal plate is formed by two separate layers, which belong to separate cassettes. The total layer thickness of the second metal layer is twice that of the first metal layer, so that, even if the bolt head should not get stuck against the first metal layer, the running part fixes against and in the second metals. low.

However, with this prior art bolt connection, the adhesion is not yet optimal.

The object of the invention is to provide such a bolted connection with improved adhesion.

This object is achieved in that the first threaded portion is sized to deform at least the second plate. The effect referred to above is thus reinforced.

An even better adhesion between the second plate and the bolt is obtained when the deformation has indeed occurred and the second plate has been deformed by the running part.

According to another preferred embodiment, a conical threaded portion is interposed between the drill tip and the threaded portion.

This makes sizing the drill tip easier; after all, it can be made smaller. The diameter of the opening made by the drill point can then be increased for the respective conical part.

In yet another preferred embodiment, the second threaded portion is cylindrical.

This provides a long path over which the second threaded portion can adhere to the first plate. This makes it possible to compensate for any inaccuracies in the distance between the first and the second plate.

According to a further preferred embodiment, a smooth stem piece is present between the running part and the second screw-threaded part.

This measure facilitates insertion of the bolt through the opening in the first plate. Entering here is after all no longer hindered by the 1011531 4 wire. In addition, the drilling of the opening in the second plate is not hindered by any forces exerted by the screw thread.

According to yet another preferred embodiment, a stem piece without screw thread is present between the second screw thread and the head.

This measure leads to the possibility of free rotation of the bolt relative to the first plate, while the bolt is well enclosed in the axial direction between the bolt head and the second screw thread. This possibility is important during the fixation process of the second plate from the first screw thread against the conical part. It is then important that there is a certain degree of freedom in the axial direction.

According to yet another embodiment, a sealing ring is placed between the bolt head and the outside of the first plate.

This ring ensures a reliable seal between the bolt and the first plate, so that penetration of wind and rainwater is prevented.

The sealing action is further enhanced when the sealing ring comprises a metal ring part and a sealing ring part made of a compliant material which is subsequently placed on the first edge.

The effect is enhanced when the sealing portion has an inner diameter less than the outer diameter of the bolt between the bolt head and the second threaded portion.

The present invention also relates to a bolt for manufacturing a bolted joint according to any one of the preceding claims.

The invention also relates to a metal construction which is provided with a bolt connection according to any one of claims 1-11.

An example of such a metal construction is a wall construction, comprising two metal plates, which are separated by a layer of mineral wool, and which is provided with at least one bolt connection according to any one of claims 1-11, and a wall construction, comprising each metal wall provided with mineral wool-filled, side-opened cassettes with inward-facing flanges, which are fixed against a stony wall, whereby profiles are fixed against the stony wall, and wherein the flanges and the profiles are joined by bolted connections according to any one of claims 1-12.

Another example of such a metal-10 construction is a roof construction of a slightly sloping roof.

Finally, the present invention relates to a method for manufacturing a wall construction according to any one of claims 1-11, which method is characterized in that initially a bolt according to claim 6 is placed with its drill point against the first wall, then the bolt in rotation is driven, wherein initially the drill tip drills a hole in the first wall, the hole is enlarged by the running part, the bolt is pushed through, with its drill point drills a hole in the second wall, and then a connection is created between the first wall and the second screw thread and between the second wall and the first screw thread.

It will be clear that with performing this method it is not necessary to predrill one of the holes initially.

It is pointed out here that fixation occurs because the axial movement of the plates relative to the screw is blocked, while the rotation is not blocked.

The present invention will be elucidated hereinbelow with reference to the annexed figures, in which: figure 1 shows a schematic cross-sectional view of a bolted connection according to the present invention; 101 1951 6 figure 2: a view corresponding with figure 1, wherein the separation between the pieces of insulating material is different; figure 3 shows a view corresponding with figure 1, wherein an insulating material with a different structure is shown; figure 4 is a view corresponding with figure 1 of an embodiment, wherein cassettes are arranged on a aerated concrete wall; and Figure 5 shows a series of cross-sectional views of a bolt according to the present invention during different stages of the screwing process.

The bolt connection shown in figure 1 forms a connection between a first metal plate 1 and a second metal plate 2. The second metal plate is in fact formed by two touching metal plates 3 and 4, respectively. The metal plates 1,2 are separated by a strip of mineral wool 5. In principle, other insulating materials can also be used.

Such a configuration occurs, for example, in the configuration, as described in the Dutch patent with publication number 1002839.

The connection further comprises a bolt of a special construction indicated in its entirety by "6".

At its point, the bolt includes a drill point 7, which is followed by a conical portion 8 which is threaded.

The conical portion 8 is followed by a threaded cylindrical portion 9, and 30 which in turn is followed by a smooth conical portion 10.

Subsequently, the bolt comprises a smooth stem piece 11 and more towards the head, a cylindrical part 12 which is threaded and, of course, a head 13. Between the threaded part and the head 13, a smooth piece is arranged which is suitable for to offer to a sealing ring 15.

1.01 1 531 7

The sealing ring 15 is formed by a metal ring 16 and a ring 17 made of flexible material.

The flexible ring ensures the actual sealing. For this purpose, this ring is provided with an opening with a smaller diameter than the diameter of the bolt shank at part 14. This leads to an improved sealing.

In making such a connection 10, the drill tip 7 of the bolt is initially placed against the outside of the first metal sheet 1, and the bolt 6 is then driven in rotation by, for example, a screw machine. This situation is shown in Figure 5A.

By rotating the bolt, the drill tip 7 will drill an opening in the first metal plate 1, which is then engaged by the screw thread of the conical part 8, which then widens the opening, the screwing being further along the cylindrical part 20 continued. This process is shown in Figure 5B.

Then follows the conical part 10 which enlarges the opening again. The fact that the first plate is deformed and heated by the threaded pieces 8 and 9 plays a role in this. The metal is thus weakened at the location of the opening, so that the opening can easily be cleaned up by the conical part 10. The presently preferred embodiment is a smooth conical piece 10. However, it is also possible to make use of a threaded conical piece. In principle it is even possible to provide the conical part 10 with elements with a drilling function. The situation thus obtained is shown in figure 5C.

After that, with sufficient axial pressure on the bolt, the bolt can be pushed through the opening, the smooth shank passing the drilled opening. This movement is continued until the drill point 7 comes into contact with the second metal layer 2. It is assumed that the layer of insulating material offers so little resistance that it is not hindered and no significant resistance is offered. This position is shown in Figure 5D.

Subsequently, the drilling tip 7 will make an opening in the second metal layer 2, which is formed by the plates 3,4. This opening will then be enlarged by the conical part 8 and the screw thread 9 will then move through the screw movement in the relevant opening. At about the same time, the screw thread 12 will engage in the opening in the first metal sheet 1. However, this depends on the dimensioning of the axial lengths of the various elements of the bolt relative to the dimensions of the connection, in particular the distance. between the two metal plates. It is pointed out here that in figure 4D the situation is shown in which the screw thread 12 engages in the opening in the first plate 1, before the drilling tip 7 drills a hole in plate 2.

All this is continued until the conical part 10 becomes axial against the second metal sheet 2, as shown in figure 5E. This jamming occurs in the axial direction, because the thickness of the second metal layer is greater, so that it costs extra resistance to fix the screw thread. After all, the second metal plate is usually formed by two metal plates, so that the total thickness is greater. However, the rotation is not necessarily immediately interrupted here.

The screw also gets stuck here, because the head 13 touches the plate 1. Whether the blocking of the movement in the axial direction of the screw in the second metal layer or in the first metal layer occurs in the first depends on the dimensioning of the various parts. The invention applies in both cases.

10 11 551 9

It will be clear that the present invention can be applied not only to the configuration shown, but also to other configurations, for example in other steel structures.

Figure 2 shows a situation where the dividing line between the blocks of insulating material coincides with the horizontal part of the cassettes, of which the metal plates are part. This has the advantage over the situation shown in figure 1 that rectangular blocks can be used, so that no cutting loss occurs. In the situation shown in figure 1, the interface is stepped.

Figure 3 shows a situation in which an insulation layer with a different structure is used. This insulation layer has a higher density on the outside of the wall. This has the advantage that a higher insulation value can be achieved. In principle, it is also possible to place the layer with a higher density on the inside. It is possible to use the layer as a separate material unit, but it is, of course, easier to use the total insulation package as a unit in terms of handling at the construction site. Modern manufacturing methods 25 make this possible.

Figure 4 shows a situation in which the pieces of insulating material 5 are not accommodated in cassettes, but in which they are placed against a stony, for example of aerated concrete blocks 15. Z-shaped profiles 16 are used to support the 30 pieces of insulating material and to fix the plates 1 to the aerated concrete blocks.

These profiles 16 are attached to the aerated concrete wall 15 by means of screws 17 and plugs 18.

Then, in the manner already known from the other embodiments, the plates 1 are attached to the profiles 16 by means of the bolts 6, so that the pieces of mineral wool 5 are enclosed.

1011531 10

It should be noted that in this embodiment, in contrast to the other embodiments, the bolt at the conical part is only connected to the profile 16 with the thickness of a single plate.

A wall or roof construction according to the invention is often subject to wind load. The present construction is quite resistant to this. This is due, on the one hand, to the inherent rigidity of the structure, which is caused by the fact that the bolt connections are designed in such a way that movement of the plates parallel to their plane, in particular in the vertical direction and folds, is prevented, and on the other hand due to the fact that the mineral wool offers a high degree of rigidity. This is especially the case when high density mineral wool is used and when mineral wool of transversely different density is used with the highest density layer on the outside.

Furthermore, it will be clear that various modifications can be made to the construction of the screw. For example, the drill bit 7 can be designed so large that the first conical part 8 can be omitted. Furthermore, it is possible to omit the cylindrical part 9 and the head shape can be adjusted, for example with an Allen head, an internal or external hexagon head or an internal star head.

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Claims (19)

1. Bolt connection between a first and at least a second metal plate, which are separated by a structure suitable for absorbing compressive forces, the bolt connection comprising at least one bolt which successively comprises from one end: - a drilling point, which is at least suitable is for drilling a hole in the second plate; a first threaded portion adapted to be connected to the second plate; 10. a second threaded portion, the average diameter of which is greater than that of the first threaded portion, and which is adapted to be connected to the first plate; and 15. a bolt head, between the first threaded portion and the second threaded portion forming a first, tapering portion of increasing diameter, characterized in that the first threaded portion and the first runners are sized to deform at least the second plate. Bolt connection according to claim 1, characterized in that the second plate is deformed by the running part. Bolt connection according to any one of the preceding claims, characterized in that a second conical threaded part is placed between the drill point and the threaded part. Bolt connection according to any one of the preceding claims, characterized in that the second threaded part is cylindrical. Bolt connection according to one of the preceding claims, characterized in that a sealing ring is placed between the bolt head 35 and the first plate. te 'ί1β1 1 531 A Bolt connection according to claim 5, characterized in that the sealing ring comprises a metal ring part and a sealing ring part made of a compliant material, which is placed next to the first wall 5. Bolt connection according to claim 6, characterized in that the sealing ring part has an internal diameter which is less than the external diameter of the bolt between the bolt head and the second threaded part. Bolt for manufacturing a bolted connection according to any one of the preceding claims. 9. Washer for use in a bolted connection according to claim 5, 6 or 7. Metal construction, provided with a bolt connection according to any one of claims 1-7. Construction, comprising each metal-walled mineral wool-filled one-sided cassettes with inwardly directed flanges and plates fastened against the opened side of the cassettes, characterized in that the flanges and against the opened plates fastened to the side of the cassettes are bolted together according to any one of claims 1-7. Construction according to claim 11, characterized in that the construction forms a wall construction. Construction according to claim 12, characterized in that the construction forms a roof construction of a slightly sloping roof. 14. Wall construction, comprising each metal wall, mineral wool-filled, side-opened cassettes with inward-facing flanges, which are fixed against a stony wall, characterized in that profiles are fixed against the stony wall, and that the flanges and the profiles are joined by bolted connections according to any one of claims 1-7. 1011531 * Wall construction according to claim 14, characterized in that the stony wall is made of aerated concrete, and that the profiles are mainly Z-shaped. Wall construction according to claims 14 or 15, characterized in that the mineral wool has a different density in the transverse direction of the wall. Wall construction according to claim 16, characterized in that the mineral wool has the greatest density on the side of the first plate. Wall construction according to claim 16 or 17, characterized in that the part of the higher density mineral wool forms a loose element. 19. Method for manufacturing a wall construction according to any one of claims 14-18, characterized in that: - a bolt according to claim 8 is initially placed with its drill point against the first wall; - the bolt is then driven in rotation, the drill tip initially drilling a hole in the first wall; the hole drilled in the first wall is enlarged by the first conical part; - the bolt is pressed through, with its drill point 25 drilling a hole in the second wall, and then a connection is created between the first wall and the second screw thread and between the second wall and the first screw thread. 10 1 1 331