NO316179B1 - Process for making a cover portion and such cover portion - Google Patents

Abstract

The invention relates to a method for manufacturing a ground slab field and a ground slab field comprising at least a first concrete slab and a second concrete slab (1 and 2). The first concrete slab and the second concrete slab are located substantially level side by side with a sheet-metal profile (3) between them. At least one substantially horizontal dowel plate (5) shaped substantially like a half-circle or a segment is fastened to the first side of the sheet-metal profile. At least one anchoring means (6) is fastened to the second side of the sheet-metal profile (3). The anchoring means (6) is at least partly sunk into the second concrete slab (2) so that the anchoring means (6) anchors the sheet-metal profile (3) stationary to the second concrete slab (2). The first dowel plate (5) is at least partly sunk into the first concrete slab (1) so that the first dowel plate (5) can only move substantially horizontally in the first concrete slab (1) so that the first concrete slab (1) and the second concrete slab (2) together with the sheet-metal profile (3) anchored stationary to it can only move substantially horizontally in relation to each other.

Description

BACKGROUND OF THE INVENTION

The invention relates to a method for the production of a cover part which comprises at least a first concrete cover and a second concrete cover, in which method at least a first mold and, apart from this, a second mold are formed, which molds have four sides of which in the smallest side between the molds is made of a sheet metal profile, and which molds have a bottom made of soil or the like, with concrete being poured into the molds to produce the first concrete slab in the first mold and the second concrete slab in the second mold

The invention also relates to a covering part which comprises at least a first concrete slab and a second concrete slab, and the first concrete slab and the second concrete slab are placed essentially at the same level side by side with a metal sheet profile between the first concrete slab and the second concrete slab

The invention relates to pavement sections, in particular deck bridge tracks As a pavement section shrinks when it dries, the concrete slabs in a pavement section move in relation to each other For example temperature differences also cause relative movement of concrete slabs

The deck is cast on a layer of sand (supporting sand) which allows the concrete slabs to move relative to the layer Casting is carried out on the construction site using molds that are placed on the layer The molds are usually placed on supports manufactured on the layer, so that the concrete slabs are formed at the correct height

It is important that the pavement is equipped with expansion joints that allow relative movement of the concrete slabs. These expansion joints allow the slabs to be lengthened, shortened and bent. In expansion joints, the slab is usually completely divided. The relative movement of the concrete slabs must be controlled. This means that the concrete slabs must not rise vertically, i.e. in terms of height, in relation to each other at the expansion joint The concrete slabs must, however, be allowed to move horizontally in relation to each other For this reason these expansion joints make use of different dowel structures which help to prevent the concrete slabs from moving incorrectly in relation to each other The structure must be manufactured so that the expansion joint is able to transfer a transverse movement

A deck must also be separated with an expansion joint from all load-bearing structures and the like, such as walls, columns, mesh foundations, floor channels and floor drains

A floor has expansion joints between the concrete slabs in the longitudinal and transverse direction According to recommendations, the longitudinal expansion joints are usually approximately 1.5 to 2 times longer than the transverse expansion joints

In the past, a sheet pile has been used in the longitudinal joints in a covering part and a dowel bolt in the transverse joints

A sheet piling joint has a sheet pile made of wood or metal. Wooden sheet piles must be removed, but a steel sheet pile can either be removed or left in the concrete slab. Both joints have the distinctive feature that when the web shrinks, the sheet pile opens and enables a small vertical movement, and that plate reinforcements often have to used to prevent the sheet piling from giving way Such concrete slab reinforcement in itself causes the edge of the concrete slab to rise when it shrinks A sheet pile joint must not be used for lorry/truck traffic with compact tires

In a joint with a mortise bolt, the form has usually been made of wood. Steel fittings are often used at the top of the joint to protect the joint. The bolts are installed in holes drilled in the wood and, on the other side, a plastic tube is fitted which enables shrinking movement at the top end of the bolt. Such a joint is effective when the plate shrinks in the direction of the bolts, but when the gap also shrinks in width there is no room for movement This type of joint has many problems Removing the mold means that it breaks into pieces, therefore reuse is impossible It is also quite difficult to ensure that the bolts remains straight The edge of the joint usually unravels during removal and the mold cannot be removed on the following day

A third alternative to making a joint with a dowel bolt is to first cast the plate

and then saw, at the correct location, a joint with a depth equal to 0.3 x slab height in the concrete to guide the crack to the correct location, and then grout the joint A joint of this type can hardly extend to the wall, and sawing is , as a work phase, difficult and expensive When the concrete has hardened for approximately 8 to 24 hours, the joint must also be sawn, because if it is sawn too soon, the edges will be damaged and if it is sawn too late, cracks can form randomly

Prior art also includes the rhombus-shaped dowel This includes mold-installed plastic parts, which are left in the mold, and square plates are mounted, when the other side is reinforced, in these recesses and allow bidirectional movement The mold work is the same as discussed above

BRIEF DESCRIPTION OF THE INVENTION

It is thus an object according to the invention to develop a method for producing a covering part and such a covering part, so that the above-mentioned problems are remedied

The method according to the invention is characterized by the fact that on the sheet metal profile used, the first side has at least one dowel plate, designed essentially like a semicircle or a segment, attached to it, and the other side has at least one anchoring means attached to it, the sheet metal profile is placed between a first mold and a second mold in such a way that the at least one dowel plate, designed mainly hk a semicircle or a segment on the first side of the sheet metal profile, is located mainly horizontally in the first mold, and that the at least one the anchoring means on the other side of the metal sheet profile is located in the second mould, the at least one anchoring means is at least partially embedded in the second concrete slab in such a way that the anchoring means anchors the metal sheet profile stationary in the second concrete slab, and the first dowel plate is embedded in it smallest partially in the first concrete slab on a sl in such a way that the first dowel plate can only move mainly horizontally in the first concrete slab, so that the first concrete slab and the second concrete slab, together with the metal sheet profile stationary anchored thereto, can only move mainly horizontally in relation to each other

The covering part according to the invention is characterized by the fact that at least one mainly horizontal dowel plate, designed mainly like a semicircle or a segment, is attached to the first side of the sheet metal profile, that at least one anchoring means is attached to the other side of the sheet metal profile, that the anchoring means in the least is partially recessed inside the second concrete slab, so that the anchoring means anchors the sheet metal profile stationary to the second concrete slab, and that the first dowel plate is at least partially recessed inside the first concrete slab, so that the first dowel plate can only move mainly horizontally in the first concrete slab, so that the first concrete slab and the second concrete slab, together with the sheet metal profile stationary anchored thereto, can only move mainly horizontally in relation to each other

The preferred embodiments of the cover part according to the invention appear from the independent claims 3-10

In the solution according to the invention, at least one essentially horizontal dowel plate, designed essentially like a semicircle or a segment, is attached to the first side of the metal sheet profile At least one anchoring means is correspondingly attached to the other side of the metal sheet profile The first dowel plate is recessed inside the first concrete slab

As the purpose of the solution according to the invention is to fasten the metal sheet profile to the second concrete slab, at least one anchoring means, attached to the metal sheet profile, is recessed inside the second concrete slab. The anchoring means on the other side of the metal sheet profile fastens the metal sheet profile to the second concrete slab better than the dowel plate fastens the metal plate profile to the first concrete plate Due to the relative movement of the concrete plates, the metal plate profile will therefore remain attached to the second concrete plate The metal plate profile will detach from the first concrete plate and the first concrete plate and the second concrete plate, together with the metal plate profile attached to it, can move relative to each other Because the the first dowel plate is attached to the metal plate profile, which is attached with the anchoring agent to the second concrete plate, the movement of the first and second concrete plates is controlled. Because the concrete plates must not move vertically in relation to each other, the f The first dowel plate is substantially horizontal. However, the horizontal first dowel plate allows a honsontal movement, and since the first dowel plate is shaped like a segment or a semicircle, this allows honsontal movement without load peaks, because such a substantially segmental or semicircular dowel plate has no corners to which it the first concrete slab can adhere

The solution according to the invention has the advantage that it can be used in covering parts in both longitudinal and transverse joints

The solution according to the invention allows the concrete slab to move both along the joint and at a right angle with the joint

The first dowel plate is preferably designed hk a semicircle or a segment, because these shapes do not cause load peaks, as shapes with corners do

The solution according to the invention simplifies casting, because there is only one independent whole comprising a sheet metal profile with at least one mainly horizontal dowel plate attached to the first side of this and at least one anchoring means attached to the second side of this, which independent whole is mounted in the right place and attached to the base (foot piece) of this without separate formwork, stud installation or drilling

In the solution according to the invention, moreover, the mold must not be removed after casting

The method according to the invention makes faster phase equalization possible, because the nearby concrete slab can be cast immediately after the previous one, or even at the same time

In addition, in the solution according to the invention, the effect of the joint can be calculated according to calculation instructions

In the method according to the invention, the dowel plates and anchor plates remain straight and securely in the right place and their operation is ensured, because they are attached to the sheet metal profile that is left in the structure

In the solution according to the invention, no plate reinforcements are needed in the joint, because the edge of the concrete plate does not rise when the concrete plate shrinks, and because there are structures, attached to both sides of the metal plate profile in the concrete plates, to prevent this

The method according to the invention reduces subsequent work, because the sheet metal profile used has anchoring means attached to one side of the profile and dowel plates on the other side of the profile, and the sheet metal profile is left in the covering part, i.e. not removed from this

BRIEF EXPLANATION OF THE DRAWINGS

In what follows, the invention will be described in more detail in connection with preferred embodiments and with references to the attached drawings, in which Fig. 1 shows a side view illustrating a cross profile of a joint between two concrete slabs, Fig. 2 shows a side view illustrating a cross profile of a joint between two concrete slabs, fig 3 shows a side view illustrating a cross profile of a joint between two concrete slabs, fig 4 shows a cross profile of a joint between two concrete slabs from the top, and fig 5 shows a second concrete slab

DETAILED DESCRIPTION OF THE INVENTION

The figures show a covering part according to the invention, which covering part comprises at least a first concrete slab 1 and a second concrete slab 2. The first concrete slab 1 and the second concrete slab 2 are located essentially at the same level side by side with a metal sheet profile 3 between the first concrete slab 1 and the second concrete slab 2

The length of the sheet metal profile depends on the length of the joint, and the height of the sheet metal profile depends on the height of the first concrete slab 1 and the second concrete slab 2

There is preferably also a joint 4 between the first concrete slab 1 and the second concrete slab 2

The covering part can, for example, be a concrete floor

In the covering part according to the invention, at least one mainly horizontal dowel plate 5, designed mainly like a semicircle or a segment, is attached to the first side of the sheet metal profile 3

At least one anchoring means 6, which is designed to anchor the metal plate 3 stationary in the second concrete plate 2, is attached to the other side of the metal plate profile 3

The first dowel plate 5 is at least partially recessed inside the first concrete plate 1, and the anchoring means 6 is at least partially recessed inside the second concrete plate 2

The purpose of the solution according to the invention is that the anchoring means 6 anchors the metal sheet profile 3 stationary inside the second concrete slab 2 and the first dowel plate 5 is mainly horizontal in the first concrete slab 1, in which case the first dowel plate 5 can only move mainly horizontally in the first concrete slab 1 For this reason, the first concrete slab 1 and the second concrete slab 2, together with the metal sheet profile stationary attached to it, can only move mainly horizontally in relation to each other. The first concrete slab 1 is detached from the second concrete slab 2 by the metal sheet profile 3, so that the metal sheet profile 3 remains attached to the second concrete slab 2

The first dowel plate 5 and the anchoring means 6 are preferably attached to the sheet metal profile 3 without a joint. This means that the first dowel plate 5 and/or the anchoring means 6 are formed from a fixed part in the sheet metal profile 3

The first dowel plate 5 and the anchoring means 6 are preferably attached to the metal sheet profile 3 by welding

The anchoring means is preferably made from a second dowel plate 6

The second dowel plate 6 is preferably designed in such a way that it at least partially deviates from the horizontal, as shown in Figs 1 to 3. This helps the second dowel plate 6 to be better anchored to the second concrete slab 2

Alternatively, the second dowel plate 6 comprises the anchoring means (not shown in the figures), arranged to anchor the second dowel plate 6 to the second concrete slab 2

The second dowel plate 6 can also at least partially deviate from the horizontal and include anchoring means

The first dowel plate 5 and the second dowel plate 6 are preferably attached to each other

The first dowel plate 5 and the second dowel plate 6 are most preferably attached to each other without a joint, which in this case implies that they are manufactured from an originally uniform part

The first dowel plate 5 and the second dowel plate 6 preferably collectively form an essentially circular structure

Approximately 1/3 of the structure, made up of the first dowel plate 5 and the second dowel plate 6, is preferably located in the first concrete plate 1 and approximately 2/3 of the structure, made up of the first dowel plate 5 and the second dowel plate 6, in the second concrete slab 2

The structure, made up of the first dowel plate 5 and the second dowel plate 6, is preferably attached to an opening (not shown in the figures) which extends through the metal sheet profile 3

The first dowel plate 5 preferably comprises a support element 7 to improve the movement between the first dowel plate 5 and the first concrete slab 1

The support element 7 is preferably a plastic part which at least partially surrounds the first dowel plate 5

The metal plate profile 3 is preferably L-shaped in cross section and located in such a way that the horizontal part of the L-shaped profile is located under the second concrete slab 2, i.e. on the same side as the anchoring means Fig 1 shows a solution in which only the second concrete slab 2 comprises a tile reinforcement 8 Figs 2 and 3 show a structure in which both the first concrete slab 1 and the second concrete slab 2 comprise an additional reinforcement 8

At least the additional reinforcement 8 in the first concrete slab 1 is preferably fixed with a fastening means (not shown in the figures), which loosens as a result of the relative movement of the first concrete slab 1 and the metal sheet profile 3. The fastening means can be, for example, a double-sided adhesive tape

Alternatively, the additional reinforcement 8 in the first concrete slab 1 is attached to the metal sheet profile 3 with a hole weld, so that a hole (not shown in the figures) is drilled into the additional reinforcement 8 for the weld. Such holes and corresponding welds are made every 400 to 800 mm, preferably at approximately every 600 mm The additional reinforcement 8 in the second concrete plate 2 is also attached to the metal plate profile 3 with a hole weld, but these welds are placed centrally with respect to the previous ones and the distance between the welds in the halves is 200 to 400 mm, preferably approximately 300 mm When the covering part shrinks, the stiffness of the sheet metal profile 3 between the hole welds is so small that the sheet metal profile 3 gives way and a change of shape is possible

Alternatively, the additional reinforcement 8 and the sheet metal profile 3 are attached to each other with aluminum parts, such as aluminum pop rivets (not shown in the figures), with significantly less strength than steel, and the rivets are left slightly loose. When the covering part shrinks, the weaker aluminum or the like gives way and the joint can work Alternatively, the additional reinforcements 8 and the sheet metal profile 3 are attached to each other with conventional pop rivets that have an O-ring on the underside

Alternatively, the additional reinforcements 8 and the sheet metal profile 3 are attached to each other with elastic rubber nuts or the like (not shown in the figures) The rubber or plastic object is attached to a hole (not shown in the figures) drilled through the sheet metal profile When the covering part shrinks, the rubber gives way and the track can change shape A combination of the above fastening methods is also possible

In the structures illustrated in the figures, the additional reinforcement 8 is also anchored to the concrete slabs 1, 2 with fastening lugs 9 attached to the additional reinforcement 8

According to the method, at least a first mold and, apart from this, at least a second mold (not shown in the figures) are formed, which mold has four sides (not shown in the figures), of which at least the side located between the first and the second mold is made of a sheet metal profile, and which molds also have a bottom (not shown in the figures) made of earth (not shown in the figures) or similar, and concrete is poured into the molds

The other mold sides can be manufactured in other ways. If the other sides of the mold are located against a wall, mold sides can be used, for example, which form a gap (not shown in the figures) between the wall and the concrete slab. The gap between the wall and the concrete slab is achieved by using for for example profiles (not shown in the figures) which are removed between the wall and the concrete slabs so that a void remains

The method according to the invention uses a metal sheet profile 3 with at least one semicircular or segment-shaped dowel plate 5 attached to the first side of this and at least one anchoring means 6 attached to the second side of this

The sheet metal profile 3 is placed between the first mold and the second mold, so that at least one substantially semicircular or segment-shaped dowel plate 5 on the first side of the sheet metal profile 3 is substantially horizontal in the first mold, and so that at least one anchoring means 6 on the other side of the sheet metal profile 3 is in the second mold After this, concrete is poured into the first mold and into the second mold to produce a first concrete slab in the first mold and a second concrete slab in the second mold

In the method according to the invention, at least one anchoring means 6 is embedded at least partially in the second concrete slab 2, so that the anchoring means 6 anchors the metal sheet profile 3 stationary to the second concrete slab 2. The first dowel plate 5 is correspondingly embedded at least partially in the first concrete slab 1 , so that the first dowel plate 5 can only move mainly horizontally in the first concrete plate 1, so that the first concrete plate 1 and the second concrete plate 2, together with the metal plate profile 3 anchored stationary to this, can only be moved mainly horizontally in relation to each other

It is obvious to a person skilled in the art that even if the technology develops, the basic idea according to the invention can be implemented in many ways. The invention and its embodiments are thus not limited to the examples described above, but can be varied within the scope of the requirements

Claims (10)

1 Method for the production of a covering part comprising at least a first concrete slab (1) and a second concrete slab (2), in which method at least a first mold and, apart from this, a second mold are formed, which molds have four sides , of which at least the side located between the molds is made of a sheet metal profile (3), and which molds have a bottom made of earth or the like, concrete is poured into the molds, and the first concrete slab (1) is produced in the first mold and the second concrete slab (2) in the second mould, characterized in that - on the sheet metal profile (3} that is used, the first side has at least one dowel plate (5), designed mainly as a semicircle or a segment, attached to this, and the other side has at least one anchoring means (6) attached to this, - the sheet metal profile (3) is placed between the first mold and the second mold in such a way that at least one dowel plate (5), designed hk a semicircle or a segment on the first side of the sheet metal profile (3), is mainly horizontal in the first mold and that the at least one anchoring means (6) on the other side of the metal profile (3) is located in the second mold, - the at least one anchoring means (6) is cast at least partially in the second concrete slab (2) in such a way that the anchoring means (6) anchors the metal sheet profile (3) stationary in the second concrete slab (2), and - the first dowel slab (5) is embedded at least partially in the first concrete slab (1) in such a way that the first dowel plate (5) can only be moved mainly horizontally in the first concrete plate (1), so that the first concrete plate (1) and the second concrete plate (2), together with the metal plate profile (3) anchored stationary to this , can only be moved mainly horizontally relative to each other 2 Cover part comprising at least a first concrete slab (1) and a second concrete slab (2), and the first concrete slab (1) and the second concrete slab (2) are located essentially at the same level side by side with a metal sheet profile (3) between the first concrete plate (1) and the second concrete plate (2), characterized in that - at least one mainly horizontal dowel plate (5), designed mainly hk a semicircle or a segment, is attached to the first side of the sheet metal profile (3), - at least one anchoring means (6) is attached to the other side of the sheet metal profile (3), - the anchoring means (6) is at least partially recessed inside the second concrete slab (2), so that the anchoring means (6) anchors the sheet metal profile ( 3} stationary to the second concrete slab (2), and - the first dowel plate (5) is at least partially recessed inside the first concrete slab (1), so that the first dowel plate (5) can only move mainly horizontally in it first concrete slab one (1), so that the first concrete slab (1) and the second concrete slab (2), together with the metal sheet profile (3) anchored stationary to this, can only move mainly horizontally in relation to each other 3 Cover part according to claim 2, in which the anchoring means (6) is formed by a second dowel plate (6) 4 Cover part according to claim 3, in which the second dowel plate (6) is designed in such a way that it at least partially deviates from the horizontal 5 Cover part according to claim 3, whereby the first dowel plate (5) and the second dowel plate (6) are attached to each other 6 Cover part according to claim 5, whereby the first dowel plate (5) and the second dowel plate (6) together form an essentially circular structure 7 Cover part according to claim 6, whereby the structure formed by the first dowel plate (5) and the second dowel plate (6) is attached to a hole which extends through the metal sheet profile (3) 8 Cover part according to claim 2, in which the first dowel plate (5) comprises a support element (7) to improve the movement between the first dowel plate (5) and the first concrete slab (1) 9 Cover part according to claim 8, in which the support element (7) is a plastic part which at least partially surrounds the first dowel plate (5) 10 Cover part according to claim 2, in which the metal sheet profile (3} is L-shaped in transverse profile and located in such a way that the horizontal part of the L-shaped profile is located in the bottom area of the second concrete slab (2)