EP1138848A1 - Insulating material fixing means and method for anchoring said means - Google Patents

Abstract

The holder consists of a hollow shaft with an opening (8) at the end for a nail shaft (5) and a plate (2) at the far end of the hollow shaft with an opening (4) leading into the shaft. A strap (11) projecting from the non-shaft side of the plate (2) is joined to the insulation holder by an ideal break point (10). The strap is designed to close off the plate (2) opening (4) and the size of the break point (10) is such as to require more force friction between shaft and its surround. The break point (10) is designed so the strap has to be torn off to serve as lid. The break point comes in band form too short to permit tongs or pliers to be inserted between plate (2) and strap (11).

Description

Insulation holders are used for panels made of insulation to be attached to buildings. They usually contain one Shaft that has a cavity into which a fastening bolt is used. At the outer end of the shaft a large head or plate is present, which in fixed Condition lies flat on the outside of the plate.

The attachment is often done with stud setting tools whose help set the mounting bolts with explosive charges become.

In a known insulation holder, the setting tool is designed that a coupling between the shaft of the insulation holder and the mouth of the bolt gun is. This is supposed to be a after placing the insulation holder Then check whether the insulation holder is correct was set. There are applications where the Nail is not set. Then the insulation holder pull out relatively easily. this happens in the known method using the setting tool (EP 628 384).

The invention is based, another possibility to create the correct seat of an insulation holder to be able to check.

To achieve this object, the invention proposes an insulation holder with the features of claim 1 and a method with the features mentioned in claim 10. Developments of the invention are the subject of the dependent Claims, the wording of which is the same as the wording of the summary by reference to the content of the description is made.

The insulation holder is attached in the same way as the well-known insulation holder. After being in the usual Has been set, the fastener setting tool is removed from it. With the help of those proposed by the invention Device for checking the tight fit of the insulation holder it is then checked whether the one used for fastening Nagel is actually stuck.

In a development of the invention it can be provided that the Device for checking the correct seat of the insulation holder is realized by a tab that by the Insulation holder on the side of the Tellers protrudes and with the insulation holder over a predetermined breaking point connected is. This insulation holder too attached in the same way as the known insulation holder. In a subsequent step, that too can be carried out by another person pulled the tab. If appropriately tight to the tab is pulled, tears or breaks the predetermined breaking point. Man can see at a glance whether the from the front of the protruding or projecting insulation holder Tab is still present or not. If they still exist is, the check for strength was not or also not done properly.

In a development of the invention it can be provided that the Tab is formed as a lid with which the opening of the Tellers can be closed. Such a closure is desired to the surface of the insulation boards for example to be able to plaster without the material of the plaster into the opening of the shaft. The Insulation holder in this case is no more complex than that previous insulation holder, which also has a lid is present, which makes sense on the insulation holder is appropriate. This lid is followed by the measures exploited the invention twice.

In a further development, the invention proposes the predetermined breaking point to be dimensioned such that a Force that is greater than the holding force of a Insulation holder, whose nail is not properly in the ground has penetrated. This holding force essentially becomes of the frictional force between the shaft and the surrounding shaft Material determined.

In a further development of the invention can be provided be the predetermined breaking point between the insulation holder and the flap or the lid is realized such that the tab cannot be used as a lid without tearing it off can.

In a further development it can be provided that the Predetermined breaking point by a short band or a short web is made of plastic that is so short, that no combination pliers were inserted between the plate and the tab can be. This is to prevent attempts at manipulation become.

In a development of the invention it can be provided that the Plate from its corresponding final state Form is deformed towards the shaft. He can in particular be designed so that he can only exert himself deformed into its final state. When placing by shooting the nail in the insulation holder Insulation material drawn into it, so that when this is applied the plate is deformed back into its final shape which is usually a flat shape. Here you can by simply visually checking whether the insulation holder sitting correctly or not.

For example, the plate can have spring properties. This can be done by selecting the appropriate plastic material and can be achieved by appropriate shaping.

In a development of the invention it can be provided that the front end of the shaft a buffer made of an elastic compressible material is attached, which is also when set correctly, deformed so that the plate lies flat the top of the insulation material.

In the method proposed by the invention, a Insulation holder used in the known manner. The nail is shot in by the bolt gun. This is anchored in Usually the insulation holder. Then the stud wrench removed from the insulation holder. In a separate subsequent work step is now the correct one Seat of the insulation holder checked by a tensile test. The insulation holder is pulled with a force that the Setting direction is opposite. This step can performed by another person, or else from the same person later.

In a development of the invention, it is proposed that the insulation holder is pulled with a force that is greater is incorrect as the holding force of an insulation holder at anchored bolt. The correct holding force at right set bolt is usually at least within broad limits known.

For example, a test bolt can be used for the tensile test through the opening of the plate in the shaft inserted and frictionally with the plate and / or the shaft and / or is non-positively connected.

According to the invention, it can be provided in a further development that the cavity of the shaft at least partially with a Sealant is filled before the tensile test is carried out becomes. In this case, the injection tube can be used for the tensile test of the device with which the sealant is used is filled, for example, the injection tube of the silicone cartridge.

In a further development it can be provided that the frictional engagement and / or the frictional connection is designed such that it by the holding force of an insulation holder at not anchored bolt just exceeding force is releasable.

In a further development of the invention can also be provided be that to generate the pulling force on the insulation holder attached tab that is used over a The predetermined breaking point is formed on the insulation holder. In the predetermined breaking point can be repeated be trained to tear when a force is applied, which is slightly larger than the holding force of the insulation holder if the bolt is not set correctly.

It is possible to design the tab so that it can be used as a Cover for covering the opening of the shaft leading into the shaft Tellers can be used.

Fig. 1

einen schematischen Längsschnitt durch einen Dämmstoffhalter nach der Erfindung;

Fig. 2

einen der Figur 1 entsprechenden Schnitt in einer um 90 Grad verdrehten Ebene;

Fig. 3

eine Darstellung des Tests des korrekter Sitzes eines Dämmstoffhalters bei einer geänderten Ausführungsform;

Fig. 4

eine weitere schematische Darstellung einer zweiten Ausführungsform eines Dämmstoffhalters vor dem Setzen;

Fig. 5

die Ausführungsform der Figur 4 nach dem korrekten Setzen;

Fig. 6

einen der Figur 4 entsprechenden Schnitt bei einer nochmals weiteren Ausführungsform vor dem Setzen;

Fig. 7

die Ausführungsform nach Figur 6 nach dem Setzen.

Further features, details and advantages of the invention will become apparent from the following description of a preferred embodiment of the invention and from the drawing. Here show:

Fig. 1

a schematic longitudinal section through an insulation holder according to the invention;

Fig. 2

a section corresponding to Figure 1 in a plane rotated by 90 degrees;

Fig. 3

a representation of the test of the correct fit of an insulation holder in a modified embodiment;

Fig. 4

a further schematic representation of a second embodiment of an insulation holder before setting;

Fig. 5

the embodiment of Figure 4 after correct setting;

Fig. 6

a section corresponding to Figure 4 in yet another embodiment before setting;

Fig. 7

the embodiment of Figure 6 after setting.

The insulation holder shown very schematically in Figure 1 contains a cylindrical shaft 1, on one of which in Figure 1 upper end of a radially outwardly projecting plate-like Head 2 is molded. The shaft 1 is over the largest Part of its length is hollow. In the so formed Cavity 3 has an opening 4 in the head 2. The cavity 3 is used to attach a fastening bolt before placing the insulation holder 5 record. On the head 2 facing away At the end of the cavity 3 is closed by a flat bottom 6. The shaft is massive starting from this base 6 trained and has a truncated cone-like Outer shape 7. The shaft 1 is in this front region penetrated by an axially extending hole 8 that serves to hold the shaft of the bolt 5. The bolt 5 protrudes into cavity 3 before it is seated. On this part is attacked by a bolt gun.

On the outside 9 of the plate-like facing away from the shaft 1 Head 2 is next to the opening leading into the cavity 3 A tab 11 is formed on a predetermined breaking point 10. The Tab 11 has a circular circumference, which in its Diameter corresponds approximately to the inner diameter of the opening 4. The predetermined breaking point 10 is designed as a very short web, so that it is hardly possible to use the web 10 to use a pair of pliers.

From Figure 2 it follows that the tab 11 over the predetermined breaking point 10 in the immediate extension of the wall of the Shaft 1 is molded. The tab 11 protrudes from the Shank 1 facing away from the front 9 of the plate 2.

The insulation holder, as shown in Figures 1 and 2 is set with a fastener setting tool. This has a barrel in the interior 3 of the shaft is inserted so that a plunger the head 12 of the pin 5th can drive into the ground. After igniting one Propellant charge, the bolt is shot into the ground. The bolt-driving tool is then removed from the cavity 3 of the Pulled out shaft 1.

In a subsequent step, connect immediately or can be carried out later, the now Installer on the tab 11 and pulls it against the Setting direction. If the insulation holder is set correctly, that means if the bolt 5 is firmly anchored in the ground, the tab 11 tears off at the predetermined breaking point 10. The tab 11 can then be used as a lid in the opening 4 to be pushed in. Then the outside of the head is 2 closed. If a layer of plaster is applied, it can this does not penetrate into the interior 3, which leads to an uneven Surface with depressions.

While in the insulation holder shown in Figures 1 and 2 can be pulled on a tab 11, for the test for correct fit in the embodiment Figure 3 uses a test bolt 13. This test bolt 13 has a cylindrical shape with a diameter that is slightly larger than the inside diameter of the cavity 3 of the Shaft. Between the inner wall of the shaft 1 and the test bolt 13 there is a frictional connection, which leads to that at pulling the test bolt 13 out of the opening 4 the insulation holder is pulled against the setting direction. The frictional engagement is dimensioned such that when the bolt 5 the insulation holder made of the insulation layer does not sit in the subsurface is pulled out. That way too the correct fit of the Check the insulation holder.

Instead of a test bolt 13, the injection tube can also be a Device or a cartridge with which the Head 12 of the bolt 5 is sealed with a sealing compound.

FIG. 4 shows an embodiment in which the plate 20 of the otherwise similarly constructed insulation holder one for Has convex shape on the outside. The edge 21 of the plate 20 is therefore closer to the front end of the shaft 1 as the middle range. The plate 20 has spring properties on. So he can be put into the bring flat shape, that of the top 22 of the insulation material corresponds.

If the insulation holder of Figure 4 with a bolt gun attached, the head 12 of the bolt 5 acts on the Bottom 6 of the insulation holder and pulls the insulation holder into the insulation material until the front end of the Shaft 1 rests on the surface. This is the plate 20 deformed so that it is completely on the top 22 of the Insulation material lies on. If the bolt 5 firmly in the Sits underground, which is the correct attachment of the insulation holder represents, you can see this at first glance see the shape of the plate 20.

In the embodiment according to FIG. 6, the plate is again just trained, similar to the embodiment according to Figures 1 to 3. At the front end of the shaft 1 is a buffer 23 arranged one in extension of Has longitudinal bore 8 of the shaft 1 arranged bore 24, through which the bolt 5 can be moved. At the Driving in the nail 5 is the insulation holder again Moved towards the underground. This then leads to one Deforming the buffer 23 into the shape shown in Figure 7. The result is again a state in which the plate 2 of the Insulation holder without space all over on the top 22 of the insulation material rests.

Of course, a combination of the shape of the Plates 20 and the buffer 23 possible.

Claims (17)

Insulation holder, with 1.1 a hollow shaft (1) that
1.1.1 is closed in the region of its one end with the exception of an opening (8) for receiving the shaft of a nail (5), 1.2 a plate (2), the 1.2.1 is arranged at the other end of the hollow shaft (1) and 1.2.2 has an opening (4) leading into the interior (3) of the shaft (1), and with 1.3 a device to check the tight fit of the insulation holder. Insulation holder according to claim 1, with
2.1 a tab (11), the 2.1.1 protrudes from the insulation holder on the side of the plate (2) facing away from the shaft (1) and 2.1.2 is connected to the insulation holder via a predetermined breaking point (10). Insulation holder according to claim 2, wherein the tab (11) is designed as a cover with which the opening (4) of the Plates (2) can be closed. Insulation holder according to claim 2 or 3, wherein the Predetermined breaking point (10) is dimensioned such that their tearing off requires a force that is something is greater than the frictional force between the shaft (1) and the surrounding material. Insulation holder according to one of claims 2 to 4, which the predetermined breaking point (10) is realized in such a way that the tab (11) cannot be used as a cover without tearing it off can be used. Insulation holder according to one of claims 2 to 5, the predetermined breaking point (10) by a short band Plastic is realized that is so short, that between the plate (2) and the tab (11) none Combination pliers can be introduced. Insulation holder according to one of the preceding claims, in which the plate (20) from its the desired Final state corresponding shape towards the Shaft (1) is deformed and designed such that it can only be deformed with effort. Insulation holder according to claim 7, in which the plate (20) Has spring properties. Insulation holder according to one of the preceding claims, with a buffer at the front end of the shaft (1) (23) made of elastically compressible material is. Method for fastening insulation holders, in which

10.1

the shaft (1) of the insulation holder is connected to a bolt-setting tool,

10.2

the insulation holder is fastened using the setting tool and a bolt (5),

10.3

the bolt setting tool from the inserted insulation holder. solved and

10.4

then pull on the insulation holder in the pull-out direction.

A method according to claim 10, in which on the insulation holder is pulled with a force that is slightly larger than the holding force of an insulation holder at not anchored bolt (5). A method according to claim 10 or 11, in which on the insulation holder is pulled with a test bolt (13) which through the opening (4) of the plate (2) into the shaft (1) inserted and with the plate (2) and / or the shaft (1) frictionally and / or non-positively connected becomes. Method according to one of claims 10 to 12, in which the cavity (3) of the shaft (1) before pulling at least is partially filled with a sealing compound. Method according to one of claims 10, 11 or 13, pulled with the injection tube of a filling device is that through the opening (4) of the plate (2) in the Shaft (1) inserted and with the plate (2) and / or the shaft (1) frictionally and / or non-positively is connected. Method according to one of claims 12 to 14, in which the frictional engagement and / or frictional engagement are formed in this way is that it has the holding power of an insulation holder if the bolt is not anchored, straight over Force can be released. Method according to one of claims 10, 11 or 13, the one on the insulation holder via a predetermined breaking point (10) molded tab (11) is pulled. The method of claim 16, wherein the predetermined breaking point (10) is dimensioned such that it can be torn off a force is required that is slightly larger than that Frictional force between the shaft (1) and the surrounding Material.

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