RU125637U1 - Dowel for attaching heat insulating boards (OPTIONS) - Google Patents

Abstract

1. An expansion bolt shield for attaching heat-insulating plates, including a fastener in the form of a rod with a longitudinal hole, made of polymer material in one technological operation, and consisting of a head zone with a clamping disk, remote, on the outer surface of which longitudinal stiffening ribs are made, and a spacer zone and a spacer element, characterized in that at least two longitudinal stiffeners are made on the outer surface of the distance zone so that they protrude above the distance of the distance Noah throughout its dline.2 zone. The dowel according to claim 1, characterized in that four stiffeners are made on the outer surface of the distance zone. The dowel according to claims 1 and 2, characterized in that a bevel is made at the end of the stiffeners. 4. The dowel according to claim 1, characterized in that the holes and / or protrusions are made in the pressure disk. The dowel according to claim 1, characterized in that the spacer element is made of plastic or metal. The dowel according to claim 1, characterized in that the spacer element is a metal or plastic rod or a polyamide rod. The dowel according to claims 1, 5 and 6, characterized in that the spacer element is driven in. 8. The dowel according to claims 1, 5 and 6, characterized in that the spacer element is driven in with notches or with annular notches. 9. The dowel according to claim 1, characterized in that annular grooves are made on the outer surface of the spacer zone. The dowel according to claim 9, characterized in that a longitudinal section of a curved shape is made in the spacer zone, dividing it into two parts so that a plurality of protrusions and indentations are formed. The expansion bolt shield according to claim 10, characterized in that at the end of the spacer zone

Description

The utility model relates to the construction of buildings and structures, in particular, to the fastening of heat-insulating plates to the walls of buildings and structures.

A dowel for attaching heat-insulating plates is described in the prior art, described in patent DE 202005002534 U1, 06.29.2006, which includes a fastening element in the form of a rod with a longitudinal hole, made of polymer material in one technological operation, and consisting of a head zone with a pressure plate, remote, on the outer surface of which longitudinal stiffening ribs are made, and a spacer zone, a striker, which is a rod, and a spacer element. This embodiment allows you to strengthen the distance zone by reducing the likelihood of its deflection during eccentric strikes on the striker, as well as to strengthen the place where the distance zone is connected with the head zone. However, due to the fact that the ribs are located around the perimeter of the distance zone and actually form a cone, the smaller diameter of which corresponds to the diameter of the spacer zone rod, and the distance between the ribs and the shape of their execution do not allow to cut the material of the heat-insulating plate and penetrate this material between them, i.e. . there are no elements that would facilitate the puncture of the material, this embodiment does not provide the function of puncture of the material and leads to its jam; thereby locally increasing the density of the insulating material in a given place, and accordingly, the thermal insulation characteristics of the structure are reduced. In addition, in the presence of edges, i.e. with the consumption of material for their implementation, it is advisable that they perform as many functions as possible. Due to the above-described features, the design of the ribs of the known dowel does not exclude the possibility of the dowel turning during installation of the spacer element, for example, in the case of a spacer element that is capable of independently screwing into the longitudinal hole of the spacer zone of the fastener when driving the hammer. This, unforeseen, rotation of the dowel leads to an increase in labor costs for the installation of the spacer element, and accordingly for the installation of the dowel as a whole.

The objective of the claimed utility model is to create a dowel for attaching heat-insulating plates with the necessary structural strength, achieving such a technical result from its application as increasing the thermal insulation characteristics of structures by eliminating jamming of the material, while reducing the likelihood of the dowel rolling during installation, which simplifies installation .

The claimed technical result according to the first embodiment is achieved by the fact that the expansion bolt shield for attaching heat-insulating plates includes a fastener in the form of a rod with a longitudinal hole, made of polymer material in one technological operation, and consisting of a head zone with a clamping disk, remote, on the outer surface which made longitudinal stiffeners, and the spacer zone, and the spacer element. According to a utility model, at least two longitudinal stiffeners are made on the outer surface of the distance zone so that they protrude above the surface of the distance zone along their entire length.

It is advisable to make four stiffeners on the outer surface of the distance zone. The stiffeners are made with a bevel at the end facing the spacer zone.

Holes and / or protrusions are made in the pressure disk to improve the contact of the coating material with the pressure disk.

The spacer is made of plastic or metal. Moreover, the spacer element is a metal or plastic rod (including polyamide), and is driven with notches or ring notches.

On the outer surface of the spacer zone, annular grooves are made. Moreover, a longitudinal section of a curved shape is made in the spacer zone, dividing it into two parts so that many protrusions and indentations are formed, and a jumper is made between its two parts at the end of the spacer zone. In addition, the parts formed by the cut are fastened together by easily destructible lintels.

In the place of mating of the head zone and the pressure disk, it is advisable to perform stiffeners.

The dowel is additionally equipped with a striker made of a polymer material, which is a rod. At least three annular protrusions are made on the outer surface of the striker, closer to the end facing the spacer element, and the distance between the annular protrusions is from 0.7 to 1.0 of the diameter of the annular protrusions of the striker. An annular bead is made on the end face of the striker facing the spacer element, and on the outer surface of the striker facing away from the spacer element, a thickening is made that forms the head of the striker.

The claimed technical result according to the second embodiment is achieved by the fact that the dowel for attaching heat-insulating plates includes a fastener in the form of a rod with a longitudinal hole made of polymer material in one technological operation, and consisting of a head zone with a clamping disk, remote, on the outer surface which made longitudinal stiffeners, and the spacer zone, and the spacer element. According to a utility model, at least two longitudinal stiffeners are made on the outer surface of the distance zone so that they protrude above the surface of the distance zone along their entire length, said stiffeners being associated with longitudinal stiffeners made on the head zone.

It is advisable to carry out four stiffeners on the outer surface of the distance zone, and the stiffeners are made with a bevel at the end facing the spacer zone.

In addition, holes and / or protrusions are made in the pressure disk to improve the contact of the coating material with the pressure disk. On the outer surface of the spacer zone, annular grooves are made. A longitudinal section of a curved shape is made in the spacer zone, dividing it into two parts so that many protrusions and indentations are formed, and at the end of the spacer zone, a jumper is made between its two parts.

Figure 1 - dowel in the first embodiment (section)

Figure 2 - dowel according to the first embodiment (breakdown into zones along the length)

Figure 3 - dowel in the second embodiment

The expansion bolt shield for attaching heat-insulating plates includes a fastener in the form of a rod of various diameters in length, with a longitudinal hole, various diameters in length, made of polymer material in one technological operation, and consisting of a head zone 3 having the largest diameter in which accordingly, the longitudinal hole has the largest diameter associated with the clamping disk 1, the distance zone 4, on the outer surface of which longitudinal ribs are made, and the spacer zone 5, having the smallest meter, in which, accordingly, the longitudinal hole has the smallest diameter, and a spacer element (missing in the drawing). According to the claimed device, on the outer surface of the distance zone 4, at least two longitudinal stiffeners 7 are made, located in one plane passing through the longitudinal axis of the rod, so that they protrude above the surface of the distance zone along its entire length. With this embodiment, elements appear on the outer surface of the dowel rod to allow an incision of the heat-insulating material at the points of contact of the ribs 7 with the material, which will ensure easier penetration of the rod into the material, eliminating jamming and compaction of the material in this place, thereby not changing the thermal insulation characteristics of the material at the installation site of the dowel, and accordingly will increase the heat-insulating characteristics of the structure as a whole, compared with a structure in which known similar dowels are used. Moreover, due to the fact that the ribs 7 protrude above the surface of the rod and are located after the installation of the dowel, due to cutting the material in the body of the material, i.e. they are held on both sides of the ribs 7, stops appear that prevent the dowel from turning around its longitudinal axis when mounting the spacer element. In addition, if we extend the longitudinal stiffeners 7 to the head zone 3, which has a maximum diameter, thereby performing on the head zone 3 longitudinal stiffeners 8, conjugated with the longitudinal ribs 7 on the distance zone 4, in addition to the function of cutting the heat-insulating material, together the transition from a smaller diameter of the rod to a larger one, an increase in the contact area of the stiffeners 7 and 8 with the heat-insulating material will be achieved, which will reduce the likelihood of rolling the dowel and at the same time increase the strength of station zone.

In addition to the above advantages, the claimed design has one more. This embodiment of the ribs 7 allows you to make a limiter, preventing excessive deepening of the dowel in the hole, when making holes longer than necessary. This not only eliminates the crushing of material in the area around the clamping disk 1, and accordingly, a decrease in its thickness and, consequently, an increase in density at the installation site of the dowel, but also simplifies the installation of the dowel to the required depth.

It is advisable on the outer surface of the distance zone 4 to perform four stiffening ribs 7 located perpendicular to each other. Thus, the number of stops increases and the stiffness of the rod increases.

In addition, if the stiffeners 7 are made with a bevel at the end facing the spacer zone 5, it is possible to facilitate the entry of the ribs into the insulating material, thereby facilitating the installation of the dowel, because the force required to install the dowel in the hole is reduced.

In the clamping disk 1, holes and / or protrusions can be made to improve the contact of the coating material with the clamping disk 1, which will increase the service life of the structure.

The spacer element is usually made of plastic or metal. Moreover, it is a metal or plastic rod (including polyamide), and is driven driven with notches or ring notches.

On the outer surface of the spacer zone 5, annular grooves are made, and in the spacer zone 5, a longitudinal section of a curved shape is made, dividing it into two parts so that a plurality of protrusions and depressions are formed. This embodiment contributes to the most durable fixing of the dowel in the hole in the supporting structure after the installation of the spacer element, and accordingly allows you to create the maximum force for dismantling the dowel.

At the end of the spacer zone 5, a jumper is made between its two parts, and the parts formed by the cut are fastened together by easily destructible jumpers, this eliminates the opening of the halves of the spacer zone 5 before installing the dowel in the hole.

In the place of pairing of the head zone 3 and the clamping disk 1, it is advisable to perform stiffeners; this will increase the contact area of the lower surface of the clamping disk with the rod, thereby increasing the strength of the mounting of the clamping disk to the dowel rod.

The dowel is additionally equipped with a striker 2 made of polymer material, which is necessary for mounting the spacer element and sealing the cavity, if the spacer element does not have a head that performs this function. At least three annular protrusions 6 are made on the outer surface of the striker 2, closer to the end facing the spacer element, and the distance between the annular protrusions 6 is from 0.7 to 1.0 of the diameter of the annular protrusions 6 of the striker 2. This the implementation will allow the striker 2 to self-center when entering the longitudinal hole of the rod, which will simplify and speed up the installation of the dowel. Moreover, at the end of the striker 2, facing the spacer element, it is possible to make an annular collar that will interact with the end of the spacer element, and, accordingly, their better interaction with each other and centering relative to each other. In addition, on the outer surface of the striker 2, facing away from the spacer element, a thickening is performed that forms the hat of the striker, which helps to seal the cavity when the end of the striker 2, which strikes, is aligned with the surface of the pressure disk 1.

The dowel for fixing heat-insulating plates works as follows.

The dowel is inserted into the hole in the wall, on which the thermal insulation plate with the corresponding coaxial hole is applied. Then, in the longitudinal hole of the dowel, a spacer element is installed. There are various types of spacer elements, for example, with a head a sealing cavity or a spacer element, which is a rod, on the end of which an element is made that prevents the spacer element from penetrating further than necessary by abutment in the shoulder made in the dowel hole at the interface between the head and the remote zones. The most optimal option, from the point of view of material saving, as well as the convenience of completing, is a spacer element, which is a rod, at the end of which an element is made that prevents the spacer element from penetrating further than necessary. However, for the installation of such a spacer element, a hammer 2 is required that interacts with the spacer element. After installing the spacer element, the firing pin 2 is installed in the hole and strike, after which the firing pin 2 is installed in the working position, i.e. flush with the surface of the pressure plate 1, pushing the spacer element to the required depth.

The claimed dowel is easily manufactured using known equipment and known methods.

Claims (25)

1. An expansion bolt shield for attaching heat-insulating plates, including a fastener in the form of a rod with a longitudinal hole, made of polymer material in one technological operation, and consisting of a head zone with a clamping disk, remote, on the outer surface of which longitudinal stiffening ribs are made, and a spacer zone and a spacer element, characterized in that at least two longitudinal stiffeners are made on the outer surface of the distance zone so that they protrude above the distance of the distance Noah along its entire length zone. 2. The dowel according to claim 1, characterized in that four stiffeners are made on the outer surface of the distance zone. 3. The dowel according to claims 1 and 2, characterized in that the bevel is made at the end of the stiffeners. 4. The dowel according to claim 1, characterized in that the holes and / or protrusions are made in the pressure disk. 5. The expansion bolt shield according to claim 1, characterized in that the spacer element is made of plastic or metal. 6. The expansion bolt shield according to claim 1, characterized in that the spacer element is a metal or plastic rod or a polyamide rod. 7. The dowel according to claims 1, 5 and 6, characterized in that the spacer element is driven in. 8. The expansion bolt shield according to claims 1, 5 and 6, characterized in that the spacer element is driven in with notches or with annular notches. 9. The dowel according to claim 1, characterized in that annular grooves are made on the outer surface of the spacer zone. 10. The dowel according to claim 9, characterized in that a longitudinal section of a curved shape is made in the spacer zone, dividing it into two parts so that a plurality of protrusions and indentations are formed. 11. The dowel according to claim 10, characterized in that a jumper is made between its two parts at the end of the spacer zone. 12. The dowel according to claims 10 and 11, characterized in that the parts formed by the cut are fastened together by easily destructible lintels. 13. The dowel according to claim 1, characterized in that in the place of pairing of the head zone and the pressure disk, stiffening ribs are made. 14. The dowel according to claim 1, characterized in that it is additionally equipped with a striker made of a polymer material, which is a rod. 15. The dowel according to claim 14, characterized in that at least three annular protrusions are made on the outer surface of the striker, closer to the end facing the spacer element. 16. The dowel according to claim 15, characterized in that the distance between the annular protrusions is from 0.7 to 1.0 of the diameter of the annular protrusions of the hammer. 17. The dowel according to clause 16, characterized in that on the outer surface of the striker, facing away from the spacer element, a thickening is made that forms the cap of the striker. 18. The dowel according to claims 14-17, characterized in that an annular bead is made at the end of the striker facing the spacer element. 19. An expansion bolt shield for attaching heat-insulating plates, including a fastening element in the form of a rod with a longitudinal hole, made of polymer material in one technological operation and consisting of a head zone with a clamping disk, remote, on the outer surface of which longitudinal stiffening ribs are made, and a spacer zone, and a spacer element, characterized in that at least two longitudinal stiffeners are made on the outer surface of the distance zone so that they protrude above the distance surface hydrochloric area throughout its length, said ribs are associated with longitudinal ribs formed on the head area. 20. The dowel according to claim 19, characterized in that four stiffeners are made on the outer surface of the distance zone. 21. The dowel according to claims 19 and 20, characterized in that a bevel is made at the end of the stiffeners. 22. The dowel according to claim 19, characterized in that the holes and / or protrusions are made in the pressure disk. 23. The dowel according to claim 19, characterized in that annular grooves are made on the outer surface of the spacer zone. 24. The dowel according to claim 23, characterized in that a longitudinal section of a curved shape is made in the spacer zone, dividing it into two parts so that a plurality of protrusions and recesses are formed. 25. An anchor according to claim 24, characterized in that a jumper is made between its two parts at the end of the spacer zone.

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