DE102010051322B4 - Device for clamping and load-constant holding of building parts - Google Patents

Abstract

Device for clamping and load-constant holding of building parts, wherein a housing tube (1) by means of a socket (2) is closed and the housing tube (1) comprises a spring (6) on a round rod (3), characterized in that a second rod ( 13) is connected to the round bar (3), that the second bar (13) on the other hand with one side of a clamping element (11) is connected and that the other side of the clamping element (11) is connected to a fastening element (23), wherein the Housing tube (1) is designed to lamellar for better adhesion in the masonry.

Description

The invention relates to a device for clamping and load-constant holding of building parts, in particular of historical masonry.

Many buildings must be structurally secured and reinforced in the course of conservation and conversion measures. It often plays the tension and support, z. As of masonry, steel, reinforced concrete and timber structures with steel components and other forms of construction, a major role. Common are often rigid structures that usually no longer meet today's requirements.

In the course of various investigations it was clearly established that such construction forms (components) as a result of changes in shape, such. As moisture and temperature expansions, creep and relaxation processes, as well as dynamic stresses that can not fully meet the voltage specified by the structural designer voltage state. In addition, it may u. a. come from the processes described above to extreme voltage fluctuations in the load-introducing area. For example, to secure vaults, tie rods or compression and compression struts are currently used. The load changes that occur in these fuse elements can lead to the complete loss of voltage and thus to the lack of functionality of these components. If necessary, the static load-bearing system of a building can be completely changed. The load changes or voltage changes in these designs can currently be measured only with great effort.

From the JP 2002 364 071 A a column fastening device is known, which comprises a closed housing tube by means of a socket, wherein the housing tube includes a spring on a round rod. In this case, the round rod is connected to one side of a clamping element, wherein a remaining side of the clamping element is connected to a fastening element.

The object of the invention is to provide a device for clamping and constant load holding parts of buildings, which makes it possible to adjust the load in a construction as constant as possible to hold and on request also display a measuring device and even with fluctuations due to dynamic loads ( eg small earthquakes, peal bells, temperature and humidity changes, wind loads) to keep the load given to the constructive component constantly almost constant.

According to the invention the object is achieved by the device according to claim 1. Embodiments of the invention are shown in the subclaims.

The advantage of the invention is to keep building structures (eg vaults, walls, roof structures and other building constructions) permanently, even in the event of fluctuations due to small earthquakes, temperature fluctuations and other influences in a firmly defined state of stress. This also applies to constructions in structures (eg drilling platforms and bridges) that are exposed to constant dynamic loads.

The invention will be explained in more detail with reference to an embodiment. The accompanying drawing shows

1 : an isometric view of a device according to the invention with a cladding tube,

2 : an isometric view of a device according to the invention without a jacket tube,

3 : the longitudinal section through the device according to the invention,

4 : a detail of 3 .

5 a section through the built-in masonry device according to the invention and

6 : an application example.

In the 1 and 2 a device for clamping and load-constant holding of building parts or a device for tension regulation of tension elements is shown, in 1 with a sheath and in 2 without this cladding. They show a housing tube 1 with a socket 2 , In the embodiment, the socket 2 a threaded bush. To the socket 2 closes in 1 a cladding tube 9 with an inserted cover tube lid 20 at. For fixing the cladding tube cover 20 in the cladding tube 9 an O-ring 21 arranged. The cladding tube 9 is by means of cylinder screws 22 at the socket 2 appropriate. From the cladding tube lid 20 protrudes with a clamping element 11 connected fastener 23 , In the embodiment, the fastener 23 a threaded rod, but it can also be a rod with threads only at the ends, a pipe, a rope and so on. In 2 the cladding tube is missing 9 , so that the clamping element 11 you can see. At the other end of the housing tube 1 protrudes from this a first pole 7 with thread at least at one end. This rod 7 is a threaded rod in the embodiment. Depending on the application, this rod can 7 also omitted.

2 shows through the missing cladding 9 the parts underneath. The fastener 23 is over the clamping element 11 with a second pole 13 connected, in turn, into a round rod 3 in the housing tube 1 protrudes. Also this rod 13 For example, may be a threaded rod or a rod with threads only at the ends. The tensioning element 11 is a threaded sleeve, in the exemplary embodiment, a threaded sleeve with internal thread, which can be rotated by means of a key. In the exemplary embodiment, the jacket tube cover is pulled 20 from the cladding tube 9 and insert, for example, a longitudinally slotted or two-piece special key on the fastener 23 , Then push the key into the cladding tube 9 except for a take away 8th , For example, a hexagon, from the clamping element 11 , In the embodiment, the clamping element 11 from the threaded sleeve with a welded-on scale tube 10 with markings, for example at a distance of 5 mm. This scale tube 10 may be slotted and serves through the outer plan side of the cladding tube cover 20 as a reading aid for the adjusted clamping force or the movement of the component. The scale of the scale tube 10 can be further developed by electronic measuring aids, which make it possible to record the change in shape constantly via appropriate measuring instruments. However, the device can also be equipped with an electronic measuring device, which allows to detect the state of stress in a system long-lasting. Depending on the direction of rotation of the clamping element 11 become the second rod 13 and the fastener 23 turned to each other or away from each other. This can be the tension of a spring 6 . 3 , pre-set according to application or field of application. In the embodiment, the spring 6 a screw plate spring. But it can also be a compression spring o. Ä.

The housing tube 1 In the exemplary embodiment, this is a high-grade stainless steel tube which is turned out on the circumference in such a way that lamellar projections remain standing. These fins are used to the composite of the housing tube 1 and thus to allow the load to be introduced into the surrounding material (eg masonry, concrete or the like). The cladding tube 9 may also be formed lamellar on the outer circumference, so that the adhesion of the device is further improved in the installed state.

3 shows the device according to the invention in longitudinal section, 4 shows a detail of this. At the side of the first pole 7 consists of the housing tube 1 so far from solid material that in it the first pole 7 can be attached. Here, the housing tube 1 be integral, then the inner diameter of the housing tube would be 1 to unscrew from the solid material so far that a housing cover for fixing the first rod 7 or stops to screw in a threaded rod. In the embodiment, the housing tube 1 made of pipe material to which a housing cover for receiving the first rod 7 welded, he could also be a screw cap. For example, in the housing cover of the housing tube 1 Screwed threaded rod is additionally with a nut 5 secured against loosening. This threaded rod is adjusted on site so that, only one plate 25 and a mother 5 sitting on the opposite wall, but they can also be embedded in this. Depending on the application, the housing cover or housing tube can also be used 1 be attached to the opposite wall.

In the housing tube 1 is a round rod 3 arranged. In the housing tube 1 is the socket 2 screwed in, sealing with an O-ring 17 , Around the rod 3 is in the housing tube 1 between two hardened slices 12 on the side of the socket 2 and a hardened disc 12 at the guide disc 4 the feather 6 arranged. The hardened discs 12 prevent when tensioning or relaxing the spring 6 snagging the ends of the spring 6 on the plane surface of the socket 2 and the guide disc 4 , The scraper 14 protects the penetration of dust and dirt on the round rod 3 in the socket 2 , The seal 15 Prevents leakage of anti-corrosion agent (grease) from the tension regulator. The leader band 16 the round rod is stored 3 in the socket 2 and the piston guide band 19 stores the guide disc 4 in the housing tube 1 , The tensioning element 11 is with the second rod 13 , the round rod 3 and a guide disc 4 firmly connected to each other, for example screwed, glued and additionally with grub screws 18 secured. The other end of the fastener 23 , here a threaded rod, is firmly anchored in an opposite, not shown, building part, thus moves during clamping only the connection between this threaded rod and the clamping element 11 , The cladding tube 9 and the second rod 13 are adjusted by the building to the building thickness.

5 shows a section through a built-in masonry device according to the invention for clamping and / or holding parts of buildings, called short tension regulator. He is so far incorporated into the masonry or the like, that at most the first rod 7 protrudes. This is adjusted by the customer so that when the rod 7 a threaded rod is just one plate 25 and a mother 5 sitting on the opposite wall or is embedded in it, analogous to the application according to 6 ,

6 shows a built-in device according to the invention for tensioning and / or holding a vault or archway. In this application, the fastener 23 with an extension 24 connected, for example, welded. Of course, the fastener would have 23 can be so long that no extension 24 would have been necessary. The outer ends of the first rod 7 and the extension 24 are anchored to the outer wall of the vault, for example by a plate 25 and a mother 5 ,

A tension regulator constantly regulates the required force, for example, to permanently tension taut vault arches, even with fluctuations caused by small earthquakes, temperature fluctuations and other influences. The tension regulator is characterized by a one-sided embedded in the masonry, encapsulated spring, which is secured by a top plate on one side and a mortar on the opposite side, from. The tension regulator can be installed in structurally supporting tension elements (eg tie rods and tension supports) to ensure a uniform state of stress in these elements during static (eg relaxation and creep) and dynamic loads (eg vibrations from earthquakes, bells as well as moisture and temperature expansions, wind loads) over a long period of time. Depending on the application, the tension regulator can be installed visibly in the support system or not visible in a component (eg wall recess). The tension controller can be readjusted within specified load limits and, depending on the object-specific conditions, can be installed directly or subsequently in the existing support system. The load entry from this support system into the surrounding material can take place via a composite effect by means of special composite mortar into the load-bearing component (eg masonry wall, concrete construction) or via contact connection (eg with tie rods via top plates). The selection, the dimensioning and the outer design of the clamping force regulator must be made to the particular application, the dimensioning of the spring 6 is selected according to the tensile load to be absorbed. The tension regulator can be completely installed in the masonry or completely outside. Another application for the clamping force regulator would be the installation in the stabilization system of an oil rig, as well as in freestanding masts such. As transmission towers, antennas or towers.

LIST OF REFERENCE NUMBERS

1

housing tube

2

Rifle

3

round bar

4

guide disc

5

Hex nut

6

feather

7

first pole

8th

entrainment

9

cladding tube

10

scale tube

11

clamping element

12

disc

13

second pole

14

scraper

15

poetry

16

guide band

17

first O-ring

18

Set screw

19

Wear ring

20

Cladding tube cover

21

second O-ring

22

cylinder head screw

23

fastener

24

renewal

25

plate

Claims (10)

Device for clamping and load-constant holding of building parts, wherein a housing tube ( 1 ) by means of a socket ( 2 ) is closed and the housing tube ( 1 ) a feather ( 6 ) on a round rod ( 3 ), characterized in that a second rod ( 13 ) with the round rod ( 3 ), that the second rod ( 13 ) on the other hand with a side of a clamping element ( 11 ) and that the other side of the clamping element ( 11 ) with a fastening element ( 23 ), wherein the housing tube ( 1 ) is lamellar for better adhesion in the masonry. Device according to claim 1, characterized in that the spring ( 6 ) is a helical spring. Device according to claim 1 or 2, characterized in that the fastening element ( 23 ) is a threaded rod or a rope with at least one threaded end. Apparatus according to claim 1 or 2, characterized in that the housing tube ( 1 ) with a first rod ( 7 ) connected is. Device according to one of claims 1 to 4, characterized in that the clamping element ( 11 ) has an internal thread and for turning a takeaway ( 8th ) contains. Device according to one of claims 1 to 4, characterized in that the clamping element ( 11 ) on the output side for reading the set spring force with a graduated tube ( 10 ) is extended or that an electronic measuring arrangement is arranged. Device according to one of claims 1 to 6, characterized in that the clamping element ( 11 ) and the second rod ( 13 ) of a cylindrical cladding tube ( 9 ) with a cladding tube lid ( 20 ) are enclosed. Device according to one of claims 1 to 7, characterized in that the bushing ( 2 ) is a threaded bush, and that the second rod ( 13 ) at least on the side of the bush ( 2 ) for screwing into the round rod ( 3 ) has a thread. Device according to one of claims 1 to 8, characterized in that the clamping element ( 11 ) has an internal thread and that both the second rod ( 13 ) as well as the fastener ( 23 ) at least on the side of the clamping element ( 11 ) for screwing into the clamping element ( 11 ) have a thread. Device according to one of claims 7 to 9, characterized in that the cladding tube ( 9 ) is lamellar for better adhesion in the masonry.

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