DE19518271A1 - Measuring device for testing adhesion between building blocks and cementing material - Google Patents

Abstract

An adjustable frame (2) is placed between two blocks (9). An adjustable vertical pole (3) is slid towards the cementing medium (10). At the top of the pole (closest to the medium) is a punch (1) which pushes down on the medium. A specified force (F) is generated from a disc (8) and is measured by the dynamometer (7). A spring (6) ensures equal force distribution.

Description

The invention relates to a device for checking the flan Liability of joint material in building joints.

It is known to use the jointing material in structural joints Flank adhesion and thus visu on its sealing effect ell by means of positive or negative pressure processes or with simple mechanical aids, for example wood spatulas to check. In the visual inspection, only the Surface quality can be assessed. In the case of or vacuum test method becomes a test bell sealingly placed on a limited joint area, and the inside of the test bell is then covered with a relation wise vacuum applied. There will be leaks in the joint thereby by penetration of liquid or Blistering visible. The required sealing of the Test bell against the surface of the structure limits the Possible application of this method. This is especially true for uneven parts of buildings and structures where the Joint material is arranged lowered in the joint, so that a seal simply by putting the bell on is achievable. In addition, the procedural upside  wall for applying the positive or negative pressure big. Simple mechanical test methods where for example using wooden spatulas or other objects scratches or pressure is not comparable test results and can lead to the destruction of the joint ren.

The invention has for its object a device for Checking the sidewall adhesion of joint material under construction to develop factory joints which are reliable and ver comparable test of the side adhesion of the joint material used sealing materials, which univer sell can be used, requires little effort and one Avoids damage to an intact joint.

To solve this task, a device for checking the Flank adhesion of grouting material in building joints is preferred propose which, according to the invention, is characteristic of Part of claim 1 mentioned features.

Further embodiments of the invention are in the Unteran called sayings.

The invention provides a test device, which he possible, processing or material defects di rect on site quickly and independently of the sub determine the jective assessment by the examiner and to enable quality assurance that long-term damage of structures and environmental damage caused by leaky joints for example structures for water protection, such as Auf reception rooms and filling stations, prevented.

The invention will be explained in more detail with reference to the exemplary embodiment of an edge tester according to the invention, which is shown schematically in the figure:
In the figure, 9 denotes two adjacent parts of a building, the joint 10 between the two building parts 9 being sealed by joint material 4 . A test stamp 1 , which is preferably interchangeable, is guided in a height-adjustable frame 2 , which is placed with its feet 2 a on the structure 9 so that the test stamp is located above the joint 10 . The test stamp is located at the lower end of a vertically movable guide rod 3 . The frame 2 is adjustable in height and is adjusted so that the test stamp just touches the joint material 4 .

At the end of the guide rod 3 facing away from the joint 10 there is a plate 8 for introducing a force F to be exerted on the joint. The force can usually be applied by hand. To measure the force transmitted to the joint, a force measuring device 7 is inserted into the course of the guide rod 3 .

When used, the test device is placed over the joint so that the test stamp is perpendicular to the middle of the joint. By adjusting the height of the stamp 1 is then unloaded so far to the joint material that it just touches it. Then a predetermined force is exerted on the plate 8 and thus on the joint, the size F of which can be read on the force measuring device 7 . The feed of the stamp creates a defined tensile stress on the joint flanks depending on the stamp shape, the joint width and the applied force. If the side adhesion is insufficient, a separation crack is formed between the building part 9 and joint material 4 .

In order to easily dose the test force F to be applied to the joint and to be able to safely apply it to the desired size even by inexperienced persons, a spring device, for example a helical spring 6 , is inserted into the course (force path) of the guide rod 3 , and the longitudinal adjustability of the above said spring means located part 3 a of the guide rod 3 by an adjustable stop 5 a, 5 b adjustable. The stop consists of a fixed on the frame first stop part 5 a and a rod attached to the guide second stop part 5 b. At least one of these stop parts is adjustable relative to the frame or to the guide rod in the direction of the joint. In this version, the correct height of the test stamp is applied before the force is applied by adjusting the height of the frame. The possible pressure path is set by the stop so that when the stop position of the stop is reached, the spring device is compressed to such an extent that the desired force is exerted on the joint.

Since the force measuring device can be a hindrance after using the necessary force when using the test device, it can be removably arranged in the guide rod 3 .

The adjustment of the test stamp to the surface level of the joint material of the joint can also be made possible, instead of by adjusting the height of the frame 2 , in that the guide rod 3 is adjustable in length, for example by means of a lockable telescopic design, the length adjustment mechanism between the stop 5 a, 5 b and the test stamp 3 is arranged.

Claims (6)

1. Device for checking the side adhesion of joint material in structural joints, characterized in that

• - That a frame ( 2 ) which can be set up above the joint is present, in which a guide rod ( 3 ) is arranged so as to be displaceable in the direction of the joint
• - That at the end of the guide rod ( 3 ) facing the joint there is a test stamp ( 1 ),
• - That at the end of the guide rod ( 3 ) facing away from the joint there is a force introduction device, for example a plate ( 8 ), via which a force exerted on the joint material ( 10 ) can be introduced,
• - And that in the course of the guide rod ( 3 ) a force measuring device ( 7 ) for measuring the force transmitted by the guide rod ( 3 ) can be used.

2. Apparatus according to claim 1, characterized in that for metering the force to be exerted on the joint material in the course of the guide rod ( 3 ) a spring device ( 6 ) is inserted and the longitudinally adjustable speed of the part located above the spring device ( 3 a) Guide rod ( 3 ) is adjustable by an adjustable stop ( 5 a, 5 b). 3. Apparatus according to claim 1 or 2, characterized in that the frame ( 2 ) is height adjustable bar. 4. Device according to one of the preceding claims, characterized in that the guide rod ( 3 ), for example by a lockable Te leskopausführung, is adjustable in length, wherein in the presence of a stop ( 5 a, 5 b) of the length adjustment mechanism between the stop ( 5 a, 5 b) and the test stamp ( 1 ). 5. Device according to one of the preceding claims, characterized in that the test stamp ( 1 ) is interchangeable. 6. Device according to one of the preceding claims, characterized in that the force measuring device ( 7 ) is removably arranged in the guide rod ( 3 ).