DE4127393A1 - Mechanical stress measurer for mounting, partic. pipe clamp - contains strain gauge mounted on flexible part arranged between parts attached to mounting - Google Patents

Abstract

First (6a) and second (6b) parts are component connected together and separated only by a flexible component (8). Each part has a device for attaching it to the mounting. The flexible component carries a strain gauge (9) connected to an evaluation unit. The parts are U-shaped to enclose the mounting. Each has opposing attachment devices working in opposite directions for holding it on the mounting. The flexible component is arranged in the direction of action of the attachment devices. USE - Measuring instantaneous mechanical stresses.

Description

The invention relates to a device for measuring the mecha African voltage in a holder, especially in a Pipe clamp. It also relates to a method for measuring the mechanical tension.

Brackets are known for carrying loads. With a such bracket can be a load on a part of the building be consolidated. A common application is a pipe clamp. Pipe clamps are used to attach pipes To fasten parts of the building.

Load displacements are caused by friction from the bracket finally added. A pipe clamp grips by friction Strains and displacements of the held pipe in pipe in the longitudinal direction and in the circumferential direction of the pipe. Such stretches and shifts can be based on movements of the building Thermal expansion of the pipe material, on the flow of the pipe moving medium and also to other causes be performed.

So that a frictional connection between the load and the holder, in particular between the pipe and the pipe clamp, the bracket be mechanically clamped. Such tension will arise the bracket or the pipe clamp during assembly of the Load or the pipeline applied. To do this, attachments nuts, for example with a torque wrench screwed. The nuts hold the load on the bracket in turn with suitable means on a support structure, at for example, is attached to a part of the building.  

Even if the required mechanical Tension of the bracket has been set exactly through movements of the load or the supporting structure after a short time a change in the voltage will occur. From this, a change in the frictional engagement and a ver follow reduced stability of the bracket.

The invention was based on the object of a device admit that allows the current mechanical tension in a holder, especially in a pipe clamp measure up. It is also intended to be a suitable method for measuring the mechanical tension can be specified in a holder.

The first object is thereby ge according to the invention resolves that a first and a second body are spaced apart is only connected by a bent part, that each of the two bodies fasteners for fastening the body has on the bracket and that on the bend Part of a strain gauge is arranged with a Evaluation unit is connected.

After attaching to a bracket, the two bodies grip each at a different location on the bracket. At a Changes in the mechanical tension in the bracket act from there forces on the two bodies, which lead to the fact that the bent part that connects the two bodies is bent becomes. This deflection is right through the strain gauge registered. An evaluation unit is used for evaluation the strain gauge is connected. There can also be a Be Calculation of the mechanical tension using a previously agreed calibration function.

A pipe clamp expands due to the stress caused by the Pipeline. The mechanical tension of the pipe clamp leaves doing after. There is also a change in length of the part piece of the pipe clamp, which is between the two bodies  the measuring device. Since the fasteners on the Pipe clamp are firmly locked, leads to the change in length a bending of the bent part. The bending of the bent part is a measure of the change in length of the section of the pipe clamp and thus for the change in tension of the pipe clamp. If the bent part is significantly thinner than the bracket, is the bending path is so large that it has a strain gauge is particularly easy to grasp.

With the device according to the invention, he is the advantage aims that with simple means the mechanical tension in a bracket, especially the tension of a pipe clamp, can be constantly measured and monitored. It acts on due to the measuring device only a negligibly small one additional force on the bracket since the bent part the device with only a small acting Force is bent, with the stretch mounted on it measuring strip appeals. The device is on a bracket, that holds a load to assemble quickly.

Through the simple and inexpensive continuous over can monitor the mechanical tension in a holder Changes in the stability of a bracket early on be recognized. The device according to the invention is ins special use on pipe clamps, the dangerous media carry leading pipelines.

For example, the body of the device is U-shaped Recording the bracket formed, with each body other opposite and oppositely acting Be has fixing means for locking on the bracket. Such a device is good on a cylindrical one Bracket, especially on a side member of a pipe clamp to assemble. every U-shaped body encompasses it the bracket part from three sides. The opposite  opposite fasteners allow the body to be fixed to the bracket.

For example, the bent part in the device is so orien tiert that it is in the direction of action of the fasteners extends. After assembling the device according to the Erfin extension on a bracket so the bent part perpendicular to the bracket. With such an orientation the advantage achieved that with a change in length of the stop large bending of the bent part is achieved. Man this gives good measuring accuracy. It is also possible that the bent part at an angle to the direction of action the fastener is oriented.

The fastener is, for example, a screw that is guided in a thread in the body. With two opposite Lying screws can attach each of the bodies to the bracket can be easily locked.

The second task, a method of measuring mechanical Specifying tension in a bracket is according to the Erfin solved by the fact that on a bent part, the two of each other other spaced on the bracket body ver binds, measured the bending elongation and from it the mechanical Voltage in the bracket is calculated. With this ver driving causes a change in the mechanical tension in the bracket that causes the bracket to stretch, a bending of the bent part. The procedure according to the The invention advantageously enables simple means a fast, reliable measurement of the mechanical tension in a holder. It is particularly used for measuring the mechanical tension in a pipe clamp, the one pipe carrying dangerous medium.

For example, during the assembly of the bracket mechanical stress continuously  measured. The voltage is changed until a setpoint is reached. The tension changes take place on a pipe clamp during assembly by tightening or loosening the fastening lock nuts. With the method according to the invention advantageously a desired setpoint for the mechani cal tension in the holder with simple means put.

Around a mounted bracket, especially a pipe clamp, to check, for example, the mechanical tension in the Bracket reduced by loosening the fastening nuts. The course of the mechanical tension is registered. A comparison of this voltage curve with a target curve gives a reliable indication of the state of the stops tion. A bracket can therefore be in good time in front of you possible defect can be replaced.

According to another example, it can be used to identify an unsung usual loading of the bracket or damage to the Bracket the mechanical tension can be registered continuously. An unusual voltage change compared to a setpoint can then immediately suggest a defect, so that timely the damaged bracket can be replaced.

With the device and with the method according to the invention the advantage is achieved that one holder, in particular a pipe clamp with simple means continuously on their verver casualness can be checked. The device can permanently installed, but can also be quick for a measurement assembled and disassembled. Such a review or monitoring is particularly necessary when the Bracket is a pipe clamp that carries a pipe that is a dangerous medium. It can be a pipe of the Act primary circuit of a nuclear power plant.

The invention is explained in more detail with reference to the drawing:

Fig. 1 shows a pipe clamp with a device for measuring the mechanical tension.

Fig. 2 shows a device for measuring the mechanical tension on a pipe clamp.

FIG. 3 shows a top view of the device and the pipe clamp in FIG. 2.

1 to fasten a pipe 1 to a building part 2 , a pipe clamp 3 is used as a holder. The pipe clamp 3 consists of an upper part 3 a and a lower part 3 b, which is bent in a U-shape. The upper part 3 a is connected to the part of the building 2, for example on a mounting rail 4, which is fixed by screws and dowels to the building part. 2 The lower part 3 b comprises the pipe 1 to be held and is attached to the upper part 3 a by two retaining nuts 5 . The mechanical tension of the pipe clamp 3 and consequently the force with which the pipe 1 is held by the pipe clamp 3 is determined by the torque with which the retaining nuts 5 are tightened.

For measuring the mechanical tension in the pipe clamp 3 are on the lower part 3 b opposite to each other and disposed opposite from the retaining nuts 5 gauges 6 available.

Fig. 2 shows the structure of a measuring apparatus. 6 It consists of a first body 6 a and a second body 6 b. Both are U-shaped and can include the lower part 3 b of the pipe clamp 3 from three sides. Both bodies 6 a, 6 b have fastening means, generally screws 7 , for locking the measuring device 6 on a holder, in particular on the pipe clamp 3 . The screws 7 are in pairs opposite and oppositely directed in threaded holes in the measuring device 6 against the pipe clamp 3 . The measuring device 6 is locked on the pipe clamp 3 by bringing two opposite screws 7 to the pipe clamp 3 . Corresponding pairs of screws 7 are present in the first body 6 a and in the second body 6 b of the measuring device 6 . The first body 6 a extends with a lower section at a distance next to an upper section of the lower body 6 b. This next to each other running sections connecting a bent part 8 is arranged on both sides of the pipe clamp 3 . Each bending part carries one or more strain gauges 9 .

Fig. 3 shows a plan view of the U-shaped first body 6 a. This includes the lower part 3 b of the pipe clamp 3rd For locking the body 6 a on the pipe clamp 3 serve two opposing opposite screws 7th The screw ben 7 are inserted into threaded holes in the body 6 a so far that their tips lock the body 6 a on the lower part 3 b of the pipe clamp 3 .

The mechanical tension of the lower part 3 b of the pipe clamp 3 according to FIG. 1 is brought about by the retaining nuts 5 . By pulling on the retaining nuts 5 , the mechanical tension of the lower part 3 b is increased. The measuring devices 6 serve to determine the mechanical tension. Changes in the mechanical tension are registered. Such a change in the mechanical tension of the pipe clamp 3 leads to a change in the length of the lower part 3 b. As shown in FIG. 2, the two body 6 a and 6 b of a measuring device 6 by means of screws 7 are locked firmly to the tube clamp 3, a stretching or compression leads of the pipe clamp section between the points on the tube clamp 3, in which the body 6 a and 6 b are attached for bending the bent part 8 of the measuring device 6 . The degree of bending of the bent part 8 is measured by strain gauges 9 .

A first application of the device according to the invention takes place in the assembly of a pipe clamp 3 . The Meßvor direction 6 is mounted on a pipe clamp 3 not yet tightened. Only then is the pipe clamp 3 tightened by tightening the retaining nuts 5 with a wrench. Since the measured values of the measuring device 6 are observed and the tensioning process is ended when the mechanical tension has reached a predetermined target value.

A second application of the measuring device is repeated tests on mounted pipe clamps 3 . The measuring device 6 is attached to the already firmly attached pipe clamp 3 . Then the retaining nuts 5 are loosened and the tension reduction is registered on the basis of the bending of the bent part 8 . The course of the relaxation can be compared with a predetermined course of the tension reduction in an undamaged pipe clamp 3 . The measured voltage flow gives an indication of the condition and reliability of the pipe clamp 3 . After such a test, the measuring device 6 can be removed again.

A third application provides that the measuring device 6 is constantly in operation mounted on a pipe clamp 3 . Should the tension of the pipe clamp 3 change, this will be recognized immediately. A change in the tension in the pipe clamp 3 without the retaining nuts 5 being tightened or loosened can be an indication of an error in the pipe clamp 3 , which would thus be recognized.

For evaluation, the output signals of the strain gauges 9 are fed to an evaluation unit (not shown), which can contain a memory for setpoints, setpoints or calibration curves. A previously determined calibration curve is necessary if values of the voltage or the voltage change are to be obtained. To determine the mechanical stress from a change in length measured with the strain gauge 9, Hooke's law is used in the evaluation unit.

Claims (8)

1. Device for measuring the mechanical tension in a holder, in particular in a pipe clamp ( 3 ), characterized in that a first and a second body ( 6 a, 6 b) spaced apart from one another are connected to one another only by a bent part ( 8 ), that each of the two bodies ( 6 a, 6 b) has fastening means for fastening the bodies ( 6 a, 6 b) to the holder and that a strain gauge ( 9 ) is arranged on the bent part ( 8 ) and is connected to an evaluation unit . 2. Apparatus according to claim 1, characterized in that the body ( 6 a, 6 b) are U-shaped for receiving the holder and that each body ( 6 a, 6 b) opposite and counter-acting fasteners for locking on the Has bracket. 3. Device according to one of claims 1 or 2, characterized in that the bending part ( 8 ) is arranged stretching in the effective direction of the fastening means. 4. Device according to one of claims 1 to 3, characterized in that the fastening means is a screw ( 7 ) which is guided in a thread in the body ( 6 a, 6 b) against the holder. 5. A method for measuring the mechanical tension in a holder, in particular in a pipe clamp ( 3 ), characterized in that on a bent part ( 8 ) which connects two spaced apart on the holder body ( 6 a, 6 b) connects the Bending strain is measured and the mechanical stress in the holder is calculated from it. 6. The method according to claim 5, characterized in that during an assembly of the bracket the mechanical tension in the Bracket is measured and that the mechanical tension up is changed to reach a setpoint. 7. The method according to claim 5, characterized in that during an examination of the bracket the mechanical tension in the Bracket is reduced, the course of the mechanical Voltage is registered and the registered history with a setpoint is compared. 8. The method according to claim 5, characterized in that for recognition a load on the bracket the mechanical tension continuously registered and compared with a target value.