RU96246U1 - TOWER INSTALLATION TEST - Google Patents

Abstract

 1. Installation for testing towers, including a device for creating traction on the elements of the tower, characterized in that the device for creating traction forces includes a housing made with the possibility of its fastening on a rigid base, a dynamometer installed inside the housing, a hydraulic jack connected via a lever gear with a dynamometer, while the installation contains a cable, one end of which is equipped with a load, and the other is made with the possibility of connection with the tower, a support pole, on which is mounted a unit for cable tension, cable t, one end of which is made with the possibility of fastening to the tower element, and the other is connected to a dynamometer, blocks for passing and tensioning the rope, one of which is installed inside the device’s body to create traction forces. ! 2. Installation according to claim 1, characterized in that the block for tensioning the cable is fixed to the support column using a clamp. ! 3. Installation according to claim 1, characterized in that one end of the rope is made with a grip for attaching to the tower element. ! 4. Installation according to claim 1, characterized in that one end of the rope for attachment to the tower element is equipped with a traction. ! 5. Installation according to claim 1, characterized in that the housing of the device for generating traction is made of metal structures. ! 6. Installation according to claim 1, characterized in that the housing of the device for generating traction is fixed to the base using anchor bolts. ! 7. Installation according to claim 1, characterized in that the mass of the load is 20 kg

Description

The utility model relates to means for conducting dynamic tests, strength tests, and can be used to test removable and stationary towers.

A known installation for testing towers (SU 1677235 A1, E21B 15/00 A1, 09/15/1991) is a prototype that includes a device for creating traction forces on the elements of the tower, made in the form of hydraulic cylinders and an oil station, balancing flexible connections connected to the legs of the tower and tackle system. Each flexible connection is made in the form of interconnected upper and lower links. The upper links are pivotally connected to the beam, and the hydraulic cylinders are connected to the oil station through a common collector.

The disadvantage of this technical solution is that the specified installation is intended only for testing of derricks and allows only testing the strength of the elements of the derrick. In addition, the installation does not provide for the adjustment of the applied traction force on the elements of the tower and visual information about the applied loads, as well as the complexity of the design due to the presence of several hydraulic cylinders and oil station.

The technical result of the claimed utility model is to expand the technical capabilities of the installation for testing towers, as well as simplifying the testing process.

The specified technical result is achieved by the fact that in the installation for testing towers, including a device for generating traction, the latter contains a housing made with the possibility of its fastening on a rigid base, a dynamometer installed inside the housing, a hydraulic jack connected through a linkage with a dynamometer, while the installation contains a cable, one end of which is equipped with a load, and the other is made with the possibility of connection with a tower, a support pole, on which a unit for cable tension is fixed, a rope, one end of which one is made with the possibility of fastening to the tower element, and the other is connected to a dynamometer, blocks for transmission and tension of the rope, one of which is installed inside the device for creating traction forces.

In this case, the cable tensioning unit can be fixed on the support column using a clamp.

One end of the rope can be made with a grip for attaching to the tower element.

One end of the rope for attaching to the tower element may be provided with a traction.

The body of the device for creating traction can be made of metal structures.

The housing of the device for generating traction can be fixed to the base using anchor bolts.

The mass of the cargo may be 20 kg.

The implementation of the device for creating traction efforts, which is connected via a rope to the test tower element and which includes a housing, a dynamometer installed inside the housing, a hydraulic jack connected via a linkage with a dynamometer, as well as the presence of a cable with a load connected to the tower in the installation, allows you to quickly and it is safe to carry out assembly and disassembly of the installation, to test any towers, and also to eliminate the need for the manufacture of special bulky structures and installation elements, thereby simplifying boiled her design.

The essence of the claimed utility model is illustrated by drawings, where: - Fig. 1 shows the installation when testing the tower for stability against overturning and the steps of the tower for strength.

- figure 2 shows the installation when testing the platform of the tower.

Installation for testing towers for strength and dynamic loads includes a device for creating traction on the test elements of the tower 1, which contains a housing 2 made with the possibility of its fastening on a rigid base 3, a dynamometer 4 mounted inside the housing 2, a hydraulic jack 5 having, for example , manual drive and connected through a lever gear (lever 6) with a dynamometer 4.

To test the tower 1 for rollover stability, the installation also contains a cable 7, one end of which is equipped with a load 8, and the other is made with the possibility of connection with the upper part of the tower 1, by means of a connecting element, for example, a strap 9 attached to the tower 1.

The installation also includes a support column 10, on which a block 11 is fixed for tensioning the cable 7. In addition, the installation includes a rope 12, one end of which is made to be attached to the tower element 1, and the other is connected to a dynamometer 4, and blocks 13 transmission and tension of the rope 12, one of which is installed inside the housing 2 of the device to create traction. The optimal weight is 20 kg.

Block 11 for tensioning the cable 7 can be fixed on the support column 10, for example, using a clamp 14.

To test the elements of the tower 1, for example, rungs (steps) for strength, one end of the rope 12 is carried out with a gripper 15 for fastening to the tested element of the tower 1. In this case, the rope 12 from the gripper 15 is connected through the blocks 13 to the dynamometer 4.

When testing the upper platform 16 of the tower 1 and its fences for strength, one end of the rope 12 is provided with a thrust 17 (see figure 2), made, for example, in the form of a rod of round or rectangular cross-section. In this case, the rope 12 from the platform 16 through the blocks 13 is connected to the dynamometer 4.

The housing 2 of the device for creating traction can be made, for example, of metal structures.

The housing 2 of the device for creating traction efforts is fixed on the base 3, for example, using anchor bolts (not shown in the drawings), for example, M20.

As dynamometer 4 can be used, for example, dynamometer DPU-5-2.

As the base 3 can be used concreted area, concrete slabs or reinforced concrete sleepers, recessed in the ground.

The claimed installation can be used when testing any towers, for example, construction, fire, etc.

Testing towers using the installation is carried out as follows (shown on the example of testing towers used to repair the contact network of railways).

Before testing, it is necessary to conduct an external examination of the test tower 1 for damage. Then it is necessary to select a dynamometer 4 with the desired measurement range (i.e., corresponding to the load applied to the tower elements and corresponding to regulatory requirements) and fix it in the housing 2 of the device to create traction forces. Install test tower 1 on the installation. In this case, when installing tower 1, its wheels 18 (see Fig. 1) should be between the stops welded to the rails 19.

To test the elements of the tower 1, for example, steps, for strength, one end of the rope 12 is fixed in the middle of the step by means of a gripper 15, and the other end of the rope 12 is connected through blocks 13 to a dynamometer 4.

By moving the handle of the hydraulic jack 5 to the test element of the tower 1 through the rope 12 apply the necessary load and support it throughout the test time. The applied loads are monitored by dynamometer 4, and the test time is monitored by a stopwatch. In a similar manner, the strength tests of the platform 16 of the tower 1 are carried out, using an additional traction 17, and the rope 12 from the platform 16 through blocks 13 connecting to the dynamometer 4 (figure 2).

Test tower 1 for resistance to tipping is carried out using a load of 8 (figure 1), which is suspended on a cable 7 and through a block 11 mounted on a support column 10, is attached to the tower 1.

After the tests, a control inspection of the tower is carried out, according to the results of which they judge the compliance of this product with the requirements for it.

Claims (7)

1. Installation for testing towers, including a device for creating traction on the elements of the tower, characterized in that the device for creating traction forces includes a housing made with the possibility of its fastening on a rigid base, a dynamometer installed inside the housing, a hydraulic jack connected via a lever gear with a dynamometer, while the installation contains a cable, one end of which is equipped with a load, and the other is made with the possibility of connection with the tower, a support pole, on which is mounted a unit for cable tension, cable t, one end of which is made with the possibility of fastening to the tower element, and the other is connected to a dynamometer, blocks for passing and tensioning the rope, one of which is installed inside the device’s body to create traction forces. 2. Installation according to claim 1, characterized in that the block for tensioning the cable is fixed to the support column using a clamp. 3. Installation according to claim 1, characterized in that one end of the rope is made with a grip for attaching to the tower element. 4. Installation according to claim 1, characterized in that one end of the rope for attachment to the tower element is equipped with a traction. 5. Installation according to claim 1, characterized in that the housing of the device for generating traction is made of metal structures. 6. Installation according to claim 1, characterized in that the housing of the device for creating traction forces is fixed to the base using anchor bolts. 7. Installation according to claim 1, characterized in that the mass of the load is 20 kg