RU65229U1 - DEVICE FOR ASPHALT CONCRETE TEST FOR MOVABILITY - Google Patents

Abstract

A device for testing asphalt concrete for shear resistance, comprising a roller clamping unit against the specimen and measuring equipment is a sealed bath body mounted on a rectangular frame with a top hinged lid with transparent windows, the right and left nodes for influencing asphalt concrete samples, which are pivotally mounted through bearing units on movable carriages connected to the gear motor and located on the guide rods rigidly fixed inside the bathtub, with each node acting I includes a fastening lever with a rubberized wheel and a load, and a water heater with an electric temperature controller, a circulation pump, pipe fittings are fixed under a bathtub body on a rectangular frame.

Description

The utility model relates to testing of road-building materials, namely, devices for testing asphalt concrete for shear stability.

Known shear device / 1 /, consisting of a mold in which a sample of asphalt concrete, thrust ring, load stamp and nozzle, which serves to center the load stamp on the test sample.

The disadvantage of determining the shear resistance using this device is the following: before testing, pre-prepared cylindrical samples by pressing are held at a temperature of (50 +/- 2) degrees C in a heating cabinet for 2 hours, in addition, in a heating cabinet at the same temperature it is necessary to maintain: a test form, a loading stamp and a persistent ring. The shear strength of asphalt concrete samples is determined on presses with a mechanical or hydraulic drive according to GOST 28840-90. The press should be equipped with a force meter of any type, allowing to determine the shear strength. The tensile strength of the samples is calculated by the formula. The shear resistance of asphalt concrete, estimated by the coefficient of internal friction and adhesion, which is determined by the method of maximum loads corresponding to the ultimate deformations of standard cylindrical samples under two stress-strain states: uniaxial compression and compression according to the marshal’s scheme, does not meet the conditions of operation of asphalt concrete pavement in real conditions.

By the number of common features and the achieved result, the closest device for testing asphalt concrete for shear resistance (2) is closest to the claimed technical solution, it contains a frame with supports, a frame installed in the latter with the possibility of swinging, a drive shaft with a drive for its rotation, a driven shaft with a loading roller, connected to the frame, the roller loading unit in the form of a brake mounted on the frame and connected to the driven shaft, the roller pressing unit to the sample made of hard material and measuring equipment.

The disadvantage of this device is that it allows shear tests to be carried out only on standard cylindrical samples of asphalt concrete used for compression tests, which are prefabricated in molds on a press. The tests are carried out during the rotation of the sample while the roller is rolling along the sample.

The objective of the utility model is to ensure the use of asphalt concrete for the shear stability test with the test conditions approaching the operating conditions of the road surface material, to increase the measurement accuracy, and to shorten the test time without using additional equipment.

This problem is solved in that the device for testing the asphalt concrete for shear resistance, comprising a roller clamping unit to the sample and measuring equipment, is a sealed bath body mounted on a rectangular frame with a top hinged lid with transparent windows, the right and left nodes for influencing asphalt concrete samples which are pivotally mounted through the bearing units on movable carriages connected to the gear motor and located on the guide rods rigidly fixed inside the bathtub, Therefore, each impact unit includes a mounting lever with a rubberized wheel and a load, and a water heater with an electric temperature controller, a circulation pump, and pipe fittings are mounted under a bathtub body on a rectangular frame. The asphalt mixture is evenly distributed in the form on a vibrating table. This form of an asphalt concrete sample, unlike cylindrical, is most close to real conditions. Since all kinematic units and forms with asphalt concrete are located in the bathtub body, which is filled with an aqueous medium by means of a circulation pump and a water heater to create a temperature test regime, there is no need for heating devices for preheating samples and equipment. The presence of two nodes of impact on samples of asphalt concrete makes it possible to conduct parallel tests, which clarifies the test result. Data collection

tests are carried out by the electronic unit through sensors located in the nodes of the impact.

Figure 1 is a kinematic diagram of a device for testing asphalt concrete for shear stability; figure 2 is a kinematic diagram of the impact node; 3 is a block diagram of the relationship of the nodes of the device.

A device for testing asphalt concrete for shear resistance contains a bathtub mounted on a rectangular frame 1, guiding rods 2, movable carriages 3, a crank mechanism of the drive of the carriages 4, the drive hub 5, the gear motor 6, and the mounting lever wheels 7, rubberized wheel 8, load 9, collapsible form for asphalt concrete sample 10, inductive strain gauge 11, pipe fittings 12, sensor-counter for the number of passes 13, temperature sensor 14, odonagrevatel 15, circulating pump 16, the inverter 17, the electronic processing unit 18 and display information.

The impact node (figure 2) includes a carriage 3, a wheel mounting lever 7, a wheel 8, a load 9, an inductive strain gauge 11.

The device operates as follows.

Forms 10 with samples are installed in the body-bath 1 and rigidly fixed in a certain fixed place. Impact units 19, 20 are lowered onto the samples onto which inductive deformation measuring sensors 11 are installed for reading information, connected to the electronic information processing and display unit 18. The body-bath 1 is filled with water to a fixed level of 15-20 mm above the surface of the samples, include a water heater 15 with the set mode, the circulation pump 16. Upon reaching the set temperature and heating the samples for 1-1.5 hours. drive the impact nodes 19, 20 on the samples with a given cycle, which is set by the frequency Converter 17. Data collection

The test is carried out by the electronic unit 18 through inductive sensors for measuring deformation 11. The electronic unit 18 starts the installation, fixes the temperature of the test samples, removes after a certain number of cycles of deformation of the samples and shuts down the installation after completion of work.

Used sources

1. Methodological recommendations for assessing the shear resistance of asphalt concrete ”, Decree of the Ministry of Transport of the Russian Federation, February 4, 2002 No. IS-42-r

2. Patent of Russia No. 2086950, IPC G01N 3/24. A device for testing asphalt concrete for shear stability / Bonchenko G.A., Gorova N.E., Abakumova R.N. - No. 94025115/28; publ. 1997.08.10. (prototype).

Claims (1)

A device for testing the asphalt concrete for shear resistance, comprising a node for holding the roller against the sample and measuring equipment, characterized in that the device is a sealed casing-bath mounted on a rectangular frame with a top hinged lid with transparent windows, the right and left nodes for influencing asphalt concrete samples, which are hinged through the bearing units mounted on movable carriages connected to the gear motor and located on the guide rails rigidly fixed inside the bathtub ah, wherein each exposure unit comprises a fixing lever rubberized wheel and a load, and with an electric water heater temperature controller, circulating pump, valves fixed under the tub body on a rectangular frame.