RU79673U1 - CONCRETE STRENGTH METER - Google Patents

Abstract

The utility model relates to measuring technique and is intended to determine the strength of concrete and reinforced concrete structures. It can be used in production and laboratory conditions, at construction sites, during the inspection of buildings, structures, structures. The authors were faced with the task of creating a concrete strength meter with an expanded scope of application - with fastening at one corner of the test object, with reduced weight and dimensions, compact. In addition, the device must have high measurement accuracy, good ergonomics, be convenient to use and inexpensive. The specified task and the technical result are achieved in that the concrete strength meter containing a power exciter located on the supporting structure, and made in the form of two hydraulic cylinders - drive and power, which is connected to the shearing element, as well as a force sensor connected to the electronic unit, according to the useful models, equipped with an additional channel parallel to the drive, and perpendicular to the power hydraulic cylinders, with two hydraulic cylinders, an additional channel, a force sensor and an electronic unit located in a single housing, and the supporting structure is made in the form of an angular frame, mounted on one of the corners of the test object. In addition, the connection of the power hydraulic cylinder to the shear element is rigid, and the force sensor is connected to an additional channel.

Description

The inventive utility model relates to measuring technique and is intended to determine the strength of concrete and reinforced concrete structures. It can be used in production and laboratory conditions, at construction sites, during the inspection of buildings, structures, structures.

A device for determining the strength of concrete by the method of chipping ribs (see GOST "Concretes. Determination of strength by mechanical methods of non-destructive testing". Introduced 01.01.91). It contains a power exciter mounted on a supporting structure, a shearing element and a force meter. The cleaving element (hook) through a linkage is connected to the exciter. The bearing structure covers the test object at two opposite angles. The force meter is a manometer with a dial indicator, the readings of which are read out visually and are converted into force by the calibration curve. Strength is determined by calibration dependencies, connecting the cleavage force and the strength of specific types of concrete.

The disadvantages of this device include the low accuracy of the measurement due to the use of the arrow weight meter, the bulkiness of the structure, large overall dimensions, inconvenience of work, especially in hard-to-reach places, the inability to automate the measurement process.

The closest in technical essence to the claimed utility model and selected as a prototype is a concrete strength meter POS-50 MG4 Skol (see prospectus Special Design Bureau SKB Stroypribor. Non-destructive testing devices, Chelyabinsk, 2007, .8). This device contains a power exciter located on the supporting structure, and made in the form of two hydraulic cylinders (drive and power) located on the same axis. The power hydraulic cylinder is connected via a linkage to a cleaving element (hook). The supporting structure encircles the test object at two opposite angles. A force meter is a converter having an electrical output, the electronic signal of which is converted into a digital code.

The advantages of the device include a higher measurement accuracy due to the use of this kind of load meter, and the ability to automate the measurement process.

The disadvantages of the device are the limited scope due to the need to mount it at two angles of the test object, significant weight and size indicators, additional inconvenience due to the presence of moving parts of the supporting structure. The size of the supporting structure must exceed the maximum possible size of the girth side of the structure.

The task of creating the claimed utility model is to develop a concrete strength meter with an extended scope - with mounting at one corner of the test object, compact, with reduced weight and dimensions. In addition, the device must have high accuracy, be convenient to use, ergonomic and inexpensive.

The technical result is the expansion of the scope, compactness, low weight and dimensions of the device, ease of operation.

The specified task and the technical result are achieved in that the concrete strength meter containing a power exciter located on the supporting structure, and made in the form of two hydraulic cylinders - drive and power, which is connected to the shearing element, as well as a force sensor connected to the electronic unit, according to the useful models, equipped with an additional channel parallel to the drive, and perpendicular to the power hydraulic cylinders, with two hydraulic cylinders, an additional channel, a force sensor and an electronic unit located in a single housing, and the supporting structure is made in the form of an angular frame, mounted on one of the corners of the test object.

In addition, the connection of the power hydraulic cylinder to the shear element is rigid, and the force sensor is connected to an additional channel.

The inventive utility model meets the criterion of "novelty", because the combination of its essential features is not known from the existing level of technology.

It also meets the criterion of "industrial applicability", because it can be used in the economy or any other area of human activity.

The introduction of an additional channel parallel to the drive channel and perpendicular to the power hydraulic cylinders optimally improves the performance of the device, significantly

reduces the weight and dimensions of the exciter, creates a lightweight, compact, ergonomic device, suitable for working in hard-to-reach places.

The location of two hydraulic cylinders, an additional channel, a force sensor and an electronic unit in a single housing allows the device to be made the most compact, ergonomic, convenient to use, with reduced weight and dimensions.

The implementation of the supporting structure in the form of an angular frame, fixed on one of the corners of the test object, significantly expands the scope of the device, allows you to work in hard-to-reach and cramped places, facilitates the work of the operator, creates ease of use.

A rigid connection of the power hydraulic cylinder to the shear element allows direct transmission of force from the hydraulic cylinder to the shear element without the use of intermediate structural elements. This allows you to minimize the overall dimensions of the device, reduce its metal consumption, make it lightweight, compact, convenient to use.

The direct connection of the force sensor with an additional channel allows you to quickly and accurately monitor pressure changes in the exciter and, accordingly, changes in force, which are then transmitted to an electronic unit, where they are converted into a digital code that determines the strength value of a particular type of concrete. This ensures high measurement accuracy and automation of the measurement process.

The essence of the utility model is illustrated by the drawing, which shows a General view of the concrete strength meter.

The concrete strength meter comprises a housing 1, which, with the help of adjusting screws 2, is attached to the corner frame 3, which has high bending stiffness and is made of steel. A gear plate 4 with an opening 5 in it is rigidly attached (by welding) to the frame 3. Hole 5 has an oval shape. Frame 3 is mounted on one of the corners of the test object 6 using a self-tapping screw 7 on concrete and a gear washer 8.

A force exciter is located in the housing 1, which is made in the form of a drive hydraulic cylinder 9 and a power hydraulic cylinder 10. The hydraulic cylinders 9 and 10 are made of metal, for example, an aluminum alloy. A brass drive piston 11 is located inside the drive hydraulic cylinder 9. The drive piston 11 is connected to the handle 12. In the power hydraulic cylinder 10 there is a power piston 12 with a stroke of 7 mm. Attached to the power piston 12 with a screw 13

shear element 14. The shear element 14 is made of metal with high hardness and its dimensions correspond to GOST 22690-80.

In parallel to the drive hydraulic cylinder 9 and perpendicularly to the power hydraulic cylinder 10, an additional channel 15 is located. In the additional channel 15 there is an opening (not shown in the drawing) connecting it to the power hydraulic cylinder 10. The additional channel 15 is connected to the force sensor 16, which, in turn, is connected to the electronic unit 17, In the housing 1 is also located the power supply 18. The sensor 16 of the force can be made in the form of a sensor of the type D-16. The working fluid is engine oil.

The work of the concrete strength meter is as follows. The tests are carried out according to GOST 22690-88 by the method of determining the compressive strength of concrete by chipping a rib.

Before starting the test, the operator using a special device examines the test object 6, and determines the place where there is no steel reinforcement, and then drills a hole (hole) in the test object 6 at a distance of 80-120 mm from the edge of the structural rib.

Using the adjusting screw 2, the operator presses the housing 1 against the frame 3 for securely fixing the entire device to the test object 6, and preliminary pressing the shear element 14 against the edge of the test object 6. The corner frame 3 through the mounting hole 5 in the plate 4 using a screw 7 on concrete and washers 8 is attached to the test object 6. Then the operator rotates the handle 12 clockwise. In this case, the drive piston 11 moves along the channel of the drive hydraulic cylinder 9, displacing oil into the additional channel 15, from where it flows through the hole in the additional channel 15 (not shown in the drawing) into the power hydraulic cylinder 10. The power piston 12 extends from the power hydraulic cylinder 10 together with a shear element 14, The device is structurally provided with contact of the cleaving element 14 with the test object 6 at a depth of (20 ± 2) mm from the fixing surface (according to GOST 22690-88). Loading continues from 15 to 30 seconds, while the load increases from zero to critical (shearing) effort. The device is designed for a load of up to 3 tons. At the time of cleaving the ribs of concrete in the power hydraulic cylinder 10, the pressure drops sharply due to the lack of resistance of the material.

The force sensor 16 constantly transmits information about the current load to the electronic unit 17. At the time of cleaving, the electronic unit 17 detects a breaking force, which

then in the electronic unit 17 is converted to a value of strength. The device is designed to measure strength from 5 to 100 MPa.

The proposed design of a concrete strength meter allows you to create a compact, small-sized, lightweight, inexpensive, ergonomic and easy-to-use device and use it in most practical cases of testing on reinforced concrete structures and products.

Claims (3)

1. A concrete strength meter containing a power exciter located on a supporting structure and made in the form of two hydraulic cylinders - a drive and a power cylinder, to which a shearing element is connected, as well as a force sensor connected to an electronic unit, characterized in that it is equipped with an additional channel parallel to the drive and perpendicular to the power hydraulic cylinders, while two hydraulic cylinders, an additional channel, a force sensor and an electronic unit are located in a single housing, and the supporting structure is made in the form of angular frames s fixed on one of the corners of the test object. 2. The meter according to claim 1, characterized in that the connection of the power hydraulic cylinder with a cleaving element is rigid. 3. The meter according to claim 1, characterized in that the force sensor is associated with an additional channel.