RU174677U1 - Universal device for installing and moving ultrasonic transducers for concrete control with one-way access to the structure - Google Patents

Abstract

Usage: to control the strength and defects of concrete, concrete and reinforced concrete structures with one-sided access. The essence of the utility model is that the universal device for installing and moving ultrasonic transducers for concrete control with one-sided access to the structure contains a fixed holder of one transducer and a guide element in the form of a rod with a marking scale and with a movable holder of another transducer mounted on it, a flexible connecting compensator located between the fixed holder and the guide rod with a sliding movable holder with the possibility of their mutual angles th movement relative to each other, sliding the movable holder freely movable along the guide rod is fixed on the basis of any measurement due to axial movement of the retainer in a spring-loaded rocker and the tooth. The flexible coupling compensator is made of an elastic material with a high absorption coefficient of ultrasonic energy to ensure effective acoustic isolation between the emitter and the receiver of ultrasonic signals according to the design of the device. Effect: improving the quality of measurements and control of concrete and reinforced concrete structures. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of measurement technology and, in particular, to ultrasonic testing of strength and defects of concrete of concrete and reinforced concrete structures with one-sided access.

Known devices that allow the installation or extension of ultrasonic transducers (emitter and receiver) on a fixed measurement base, which makes it possible to control the strength of concrete by assessing the strength of concrete by correlating the speed of ultrasound with the strength of concrete or assessing the depth of cracks emerging on the surface of concrete. However, it is impossible to carry out defectoscopy of the surface layer of concrete using the longitudinal profiling method using axial stepwise movement of the transducer-receiver relative to the stationary transducer-emitter using known devices. In addition, in many of them there is no reliable acoustic isolation between the transducer housings along the connecting element. This generates the formation of an acoustic background on the received ultrasonic signal, which negatively affects the quality of measurements, especially with significant measurement bases due to significant attenuation of the amplitude of the received useful signal. The lack of the possibility of angular rotations of the holders relative to each other complicates the provision of reliable contact of the working surface of both transducers with a non-planar surface of structures.

A device is known for ultrasonic inspection of defects in concrete, comprising housings with ultrasonic transducers interconnected by a handle, which is made integral with coaxially arranged sections, on one of which a fixing element is mounted, the free side of the handle sections is pivotally connected to a housing having supporting protrusions with missing through them spring rods, on one end of each of which a regulating element is installed, and a magnet is fixed on the other, a telescope is used in the device the optical principle of operation of the connecting rod for setting a variable measurement base (USSR AS No. 384070, MKI: G01n 33/38, publ. 05.23.1973).

The disadvantages of the analogue are the complexity of the design of the nodes of the holders and the inability to quickly configure the required measurement base in the device, there is no acoustic isolation of the transducers. This device is suitable for monitoring concrete on a selected adjusted fixed measurement base.

A device for ultrasonic testing of products is known, comprising a connecting rod using a parallelogram mechanism and rollers for stable movement of the device along the controlled product and a reference line with a stop for adjusting the necessary measurement base (USSR AS No. 1147978, MKI: G01N 29/04, published on 03.30.1985 g.).

The disadvantages of this device are the lack of mechanical rigidity of the connecting mechanism, the possibility of flexible installation of the transducers on a non-flat surface of the structures and the absence of acoustic isolation of the transducers.

A device is known for clamping transducers during acoustic measurements in materials, including a mesh container body with holes for installing transducers and a shock-absorbing suspension unit connected to it, a guiding element made of an elastic material with a high absorption coefficient of ultrasonic energy (USSR AS No. 1226281, MKI : G01N 29/00, publ. 04/23/1986).

The disadvantage of the analogue is that in the device the functions of the guiding element are performed by the slings of the container body and it is impossible to use it to control the surface layers of concrete with unilateral access to the structure.

Closest to the proposed device is the holder of ultrasonic transducers of the Pundit lab + device of Proceq company, containing a guiding element in the form of a rod with a measuring ruler (marking scale) relative to the center of the rod, for controlling the depth of cracks and / or installing the selected fixed measurement base, attachment points transducers, each of which has its own acoustic isolation from the connecting rod, made of damping elastic material, providing rotation of the attachment points the rod axis during the installation of the working planes of the transducers on a non-flat surface of structures (Internet resource: http://endt.ru/cat/equipment/kontrol-stroitelnyh-konstrukcij-i/ultrazvukovye-pribory-dlja/ultrazvukovoj-pribor-pundit- lab).

The disadvantage of the prototype is the inability to perform using this device operational control of concrete with a step-by-step change of the measurement base according to the longitudinal profiling method while maintaining the contact conditions of the stationary transducer with the concrete surface.

The technical result, which is achieved by the claimed utility model, is to increase the efficiency of the device, the quality of measurements and control of concrete and reinforced concrete structures.

To achieve the specified technical result in the proposed universal device for installing and moving ultrasonic transducers for concrete control with unilateral access to a structure containing a fixed holder of one transducer and a guiding element in the form of a rod with a marking scale and with a movable holder of another transducer mounted on it, it is equipped with a flexible a connecting compensator located between the fixed holder and the guide rod with a sliding movable holder teleconference with the possibility of their mutual angular movement relative to each other, and sliding the movable holder freely movable along the guide rod is fixed on the basis of any measurement due to axial movement of the retainer in a spring-loaded rocker and the tooth.

In addition, the claimed decision has an optional feature characterizing its particular case, namely:

the flexible coupling compensator is made of an elastic material with a high absorption coefficient of ultrasonic energy, such as rubber, to ensure effective acoustic isolation between the emitter and the receiver of ultrasonic signals according to the design of the device.

Distinctive features of the proposed universal device from the above known, closest to it, are the presence of a flexible binder compensator, the location of a flexible binder compensator between the fixed holder and the rod with a sliding movable holder with the possibility of their mutual angular movement relative to each other, fixing the sliding movable holder, freely moving along the guide rod at any measurement base, due to the axial displacement clamp in the form of Thought and spring-loaded tooth.

Due to the presence of these signs during operation of a universal device, including one fixed holder and one sliding movable holder on a guide rod with a marking scale connected to the fixed holder assembly using a flexible connecting compensator, which allows angular movements of the guide rod in a plane perpendicular to its axis during installation of transducers on a non-flat surface of a concrete structure without changing the measurement base, as well as providing effective acoustic isolation of the emitter and receiver of ultrasonic signals, the ability to quickly move and fix the node of the sliding movable holder along the marking scale without detaching the stationary holder from the concrete surface or its displacement. This, in turn, provides the possibility of operational monitoring of concrete with a variable step-by-step measurement base according to the longitudinal profiling method under constant contact conditions of the stationary transducer with the concrete surface and, accordingly, increasing the reliability and accuracy of measurements due to the maximum passage of acoustic energy through the controlled material. Using the proposed universal device, it is possible to carry out all types of ultrasonic examination of concrete (reinforced concrete), possible with unilateral access to the structure on a constant and variable measurement base, while reducing the complexity of control, primarily assessing the condition and inspection of the surface layer of concrete with a variable measurement base according to the method of longitudinal profiling, as well as determining the depth of cracks in concrete emerging on the surface of structures and determining the strength of concrete at a constant ba ie the measurement, which can be changed depending on the controlled concrete structure.

The proposed universal device for installing and moving ultrasonic transducers for concrete control with one-sided access to structures is illustrated in the drawing, which shows a General view of the device.

In the drawing, the positions indicated: 1 - guide rod, for example, from a duralumin tube, 2 - flexible coupling compensator made of elastic material, for example from a vacuum rubber tube, 3 - fixed holder, 4 - sliding movable holder, 5 - axial displacement clamp, 6 - radial rotation limiter, 7 - locking screws, 8 - ultrasonic transducers.

The device operates as follows.

The housings of the ultrasonic transducers 8 are inserted into the fixed 3 and sliding movable 4 holders and secured with locking screws 7. The sliding movable holder 4 is mounted on the guide rod 1 at the distance necessary for the particular measurement scheme from the fixed holder 3. The sliding movable holder 4 is fixed with an axial displacement fixation tooth 5, which, under the action of a spring, either goes into the holes on the guide rod 1, made with a selected constant step of profiling or fixed due to the friction of the spring-loaded tooth on the surface of the rod 1. When pressing the spring-loaded shoulder of the axial displacement retainer 5, made in the form of a beam, the tooth rises and, releasing the sliding movable holder 4, allows it to move freely along the axis of the rod 1 to establish a new measurement base. The distance between the transducers is set on a marking scale on the rod 1 (in principle, the length of the guide rod, the hole pitch or the installation of the measurement base using a sliding holder is determined by specific tasks and measurement conditions).

To prevent the possibility of rotation of the sliding movable holder 4 around the axis of the guide rod 1 and to facilitate axial movement, the holder 4 has symmetrically located radial rotation limiters 6, which do not allow spontaneous angular movement of the sliding movable holder 4 around the axis of the rod 1, each of which consists of the cage of a spring ball protruding beyond the inner cylindrical surface mating with the rod 1 and rolling along the longitudinal groove, ying the side surface of the rod 1.

A flexible connecting compensator 2 in the form of a piece of tube made of vacuum rubber, fixed with clamps on the guide rod 1 and the adapter of the fixed holder 3, allows angular movements of the rod 1 with a sliding movable holder 4 relative to the fixed holder 3 in a plane perpendicular to the axis of the rod 1, which makes it possible, when installing the proposed device on a controlled structure, to compensate for the unevenness of the surface of the concrete structure, to ensure full fit of workers erhnostey ultrasonic transducer 8 to the surface of the test element and thus ensure the maximum transfer of acoustic energy from the transducer into the concrete and concrete of the receiver.

The use of an elastic material with a high absorption coefficient of ultrasonic energy as a flexible binder compensator 2 with this arrangement in a universal device makes it possible to ensure complete acoustic isolation of the ultrasonic transducers 8 and to increase the ratio of the useful signal / noise in the received signal. This option of flexible binder compensator 2 is selected as optimal on the basis of laboratory studies, but this does not exclude the use of variants of other structures similar in functionality (for example, a rubber rod fixed in rod 1 and in the adapter) and materials having similar required properties.

During the measurement, the pressing force is applied to each ultrasonic transducer 8 separately. When removing the force to the sliding movable holder 4, due to the flexibility of the coupling compensator 2, it is possible to select the measurement base to freely move the sliding movable holder 4 along the guide rod 1 without changing the position and contact conditions of the fixed holder 3 with concrete.

The use of holes in the guide rod 1, made in steps, for example; 50 mm, makes it possible to quickly carry out longitudinal profiling, which requires a step-by-step change of the measurement base by a constant value or to fix the measurement base when monitoring elements on a constant base.

The proposed universal device can be used in ultrasonic quality control of concrete and reinforced concrete slabs, asphalt concrete and waterproofing coatings, the state of concrete cladding, determining the quality of the material and the state of the concrete protective layer of massive structures with one-way access.

Claims (2)

1. A universal device for installing and moving ultrasonic transducers for concrete control with one-sided access to the structure, comprising a fixed holder 3 of one transducer 8 and a guiding element in the form of a rod 1 with a marking scale and with a movable holder 4 of another transducer 8 mounted on it, characterized in that it is equipped with a flexible connecting compensator 2, located between the fixed holder 3, and the guide rod 1 with a sliding movable holder 4 with the possibility of their mutual about angular displacement relative to each other, and the sliding movable holder 4, freely moving along the guide rod 1, is fixed at any measurement base due to the axial displacement clamp 5 in the form of a rocker arm and a spring-loaded tooth. 2. The universal device according to claim 1, characterized in that the flexible binder compensator 2 is made of an elastic material with a high absorption coefficient of ultrasonic energy, such as rubber, to ensure effective acoustic isolation between the emitter and the receiver of ultrasonic signals according to the design of the device.

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