CN211179644U - Anchor hole grouting quality detection device capable of being quickly installed and positioned - Google Patents

Abstract

The utility model belongs to the technical field of civil engineering, and discloses an anchor hole grouting quality detection device capable of being quickly installed and positioned, which comprises a transmission central shaft extending into an anchor hole, wherein a transmission unit capable of axially moving along the transmission central shaft is sleeved at the end part of the transmission central shaft close to the outlet of the anchor hole, a limiting part is arranged at the other end of the transmission central shaft, at least 2 groups of transmission arm detection combinations are arranged between the tail end of the transmission unit and the limiting part around the transmission central shaft, the detection device comprises a first transmission arm hinged to the tail end of a transmission unit, a second transmission arm hinged to a limiting part or a transmission middle shaft, and a detection main body arranged between the first transmission arm and the second transmission arm and used for being attached to the inner wall of an anchor hole, wherein the first transmission arm and the second transmission arm can move along with the axial direction of the transmission unit to form a triangular structure with the transmission middle shaft, and the detection main body is detachably connected with the first transmission arm and the second transmission arm. The transmission unit moves to drive the first transmission arm and the second transmission arm to be linked, so that the inner wall of the root planting anchor hole of the main detection body support is enabled to be installed quickly.

Description

Anchor hole grouting quality detection device capable of being quickly installed and positioned

Technical Field

The utility model relates to a civil engineering technical field specifically, relates to an anchor eye grout quality detection device that can swiftly install location.

Background

The construction of the prestressed anchor hole mainly comprises the procedures of drilling, anchor rod installation, anchor hole grouting, anchor rod tensioning, anchor sealing and the like, wherein the fullness degree of the anchor hole grouting quality directly influences the safety and the durability of the anchor rod structure, if the anchor hole grouting is not full, the anchor rod corrosion is accelerated, the prestressed system fails, the service life of the structure is seriously influenced, and the anchor hole grouting quality is an important link for controlling the quality of the anchor rod system.

At present, various detection methods are provided for detecting the full range of pore grouting at home and abroad, and the detection methods comprise a hole opening detection method, a nondestructive detection method and the like, wherein the hole opening detection method generally adopts core drilling detection, and the nondestructive detection method comprises the following steps: ground penetrating radar method, electromagnetic wave (radar) detection method, X-ray, gamma ray method, impact echo method, ultrasonic detection method, energy attenuation method, and the like.

The open pore detection method belongs to a local damage detection method, is visual and effective, but has the advantages of large workload, low efficiency, higher cost and easy damage to the anchor rod, so the method is not suitable for large-area detection. Because the anchor rod is generally buried in the soil body, a detection method needs to be carried out from the side surface of the anchor hole, such as an X-ray method, a gamma-ray method and a ground penetrating radar method, which are not feasible. The impact echo method is used for testing the filling compactness by detecting the repeated reflection of a shock signal in a defect area, at least 1 testing surface is required, the detection effect on the defect with larger pore passage in the thin plate is better, but the detection on the anchor hole embedded in a complex area cannot be realized at present. The ultrasonic transmission method is suitable for detecting thin-wall components, has strict requirements on the relative positions of the transmitting probe and the receiving probe, is not suitable for detecting the grouting quality of the pore passage of the anchor rod, is time-consuming in detection, has high requirements on the contact surface of the probe, and is difficult to be widely applied. The acoustic wave longitudinal transmission method controls the saturation of internal grouting by testing the P wave speed of the prestressed pipe, but the theory of the method is not strict, strictly speaking, the wave speed of the elastic wave P wave which transmits waves in the anchor rod is not obviously reduced because of the key compactness, but the wave speed is slightly increased because the surrounding constraint is increased because of the improvement of the compactness of grouting, the applicability of the method is worthy of continuous research, but a detection device which can enable a detection main body to be quickly and effectively installed in an anchor hole is not available at present.

Disclosure of Invention

The utility model provides a technical problem lie in overcoming prior art's defect, provide an anchor eye grout quality testing device that can swiftly install the location.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a but anchor eye grouting quality detection device of swift installation location, including being used for stretching into the transmission axis in the anchor eye, the transmission axis is equipped with the transmission unit that can follow transmission axis axial displacement at the tip cover that is close to the anchor eye export, another tip of transmission axis installs a locating part, be equipped with 2 at least groups transmission arm detection combinations around the transmission axis between transmission unit end and the locating part, transmission arm detection combination is including articulating the first transmission arm at transmission unit end, articulate the second transmission arm on the locating part and locate between first transmission arm and the second transmission arm and be used for attached to the detection main part to the anchor eye inner wall, first transmission arm, the second transmission arm can follow the axial displacement of transmission unit and form the triangle-shaped structure with the transmission axis, detection main part and first transmission arm, the second transmission arm is for can breaking away formula is connected.

Furthermore, the end parts of the first transmission arm and the second transmission arm close to the detection main body are both hinged to a rotating shaft, an electromagnet is arranged on the rotating shaft, and the detection main body is located on the electromagnet of the rotating shaft and can be adsorbed by the electromagnet.

Furthermore, the detection main body comprises a base material, a piezoelectric element fixed on the base material and a support, wherein the support is used for mounting the detection main body on the inner wall of the anchor hole under the supporting action of the first transmission arm and the second transmission arm.

Further, the second transmission arm is composed of a linear part and a telescopic part, and the telescopic part is arranged at the middle section part of the second transmission arm.

Further, the transmission middle shaft is a screw rod, and the transmission unit is a sleeve with an internal thread matched with the screw rod thread.

Furthermore, the position limiting part and/or the tail end of the transmission unit are/is provided with an observation device.

Furthermore, 4-12 groups of transmission arm detection combinations are provided.

Still further, the detection combination of the multiple groups of transmission arms is uniformly arranged around the transmission middle shaft.

Compared with the prior art, the utility model discloses following beneficial effect has:

1) the first transmission arm and the second transmission arm are driven to be linked through the movement of the transmission unit, so that the support of the detection main body is planted on the inner wall of the anchor hole, and the quick installation of the detection main body is realized;

2) the depth of the transmission middle shaft extending into the anchor hole is controllable, and the grouting quality of the anchor hole at any specified position in the anchor hole can be detected;

3) due to the reason that the anchor holes are irregular and the like, the detection combination of each group of transmission arms possibly has the situation of inconsistent actions, and the telescopic part is additionally arranged on the second transmission arm, so that the phenomenon can be effectively eliminated, for example, if the detection main body of a certain group of transmission arm detection combination reaches a preset position, when the transmission unit continues to move forwards, the telescopic part of the group can be compressed, and further, the error caused by the reason that the anchor holes are irregular and the like is eliminated;

4) the piezoelectric elements on the detection main body can be used as a sound wave generator and a receiver, the piezoelectric elements sequentially emit sound waves with specified wavelength and frequency according to the requirements of a set program, the internal grouting body is scanned, the sound velocity, amplitude and waveform acquired by each piezoelectric unit can be analyzed by the data acquisition and analysis system, plane images with different colors or different gray levels are generated, and then the defects of the detection main body position are quantitatively analyzed.

Drawings

FIG. 1 is a schematic structural diagram of an anchor hole grouting quality detection device capable of being quickly installed and positioned according to embodiment 1;

FIG. 2 is a schematic cross-sectional view taken along line I-I of FIG. 1;

fig. 3 is a schematic structural diagram of the actuator arm detection assembly according to embodiment 1.

Detailed Description

The invention will be further described with reference to specific embodiments, wherein the drawings are designed solely for the purpose of illustration and not as a definition of the limits of the patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

The anchor hole grouting quality detection device capable of being quickly installed and positioned comprises a transmission central shaft 2 extending into an anchor hole 1, a transmission unit 3 capable of axially moving along the transmission central shaft is sleeved at the end part, close to an anchor hole outlet, of the transmission central shaft 2, a limiting piece 4 is installed at the other end part of the transmission central shaft 2, the limiting piece 4 is fixed on the transmission central shaft 2, at least 2 groups of transmission arm detection combinations are arranged between the tail end of the transmission unit 3 and the limiting piece 4 around the transmission central shaft, each transmission arm detection combination specifically comprises a first transmission arm 51 hinged to the tail end of the transmission unit, a second transmission arm 52 hinged to the limiting piece and a detection main body 53 arranged between the first transmission arm and the second transmission arm and used for being attached to the inner wall of the anchor hole 1, and the first transmission arm 51 and the second transmission arm 52 can form a triangular structure with the transmission central shaft 2 along with the axial movement of the transmission, the detection body 53 is detachably connected to the first transmission arm 51 and the second transmission arm 52.

The quality detection device of the embodiment further comprises a data acquisition and analysis system (not shown) and a control system 6, wherein the detection main body and the data acquisition and analysis system are connected and interactively communicated through a signal transmission line, and the control system controls the whole working process of the quality detection device. The data acquisition and analysis system and the control system can be easily designed by those skilled in the art.

The utility model discloses aim at making the main part that detects be delivered to anchor eye inner wall department installation under the two-way clamp of first transmission arm and second transmission arm hits the supporting role through the central axial displacement of transmission unit edge transmission and the limiting displacement of locating part.

The detection main body 53 comprises a base material 531, a support 532 fixed on the surface of the base material facing the inner wall of the anchor hole, and a piezoelectric element 533 fixed on the surface of the base material facing the center of the anchor hole, wherein the support 532 is used for installing the detection main body 53 on the inner wall of the anchor hole under the supporting action of the first transmission arm and the second transmission arm, and the support 532 is in a structure like a sharp nail and is convenient to nail on the softer inner wall of the anchor hole along with the given pressure of the first transmission arm and the second transmission arm.

The piezoelectric element 533 can sequentially emit sound waves with specified wavelength and frequency according to the requirements of a given program, and then scan the grout inside the anchor hole, the data acquisition and analysis system can calculate and analyze the sound time, sound velocity, amplitude and waveform acquired by each piezoelectric unit, and then generate plane figures of the grout sections inside the anchor hole with different colors or different gray levels, so as to perform quantitative analysis on the grouting fullness or defects of the detected main body section.

In order to realize the flexible turning of the first transmission arm and the second transmission arm relative to the detection main body, the end parts of the first transmission arm 51 and the second transmission arm 52 close to the detection main body are both hinged to a rotating shaft 54, an electromagnet (not shown) is arranged on the rotating shaft, the detection main body is arranged on the electromagnet of the rotating shaft and can be adsorbed by the electromagnet, and the electromagnet is electrically connected with a control system.

Because of the irregular anchor hole, etc., the detection combination of each group of transmission arms may have inconsistent actions in the anchor hole (i.e. the positions of the detection bodies at the same time may not be in one-to-one correspondence, generally speaking, the installation position of the detection body of each group of detection combination of transmission arms in the anchor hole needs to form a radial surface), in order to ensure that the multiple sets of actuator arm sensing assemblies are synchronized, the present embodiment innovatively designs the second actuator arm 52 to be composed of a straight portion 521 and a retractable portion 522, as shown in figure 3, the telescopic part is arranged at the middle section part of the second transmission arm, so that when the transmission unit moves forwards until the detection main body of a certain group of transmission arm detection combination reaches a preset position and the other groups do not reach the preset position, the transmission unit continues to move forwards, the telescopic part 522 of the set of actuator arm detection assembly will be compressed, which can effectively eliminate errors caused by irregular anchor holes and the like.

In the embodiment, the transmission middle shaft 2 is simply selected to be a light screw rod, can be assembled in a segmented mode and can be lengthened section by section according to needs, the transmission unit 3 is a sleeve with an internal thread matched with the screw thread, and the effect of applying force to the first transmission arm and the second transmission arm is achieved through simple combination of the screw rod and the sleeve. The limiting part can be a limiting bolt.

In order to guide the integral advance of the transmission unit and the movement of the transmission arm detection combination, the position of the limiting part 4 and the tail end of the transmission unit 3 are respectively provided with an observation device 7, the observation devices generally adopt high-definition cameras, the observation devices are electrically connected or in signal connection with a data acquisition system of the observation devices to carry out interactive video communication, and the observation devices are also electrically connected with a control system.

As shown in FIG. 2, the transmission arm detection combination is usually set to 4-12 groups, and the multiple groups of transmission arm detection combinations are uniformly arranged around the transmission center shaft, so that the more the transmission arm detection combinations are, the more the detection main body 53 is, and the more accurate the detection result is.

Because the depth of the transmission middle shaft extending into the anchor hole is controllable, the quality detection device can detect the grouting quality of the anchor hole at any specified position in the anchor hole.

The working process of the quality detection device of the embodiment is as follows: and starting the control system to electrify the electromagnet, adsorbing the detection main body to the rotating shaft, screwing the transmission unit on the transmission center shaft manually or in other modes, enabling the first transmission arm and the second transmission arm to jointly support the detection main body to be installed on the inner wall of the anchor hole, then controlling the electromagnet to lose electricity by the control system, avoiding adsorbing the detection main body and the rotating shaft, withdrawing the transmission unit along the transmission center shaft, gradually drawing the first transmission arm and the second transmission arm to be attached to the transmission center shaft, and simultaneously gradually withdrawing the transmission center shaft from the anchor hole. Of course, the observation device is also in the on state in the whole process, and provides real-time guidance for the operation of the transmission unit.

It should be understood that the above-mentioned embodiments are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (8)

1. The anchor hole grouting quality detection device capable of being quickly installed and positioned is characterized by comprising a transmission center shaft extending into the anchor hole, wherein a transmission unit capable of axially moving along the transmission center shaft is sleeved at the end part, close to an anchor hole outlet, of the transmission center shaft, a limiting part is installed at the other end part of the transmission center shaft, at least 2 groups of transmission arm detection combinations are arranged between the tail end of the transmission unit and the limiting part around the transmission center shaft, each transmission arm detection combination comprises a first transmission arm hinged to the tail end of the transmission unit, a second transmission arm hinged to the limiting part and a detection main body arranged between the first transmission arm and the second transmission arm and used for being attached to the inner wall of the anchor hole, the first transmission arm and the second transmission arm can move along the axial direction of the transmission unit to form a triangular structure with the transmission center shaft, and the detection main body is detachably connected with the first.

2. The anchor eye grouting quality detection device capable of being quickly installed and positioned according to claim 1, wherein the first transmission arm and the second transmission arm are hinged to a rotating shaft at the end parts close to the detection main body, an electromagnet is arranged on the rotating shaft, and the detection main body is positioned on the electromagnet of the rotating shaft and can be adsorbed by the electromagnet.

3. The anchor eye grouting quality detection device capable of being quickly installed and positioned according to claim 1, wherein the detection body comprises a base material, a piezoelectric element fixed on the base material and a support, and the support is used for installing the detection body on the inner wall of the anchor eye under the supporting action of the first transmission arm and the second transmission arm.

4. The anchor eye grouting quality detection device capable of being quickly installed and positioned according to claim 1, wherein the second transmission arm is composed of a straight portion and a telescopic portion, and the telescopic portion is arranged at the middle section of the second transmission arm.

5. The anchor eye grouting quality detection device capable of being quickly installed and positioned according to claim 1, wherein the transmission middle shaft is a screw rod, and the transmission unit is a sleeve with an internal thread matched with the screw rod thread.

6. The anchor eye grouting quality detection device capable of being quickly installed and positioned according to claim 1, wherein an observation device is arranged at the position of the limiting piece and/or the tail end of the transmission unit.

7. The anchor hole grouting quality detection device capable of being quickly installed and positioned according to any one of claims 1 to 6, wherein 4 to 12 groups of transmission arm detection combinations are provided.

8. The anchor eye grouting quality detection device capable of being quickly installed and positioned according to claim 7, wherein multiple groups of transmission arm detection combinations are uniformly arranged around a transmission central shaft.

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