CN207472836U - A kind of architectural engineering structural crack detection device - Google Patents

Abstract

The utility model discloses a kind of architectural engineering structural crack detection devices, including pedestal and the supersonic reflectoscope for being fixedly installed in base top, the first mounting groove is offered at the top of the pedestal, the first telescope motor is installed in the bottom interior wall of first mounting groove, loading plate is installed on the output shaft of first telescope motor, it is in contact at the top of the bottom of loading plate and pedestal, second telescope motor is installed on the loading plate, movable plate is installed on the output shaft of second telescope motor, it is in contact at the top of the bottom of movable plate and loading plate, a side roof part of the movable plate far from supersonic reflectoscope offers the second mounting groove, electric rotating machine is installed on the side inner wall of second mounting groove, the first runner is installed on the output shaft of electric rotating machine.The utility model is convenient for that the height of ultrasonic probe and angle is adjusted according to actual needs, makes the range bigger of detection, simple in structure, easy to use.

Description

A kind of architectural engineering structural crack detection device

Technical field

It is detected and filled with structural crack the utility model is related to detection device technology field more particularly to a kind of architectural engineering It puts.

Background technology

The buildings such as house, bridge are required for carrying out crack detection, have prevented security risk, now after constructed The characteristics of crack detection will use supersonic reflectoscope mostly, ultrasonic wave is supersonic frequency height, and wavelength is short, in certain distance There is good beam and directionality along straightline propagation, can more accurately find out crackle, existing supersonic reflectoscope is big More structures are relatively more fixed, are not easy to be adjusted according to actual needs, and the height of detection is limited in scope, and use is very inconvenient, because This is we have proposed a kind of architectural engineering structural crack detection device, for solving the above problems.

Utility model content

The purpose of this utility model is to solve shortcoming in the prior art, and a kind of architectural engineering proposed is used Structural crack detection device.

To achieve these goals, the utility model employs following technical solution：

A kind of architectural engineering structural crack detection device is examined including pedestal and the ultrasonic wave for being fixedly installed in base top Instrument is surveyed, the first mounting groove is offered at the top of the pedestal, it is flexible that first is installed in the bottom interior wall of the first mounting groove Motor is equipped with loading plate on the output shaft of first telescope motor, is in contact at the top of the bottom of loading plate and pedestal, institute It states and the second telescope motor is installed on loading plate, movable plate, the bottom of movable plate are installed on the output shaft of the second telescope motor It being in contact at the top of loading plate, a side roof part of the movable plate far from supersonic reflectoscope offers the second mounting groove, the Electric rotating machine is installed on the side inner wall of two mounting grooves, the first runner is installed on the output shaft of electric rotating machine, The second runner is rotatablely equipped in second mounting groove, same belt is matched on the first runner and the second runner, it is described The side of second runner is installed with connecting shaft, and the one end of connecting shaft far from the second runner is installed with rotor plate, rotation Side of the plate far from supersonic reflectoscope extends to the outside of movable plate, and the lower rotation of the rotor plate is equipped with connecting rod, Supersonic reflectoscope is installed with conducting wire close to the side of movable plate, and the one end of conducting wire far from supersonic reflectoscope is fixedly mounted There is ultrasonic probe, ultrasonic probe is electrically connected with supersonic reflectoscope, and connecting rod is adapted with conducting wire.

Preferably, it is installed with what is connect with the first mounting groove side walls on the output shaft of first telescope motor Pillar is fixedly mounted in sliding panel, the top of sliding panel, and the bottom of loading plate is mutually welded with the top of pillar.

Preferably, sliding slot is offered at the top of the loading plate, the bottom of movable plate is installed with to be slided with chute wall The sliding block of dynamic connection, the output shaft of the second telescope motor are mutually welded with sliding block.

Preferably, through-hole is offered on the movable plate, entire through-hole is run through in the one end of conducting wire far from supersonic reflectoscope.

Preferably, fixed block is installed on the conducting wire, bottom end and the fixed block of connecting rod are rotatablely connected.

Preferably, shaft is installed on the rotor plate, top and the shaft of connecting rod are rotatablely connected.

Preferably, supporting rod is installed on the side inner wall of second mounting groove, the second runner is far from connecting shaft Side and supporting rod one end be rotatablely connected.

The beneficial effects of the utility model：Pass through pedestal, the first mounting groove, the first telescope motor, loading plate, sliding slot, Two telescope motors, sliding block, movable plate and conducting wire match, and are adjusted convenient for the height to ultrasonic probe, by movable plate, Second mounting groove, electric rotating machine, the first runner, the second runner, belt, connecting shaft, rotor plate, connecting rod and fixed block match It closes, is adjusted convenient for the angle to ultrasonic probe, the utility model is convenient for according to actual needs to the height of ultrasonic probe Degree and angle are adjusted, and make the range bigger of detection, simple in structure, easy to use.

Description of the drawings

Fig. 1 be the utility model proposes a kind of architectural engineering structural crack detection device main structure diagram；

Fig. 2 be the utility model proposes a kind of architectural engineering structural crack detection device part A structural representation Figure；

Fig. 3 be the utility model proposes a kind of architectural engineering structural crack detection device part-structure schematic diagram；

Fig. 4 be the utility model proposes a kind of architectural engineering structural crack detection device partial structural diagram.

In figure：1 pedestal, 2 supersonic reflectoscopes, 3 first mounting grooves, 4 first telescope motors, 5 loading plates, 6 sliding slots, 7 Two telescope motors, 8 sliding blocks, 9 movable plates, 10 second mounting grooves, 11 electric rotating machines, 12 first runners, 13 second runners, 14 skins Band, 15 connecting shafts, 16 rotor plates, 17 connecting rods, 18 conducting wires, 19 ultrasonic probes, 20 fixed blocks.

Specific embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.

With reference to Fig. 1-4, a kind of architectural engineering structural crack detection device including pedestal 1 and is fixedly installed in pedestal 1 and pushes up The supersonic reflectoscope 2 in portion, the top of pedestal 1 offer the first mounting groove 3, peace are fixed in the bottom interior wall of the first mounting groove 3 Equipped with the first telescope motor 4, loading plate 5, bottom and the pedestal 1 of loading plate 5 are installed on the output shaft of first telescope motor 4 Top is in contact, and the second telescope motor 7 is equipped on loading plate 5, movable plate 9 is equipped on the output shaft of the second telescope motor 7, The bottom of movable plate 9 is in contact with the top of loading plate 5, and a side roof part of the movable plate 9 far from supersonic reflectoscope 2 offers Two mounting grooves 10, are installed with electric rotating machine 11 on the side inner wall of the second mounting groove 10, on the output shaft of electric rotating machine 11 The first runner 12 is installed with, the second runner 13, the first runner 12 and the second runner are rotatablely equipped in the second mounting groove 10 Same belt 14 is matched on 13, the side of the second runner 13 is installed with connecting shaft 15, and connecting shaft 15 is far from second turn One end of wheel 13 is installed with rotor plate 16, and side of the rotor plate 16 far from supersonic reflectoscope 2 extends to the outer of movable plate 9 Side, the lower rotation of rotor plate 16 are equipped with connecting rod 17, and supersonic reflectoscope 2 is installed with close to the side of movable plate 9 Conducting wire 18, the one end of conducting wire 18 far from supersonic reflectoscope 2 are installed with ultrasonic probe 19, ultrasonic probe 19 and ultrasound Wave detector 2 is electrically connected, and connecting rod 17 is adapted with conducting wire 18, by pedestal 1, the first mounting groove 3, the first telescope motor 4, Loading plate 5, sliding slot 6, the second telescope motor 7, sliding block 8, movable plate 9 and conducting wire 18 match, convenient for ultrasonic probe 19 It is highly adjusted, passes through movable plate 9, the second mounting groove 10, electric rotating machine 11, the first runner 12, the second runner 13, belt 14th, connecting shaft 15, rotor plate 16, connecting rod 17 and fixed block 20 match, and are adjusted convenient for the angle to ultrasonic probe 19 Section, the utility model make the range of detection convenient for the height and angle of ultrasonic probe 19 are adjusted according to actual needs Bigger, it is simple in structure, it is easy to use.

In the utility model, it is installed on the output shaft of the first telescope motor 4 and connects with 3 side walls of the first mounting groove Pillar is fixedly mounted in the sliding panel connect, the top of sliding panel, and the bottom of loading plate 5 is mutually welded with the top of pillar, loading plate 5 Top offers sliding slot 6, and the bottom of movable plate 9 is installed with the sliding block 8 being connect with 6 side walls of sliding slot, the second flexible electricity The output shaft of machine 7 is welded with 8 phase of sliding block, offers through-hole on movable plate 9, the one end of conducting wire 18 far from supersonic reflectoscope 2 is passed through Entire through-hole is worn, fixed block 20 is installed on conducting wire 18, bottom end and the fixed block 20 of connecting rod 17 are rotatablely connected, rotor plate Shaft is installed on 16, top and the shaft of connecting rod 17 are rotatablely connected, fixed on the side inner wall of the second mounting groove 10 Supporting rod is installed, one end rotation connection of side and supporting rod of second runner 13 far from connecting shaft 15 passes through pedestal 1, the One mounting groove 3, the first telescope motor 4, loading plate 5, sliding slot 6, the second telescope motor 7, sliding block 8, movable plate 9 and conducting wire 18 match It closes, is adjusted convenient for the height to ultrasonic probe 19, passes through movable plate 9, the second mounting groove 10, electric rotating machine 11, first Runner 12, the second runner 13, belt 14, connecting shaft 15, rotor plate 16, connecting rod 17 and fixed block 20 match, convenient for super The angle of sonic probe 19 is adjusted, and the utility model is convenient for according to actual needs to the height and angle of ultrasonic probe 19 It is adjusted, makes the range bigger of detection, it is simple in structure, it is easy to use.

Operation principle：Sliding panel is driven to be moved by the first telescope motor 4, pillar is driven to be moved by sliding panel It is dynamic, loading plate 5 is driven to be moved by pillar, movable plate 9 is driven to be moved by loading plate 5, driven by movable plate 9 Conducting wire 18 is moved, and ultrasonic probe 19 is driven to be moved in vertical direction by conducting wire 18, so as to be visited to ultrasonic wave First 19 height is adjusted, and the first runner 12 is driven to be rotated by electric rotating machine 11, and skin is driven by the first runner 12 Band 14 is rotated, and the second runner 13 is driven to be rotated by belt 14, connecting shaft 15 is driven to carry out by the second runner 13 Rotation, drives rotor plate 16 to be rotated by connecting shaft 15, connecting rod 17 is driven to be moved by rotor plate 16, passes through company Extension bar 17 drives fixed block 20 to be moved, and conducting wire 18 is driven to be moved by fixed block 20, ultrasound is driven by conducting wire 18 Wave probe 19 is moved, so as to which the angle of ultrasonic probe 19 be adjusted, by the second telescope motor 7 with movable slider 8 It is moved, movable plate 9 is driven to be moved in the horizontal direction by sliding block 8, conducting wire 18 is driven to be moved by movable plate 9 It is dynamic, ultrasonic probe 19 is driven to be moved in the horizontal direction by conducting wire 18.

The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not This is confined to, in the technical scope that any one skilled in the art discloses in the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (7)

1. a kind of architectural engineering structural crack detection device, including pedestal（1）Be fixedly installed in pedestal（1）The ultrasound at top Wave detector（2）, which is characterized in that the pedestal（1）Top offer the first mounting groove（3）, the first mounting groove（3）Bottom The first telescope motor is installed on portion's inner wall（4）, first telescope motor（4）Output shaft on loading plate is installed （5）, loading plate（5）Bottom and pedestal（1）Top be in contact, the loading plate（5）On the second telescope motor is installed （7）, the second telescope motor（7）Output shaft on movable plate is installed（9）, movable plate（9）Bottom and loading plate（5）Top It is in contact, the movable plate（9）Far from supersonic reflectoscope（2）A side roof part offer the second mounting groove（10）, the second peace Tankage（10）Side inner wall on be installed with electric rotating machine（11）, electric rotating machine（11）Output shaft on be installed with One runner（12）, second mounting groove（10）Inside it is rotatablely equipped with the second runner（13）, the first runner（12）With the second runner （13）On be matched with same belt（14）, second runner（13）Side be installed with connecting shaft（15）, connecting shaft （15）Far from the second runner（13）One end be installed with rotor plate（16）, rotor plate（16）Far from supersonic reflectoscope（2） Side extend to movable plate（9）Outside, the rotor plate（16）Lower rotation connecting rod is installed（17）, ultrasonic wave inspection Survey instrument（2）Close to movable plate（9）Side be installed with conducting wire（18）, conducting wire（18）Far from supersonic reflectoscope（2）One End is installed with ultrasonic probe（19）, ultrasonic probe（19）With supersonic reflectoscope（2）It is electrically connected, connecting rod（17） With conducting wire（18）It is adapted.

2. a kind of architectural engineering structural crack detection device according to claim 1, which is characterized in that described first stretches Contracting motor（4）Output shaft on be installed with and the first mounting groove（3）The sliding panel of side walls connection, the top of sliding panel Pillar, loading plate is fixedly mounted（5）Bottom and the top of pillar mutually weld.

A kind of 3. architectural engineering structural crack detection device according to claim 1, which is characterized in that the loading plate （5）Top offer sliding slot（6）, movable plate（9）Bottom be installed with and sliding slot（6）The sliding block of side walls connection （8）, the second telescope motor（7）Output shaft and sliding block（8）Mutually weld.

A kind of 4. architectural engineering structural crack detection device according to claim 1, which is characterized in that the movable plate （9）On offer through-hole, conducting wire（18）Far from supersonic reflectoscope（2）One end run through entire through-hole.

A kind of 5. architectural engineering structural crack detection device according to claim 1, which is characterized in that the conducting wire （18）On be installed with fixed block（20）, connecting rod（17）Bottom end and fixed block（20）Rotation connection.

A kind of 6. architectural engineering structural crack detection device according to claim 1, which is characterized in that the rotor plate （16）On be installed with shaft, connecting rod（17）Top and shaft be rotatablely connected.

A kind of 7. architectural engineering structural crack detection device according to claim 1, which is characterized in that second peace Tankage（10）Side inner wall on be installed with supporting rod, the second runner（13）Far from connecting shaft（15）Side and supporting rod One end rotation connection.