CN210457385U - Single-beam automatic detection hanging basket device - Google Patents

Abstract

The utility model discloses an automatic hanging flower basket device that detects of monospar, including the hanging flower basket body and be used for driving the hoist system of hanging flower basket body motion, fixed mounting has the slide rail that supplies the storage box to remove on the top length direction of hanging flower basket body, be provided with static strain data acquisition appearance in the storage box, iron hammer and deflectometer, install the foil gage on the test position of monospar bottom, it squeezes into the inflation screw to lie in foil gage side department on the test position of monospar bottom, the one end and the inflation screw fixed connection of iron wire, the iron hammer suspends in midair in the storage box through the other end of iron wire, the deflectometer butt is kept away from between the one end of iron wire and the storage box bottom plate at the iron hammer, the bottom of hanging flower basket body is provided with buffer bottom. The utility model discloses place static strain data acquisition instrument, hammer and scratching the meter in storage box, storage box provides the fixed basis of installation for scratching the meter, is convenient for and the hammer cooperation, and avoids swing by a wide margin of hammer, ensures construction safety, avoids the continuous work of bowing of operating personnel.

Description

Single-beam automatic detection hanging basket device

Technical Field

The utility model belongs to the technical field of the monospar detects, concretely relates to monospar automated inspection hanging flower basket device.

Background

The single-beam detection hanging basket is hoisting equipment which is hung at the bottom of a high-span bridge by using a steel wire rope and enables a working platform to vertically lift by providing power through an electric hoist, and is mainly used for detecting and constructing the lower part of the high-span bridge. In the practical use process, especially when the lower part strain force and the bearing capacity are detected, the converter placed on the ground is required to be connected with the strain gauge at different parts of the lower part of the bridge through electric wires, and the electric wires and the converter placed on the ground shorten the service life of the hanging basket due to the friction, dust and artificial treading behaviors of the ground in the lifting process of the hanging basket, and also hinder the under-bridge traffic of constructors and urban bridge construction operation. In addition, during construction operation, a constructor needs to often bend down to take articles placed on the working platform, which causes great inconvenience to the construction process. In the descending process of the hoister, the descending speed is higher than the ascending speed due to the action of gravity, so that the hanging basket can vibrate after contacting with the ground, the materials placed on the working platform overflow and the discomfort of workers is caused. Therefore, the existing hanging basket equipment needs to be improved, so that the bridge construction and detection process is more convenient and reliable, and the safety and the use performance of the electric hanging basket are guaranteed.

At present, in the single-beam detection process, a detection instrument, a strain line, a deflection line and the like are generally placed at the ground position under a bridge, and in the detection process, because the number of the strain line and the deflection line in the detection field is large, in the experimental process, traffic control needs to be carried out on the bridge over-line area, so that the normal passage of a road below is hindered, the instrument can be damaged to a certain degree, and the method is particularly prominent in the municipal engineering detection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the prior art is directed against, a single beam automated inspection hanging flower basket device is provided, its novel in design is reasonable, with static strain data acquisition instrument, hammer and deflection meter are placed in the storage box, the storage box provides the fixed basis of installation for the deflection meter, be convenient for and the hammer cooperation, and avoid the swing by a wide margin of hammer, ensure construction safety, avoid the continuous work of bowing of operating personnel simultaneously, improve detection efficiency, in addition, set up the buffering bottom plate through the bottom at the hanging flower basket body, avoid the hanging flower basket can produce vibrations after contacting with ground, lead to the material on the storage box to spill over, arouse the staff discomfort, convenient to popularize and use.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a single beam automated inspection hanging flower basket device, includes the hanging flower basket body and is used for driving the hoist system of hanging flower basket body motion, hoist system includes steel nail, hoist mechanism and wire rope, the steel nail is fixed in the roof beam seam between two adjacent single beams, its characterized in that: pulley seats for mounting pulleys are respectively arranged on two sides of the top end of the hanging basket body, one end of a steel wire rope is fixedly connected with the steel nails, the other end of the steel wire rope is connected with the lifting mechanism through the pulleys, a slide rail for moving the storage box is fixedly mounted on the length direction of the top end of the hanging basket body, the storage box is a storage box with an opening at the top, a static strain data acquisition instrument, an iron hammer and a deflectometer are arranged in the storage box, a strain gauge is mounted on a test position at the bottom of a single beam, an expansion screw is driven into the test position at the bottom of the single beam at the side of the strain gauge, one end of the iron wire is fixedly connected with the expansion screw, the iron hammer is suspended in the storage box through the other end of the iron wire, the deflectometer is abutted between one end of the iron hammer, which is far away from the iron wire, and the storage plate, and a signal output, and a buffer bottom plate is arranged at the bottom end of the hanging basket body.

The automatic hanging flower basket device that detects of foretell monospar, its characterized in that: the buffer bottom plate is connected with the bottom end of the hanging basket body through a damping shock absorber.

The automatic hanging flower basket device that detects of foretell monospar, its characterized in that: the buffer bottom plate is a steel plate or a rubber plate.

The automatic hanging flower basket device that detects of foretell monospar, its characterized in that: the number of the damping shock absorbers is four, and the four damping shock absorbers are arranged at four corner positions of the bottom end of the hanging basket body.

The automatic hanging flower basket device that detects of foretell monospar, its characterized in that: the static strain data acquisition instrument is communicated with the ground monitor through a wireless communication module.

The automatic hanging flower basket device that detects of foretell monospar, its characterized in that: the deflectometer is an HD-YHD-50 displacement sensor, the HD-YHD-50 displacement sensor is vertically arranged on a bottom plate of the storage box, the probe end of the HD-YHD-50 displacement sensor faces upwards, and the probe end of the HD-YHD-50 displacement sensor is abutted to one end of the hammer, which is far away from the iron wire.

The automatic hanging flower basket device that detects of foretell monospar, its characterized in that: and a sliding block matched with the sliding rail is arranged on the outer side wall of the storage box.

Compared with the prior art, the utility model has the following advantage:

1. the utility model discloses a slide rail that fixed mounting supplied the storage box to remove on the top length direction of hanging flower basket body satisfies the detection of the different positions in monospar bottom on hanging flower basket body length direction, avoids the continuous adjustment to hanging flower basket position, convenient to popularize and use.

2. The utility model discloses a fixed mounting supplies storage box on the top length direction of hanging flower basket body, with static strain data acquisition instrument, hammer and flexometer place in storage box, avoid the continuous work of bowing of operating personnel, improve detection efficiency, and simultaneously, hanging flower basket body rocks something common in the high altitude construction, nevertheless there is certain potential safety hazard in rocking of hammer in the high altitude construction, in case strike staff or fall to ground, can bring inestimable consequence, storage box has injectd the amplitude of fluctuation and the swing region of hammer, if the iron wire ligature is not hard up, the hammer then falls in storage box, the stable speed of hammer has been accelerated in the time of safety, and is reliable stable, excellent in use effect.

3. The utility model relates to a novelty is reasonable, and the storage box provides the fixed basis of installation for the deflectometer, is convenient for and the cooperation of iron hammer, realizes the deflection measurement, convenient to popularize and use.

4. The utility model discloses a set up the buffering bottom plate in the bottom of hanging flower basket body, guarantee that the hanging flower basket body descends fast and cushions vibrations after contacting with ground, avoid placing this internal material of hanging flower basket and spill over and arouse the staff uncomfortable.

To sum up, the utility model relates to a novel reasonable places static strain data acquisition instrument, the iron hammer and scratching the meter in storage box, storage box provides the fixed basis of installation for scratching the meter, be convenient for with the iron hammer cooperation, and avoid swing by a wide margin of iron hammer, ensure construction safety, avoid the continuous work of bowing of operating personnel simultaneously, improve detection efficiency, in addition, set up buffer bottom plate through the bottom at the hanging flower basket body, avoid the hanging flower basket can produce vibrations after contacting with ground, lead to the material on the storage box to spill over, arouse the staff discomfort, convenient to popularize and use.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a right side view of fig. 1.

Fig. 3 is a schematic view of the connection relationship between the deflectometer and the static strain data acquisition instrument in the storage box.

Description of reference numerals:

1-single beam; 2-beam gap; 3-steel wire rope;

4-a lifting mechanism; 5, hanging basket body; 6, a slide rail;

7, a storage box; 8, a buffer bottom plate; 9-damping shock absorber;

10-a pulley seat; 11-a pulley; 12-strain gauge;

13-expansion screw; 14-iron wire; 15-hammer iron;

16-deflectometer; and 17, a static strain data acquisition instrument.

Detailed Description

As shown in fig. 1 to 3, the utility model comprises a hanging basket body 5 and a lifting system for driving the hanging basket body 5 to move, wherein the lifting system comprises steel nails, a lifting mechanism 4 and steel wire ropes 3, the steel nails are fixed in beam gaps 2 between two adjacent single beams 1, pulley seats 10 for installing pulleys 11 are respectively arranged on two sides of the top end of the hanging basket body 5, one end of each steel wire rope 3 is fixedly connected with the steel nails, the other end of each steel wire rope 3 is connected with the lifting mechanism 4 through the pulley 11, a slide rail 6 for moving the storage box 7 is fixedly installed on the top end of the hanging basket body 5 in the length direction, the storage box 7 is an open-topped storage box, a static strain data acquisition instrument 17, an iron hammer 15 and a deflectometer 16 are arranged in the storage box 7, a strain gauge 12 is installed on a test position at the bottom of the single beam 1, an expansion screw 13 is driven into the test position at the strain gauge 12 at the bottom of the single, iron wire 14's one end and inflation screw 13 fixed connection, hammer 15 suspends in midair in storage box 7 through iron wire 14's the other end, and the 16 butt of deflectometer keeps away from between iron wire 14's one end and the storage box 7 bottom plate at hammer 15, and the signal output part of deflectometer 16 and the signal output part of foil gage 12 all are connected with static strain data acquisition instrument 17's signal input part, the bottom of hanging flower basket body 5 is provided with buffer bottom plate 8.

It should be noted that, the slide rails 6 for moving the storage box 7 are fixedly installed in the length direction of the top end of the hanging basket body 5, so that the detection of different positions at the bottom of a single beam is met in the length direction of the hanging basket body 5, and the continuous adjustment of the hanging basket position is avoided; the storage box 7 is fixedly installed in the length direction of the top end of the hanging basket body 5, the static strain data acquisition instrument 17, the iron hammer 15 and the deflectometer 16 are placed in the storage box 7, continuous stooping work of operators is avoided, detection efficiency is improved, meanwhile, the hanging basket body 5 is usually shaken in high-altitude operation, however, certain potential safety hazards exist in the shaking of the iron hammer 15 in high-altitude operation, once the operators are impacted or fall to the ground, inestimable consequences can be brought, the storage box 7 limits the swinging amplitude and the swinging area of the iron hammer 15, if iron wires are bound to be loose, the iron hammer 15 falls into the storage box 7, the stable speed of the iron hammer 15 is accelerated safely, and reliability and stability are realized; the storage box provides a fixed mounting foundation for the deflectometer, is convenient to be matched with the hammer, and realizes the deflectometer; the bottom end of the hanging basket body 5 is provided with the buffer bottom plate 8, so that the hanging basket body 5 is ensured to quickly descend and buffer vibration after contacting with the ground, and the overflow of materials placed in the hanging basket body 5 and the discomfort of workers are avoided; pulley seats 10 are respectively arranged on two sides of the top end of the hanging basket body 5, so that pulleys 11 are installed, the steel wire rope 3 is guided, friction between the steel wire rope 3 and the hanging basket body 5 in the winding process is avoided, and the service life of the steel wire rope 3 is prolonged.

In this embodiment, the buffer bottom plate 8 is connected to the bottom end of the basket body 5 through a damping shock absorber 9.

In this embodiment, the buffer bottom plate 8 is a steel plate or a rubber plate.

In this embodiment, the number of the damping shock absorbers 9 is four, and four damping shock absorbers 9 are installed at four corner positions of the bottom end of the basket body 5.

In this embodiment, the static strain data acquisition instrument 17 communicates with the ground monitor through a wireless communication module.

It should be noted that the static strain data acquisition instrument 17 preferably adopts a DH3820 static strain data acquisition instrument, and the DH3820 static strain data acquisition instrument can process strain data, displacement sensor output data, and load sensor output data at the same time, and has complete functions; the ZSD3110DTU module is preferably adopted by the wireless communication module, so that data transmission is stable, complex wiring is avoided, and the wireless communication module is suitable for outdoor environments.

In this embodiment, the deflectometer 16 is a HD-YHD-50 displacement sensor, the HD-YHD-50 displacement sensor is vertically installed on the bottom plate of the storage box 7 with its probe end facing upward, and the probe end of the HD-YHD-50 displacement sensor is abutted to one end of the hammer 15 far away from the iron wire 14.

In actual use, the BY120-100AA strain gauge is adopted as the strain gauge 12.

In this embodiment, install on the lateral wall of storage box 7 with slide rail 6 complex slider.

In actual use, preferred slide rail 6 is the rectangle steel pipe, the preferred channel-section steel and notch of adopting of slider are down, make storage box 7 hang on the rectangle steel pipe, and slide rail 6 adopts the rectangle steel pipe, and with the channel-section steel cooperation, be convenient for keep the vertical of storage box 7 to hang on the rectangle steel pipe.

When the utility model is used, one end of a steel wire rope 3 is fixed on a single beam 1 through a steel nail, a lifting mechanism 4 is matched with the steel nail and lifts a hanging basket body 5 through the steel wire rope 3, the steel wire rope 3 is guided by a pulley 11 to avoid the abrasion of the steel wire rope 3, when the hanging basket body 5 is lifted to the bottom of the single beam 1 from the ground, the position of a storage box 7 is determined through the movement of a slide rail 6 by a slide block, an expansion screw 13 is driven into the bottom of the single beam 1 opposite to the storage box 7, an iron wire 14 is bound on the expansion screw 13, an iron hammer 15 is hung at one end of the iron wire 14 far away from the expansion screw 13, when the iron hammer 15 is static, the probe end of a deflectometer 16 is upwards abutted against the bottom of the iron hammer 15, when the position to be tested of the single beam 1 is shifted and slightly downwards, the deflectometer 16 is pressed under the iron hammer 15, the testing of the deflectometer 1 is realized, a strain, strain gauge 12 and deflectometer 16 all are connected with static strain data collection appearance 17, static strain data collection appearance 17 passes through wireless communication module and ground monitoring machine communication, with real-time transmission to ground monitoring machine of the testing result of this monospar 1, wait to detect after finishing, hoist mechanism 4 control hanging flower basket body 5 descends, buffering bottom plate 8 at first contacts with ground, cushion the collision of hanging flower basket body 5 with ground through damping bumper 9, storage box 7 provides the installation fixed basis for the deflectometer 16, be convenient for with the cooperation of iron hammer 15, and avoid swing by a wide margin of iron hammer 15, ensure construction safety, avoid the continuous work of bowing of operating personnel simultaneously, improve detection efficiency, buffer bottom plate 8's installation, avoid the hanging flower basket to produce vibrations after contacting with ground, lead to the material on the storage box to spill over, arouse the staff uncomfortable.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (7)

1. The utility model provides a single beam automated inspection hanging flower basket device, includes hanging flower basket body (5) and is used for driving the hoist system of hanging flower basket body (5) motion, hoist system includes steel nail, hoist mechanism (4) and wire rope (3), the steel nail is fixed in beam seam (2) between two adjacent single beam (1), its characterized in that: pulley seats (10) for mounting pulleys (11) are respectively arranged on two sides of the top end of the hanging basket body (5), one end of a steel wire rope (3) is fixedly connected with the steel nails, the other end of the steel wire rope (3) is connected with the lifting mechanism (4) through the pulleys (11), a sliding rail (6) for moving the storage box (7) is fixedly mounted on the length direction of the top end of the hanging basket body (5), the storage box (7) is a storage box with an opening at the top, a static strain data acquisition instrument (17), an iron hammer (15) and a deflectometer (16) are arranged in the storage box (7), a strain gauge (12) is mounted at a test position at the bottom of the single beam (1), an expansion screw (13) is driven into the test position at the side of the strain gauge (12) at the bottom of the single beam (1), one end of an iron wire (14) is fixedly connected with the expansion screw (13), and the iron hammer (15) is suspended in the storage box (7) through the other end of the iron, the deflectometer (16) butt is kept away from between the one end of iron wire (14) and storage box (7) bottom plate at hammer (15), and the signal output part of deflectometer (16) and the signal output part of foil gage (12) all are connected with the signal input part of static strain data acquisition instrument (17), the bottom of hanging flower basket body (5) is provided with buffer bottom plate (8).

2. The single-beam automatic detection hanging basket device according to claim 1, characterized in that: the buffer bottom plate (8) is connected with the bottom end of the hanging basket body (5) through a damping shock absorber (9).

3. The single-beam automatic detection hanging basket device according to claim 2, characterized in that: the buffer bottom plate (8) is a steel plate or a rubber plate.

4. The single-beam automatic detection hanging basket device according to claim 2, characterized in that: the number of the damping shock absorbers (9) is four, and the four damping shock absorbers (9) are arranged at four corner positions of the bottom end of the hanging basket body (5).

5. The single-beam automatic detection hanging basket device according to claim 1, characterized in that: the static strain data acquisition instrument (17) is communicated with the ground monitor through a wireless communication module.

6. The single-beam automatic detection hanging basket device according to claim 1, characterized in that: the deflectometer (16) is an HD-YHD-50 displacement sensor, the HD-YHD-50 displacement sensor is vertically arranged on a bottom plate of the storage box (7), a probe end of the HD-YHD-50 displacement sensor faces upwards, and the probe end of the HD-YHD-50 displacement sensor is abutted to one end, far away from the iron wire (14), of the hammer (15).

7. The single-beam automatic detection hanging basket device according to claim 1, characterized in that: and a sliding block matched with the sliding rail (6) is arranged on the outer side wall of the storage box (7).

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