CN221325509U - Multi-position sensor mounting structure for bridge fabrication machine - Google Patents

Abstract

The utility model relates to the technical field related to bridge construction, in particular to a multi-position sensor mounting structure for a bridge fabrication machine, which comprises a main clamping block and an auxiliary clamping block which are symmetrically arranged, wherein the main clamping block and the auxiliary clamping block are respectively provided with a connecting groove, the end surface of the main clamping block is provided with a chute penetrating upwards, a guide block is connected in a sliding manner in the chute, the length of the guide block is smaller than that of the chute, a universal ball is movably connected in the guide block, a stud extending out of the chute is fixedly connected on the universal ball, and the stud is used for fixing a sensor; according to the utility model, the sensor can be mounted on each part of the bridge fabrication machine through the matching of the main clamping blocks and the auxiliary clamping blocks, so that the bridge fabrication machine is convenient to mount and replace in time, the adjustment is convenient, the guide blocks are matched with the studs and the universal balls, the direction of the sensor is easier to adjust and fix, the detection of the sensor is convenient, the gap between the guide blocks and the sliding grooves can facilitate the contact of the sensor to extend in, and the bridge fabrication machine is attached, so that the detection effect is improved.

Description

Multi-position sensor mounting structure for bridge fabrication machine

Technical Field

The utility model relates to the technical field related to bridge construction, in particular to a multi-position sensor mounting structure for a bridge fabrication machine.

Background

In the existing construction technology of the bridge fabrication machine, most of the construction machines are still in on-site operation and safety monitoring of constructors, and the construction process is seriously dependent on experience judgment of the constructors. In the construction process of the bridge fabrication machine, a plurality of construction procedures with larger dangers such as displacement, suspension casting and the like are involved, a constructor is required to accurately judge the overall levelness of the bridge fabrication machine, the displacement of a bridge fabrication machine template and the internal force condition of each rod piece, and the construction condition of the bridge fabrication machine is controlled by experience and visual inspection of field constructors, so that the operation safety condition of the bridge fabrication machine cannot be monitored in real time.

The existing equipment can be provided with corresponding sensors at a plurality of parts of the bridge fabrication machine, so that corresponding monitoring work is carried out on each part of the bridge fabrication machine body, and judgment work is carried out. However, in operation, the engineering that the bridge fabrication machine needs to contact is more in sundries falling, the sensor is easy to damage due to movement adjustment and maintenance, equipment fixed on the machine body is inconvenient to repair, the main position of the machine body is also adjusted in different stages of engineering, and the installation loss of the whole position is large.

Disclosure of utility model

The utility model aims to provide a multi-position sensor mounting structure for a bridge fabrication machine, which solves the problems.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a multiposition sensor mounting structure for bridge fabrication machine, includes main clamp splice and vice clamp splice that the symmetry set up, main clamp splice with all be equipped with the spread groove on the vice clamp splice, be equipped with the spout that upwards runs through on the terminal surface of main clamp splice, sliding connection has the guide block in the spout, guide block length is less than the length of spout, swing joint has the universal ball in the guide block, fixedly connected with stretches out on the universal ball the double-screw bolt of spout, the double-screw bolt is used for fixed sensor.

The beneficial effects are that: through the cooperation of main clamp splice and vice clamp splice, can install each position of bridge fabrication machine with the sensor, the convenient in time installation is changed, and the adjustment is convenient, and guide block cooperation double-screw bolt and universal ball, the direction of fixed sensor of easier adjustment, the detection of convenient sensor, and the clearance between guide block and the spout can make things convenient for the contact of sensor to stretch into, laminating bridge fabrication machine improves the detection effect.

Further, the upper side of the sliding groove is provided with a limiting groove, the guide block cannot penetrate through the limiting groove, and the stud penetrates through the limiting groove.

Further, the stud is in threaded connection with two nuts on the upper side of the limiting groove.

Further, the stud is movably connected with a limiting rod on the upper side of the limiting groove, the limiting rod cannot penetrate through the limiting groove, a clearance groove penetrating through the limiting rod vertically is formed in the limiting rod, and the stud penetrates through the clearance groove.

Further, a movable groove penetrating upwards is formed in the guide block, the universal ball is accommodated in the movable groove, and the stud extends out of the movable groove.

Further, the two side walls of the main clamping block and the auxiliary clamping block are fixedly connected with connecting plates, and the connecting plates are connected through screw threads.

Further, the end surfaces of the main clamping block and the auxiliary clamping block are respectively and rotatably connected with a movable clamping plate.

Drawings

FIG. 1 is a schematic diagram of an overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of a main clamping block according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of a guide block according to an embodiment of the present utility model.

Reference numeral 11, a main clamping block; 12. a secondary clamping block; 13. a connecting plate; 14. a movable clamping plate; 15. a limit groove; 16. a chute; 21. a guide block; 22. a limit rod; 23. a nut; 24. a stud; 25. a clearance groove; 31. a universal ball; 32. a movable groove.

Detailed Description

The following description is only of the preferred embodiments of the present utility model, and the scope of the present utility model should not be limited to the examples, but should be construed as falling within the scope of the present utility model. It should also be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present utility model are intended to be comprehended within the scope of the present utility model.

See the fig. 1-3 show, a multiposition sensor mounting structure for bridge fabrication machine, including main clamp splice 11 and vice clamp splice 12 that the symmetry set up, main clamp splice 11 with vice clamp splice 12 structure is basically the same, main clamp splice 11 is used for connecting the installation sensor, and vice clamp splice 12 is for the cooperation vice clamp splice 12 is fixed, main clamp splice 11 with all be equipped with the spread groove on main clamp splice 11 with vice clamp splice 12, the spread groove is the arc, just the spread groove runs through axially, the spread groove is non-semicircular, conveniently laminates various pipeline spare on the bridge fabrication machine, convenient fixed work.

The end faces of the main clamping block 11 and the auxiliary clamping block 12 are respectively and rotatably connected with a movable clamping plate 14, and the movable clamping plates 14 are positioned on two sides of the connecting groove, so that the mounting face can be conveniently attached.

Further, the two side walls of the main clamping block 11 and the auxiliary clamping block 12 are fixedly connected with connecting plates 13, and the connecting plates 13 are in threaded connection through screws.

The end face of the main clamping block 11 is provided with a chute 16 penetrating upwards, a guide block 21 is connected in a sliding manner in the chute 16, the guide block 21 is used for connecting and fixing a sensor, the length of the guide block 21 is smaller than that of the chute 16, a certain gap is reserved between the guide block 21 and the side wall of the chute 16, an additional contact line of the sensor conveniently penetrates through the chute 16, and therefore a bridge fabrication machine is contacted, and accuracy of measured data is guaranteed.

The guide block 21 is movably connected with a universal ball 31, the universal ball 31 is fixedly connected with a stud 24 extending out of the chute 16, and the stud 24 is used for fixing a sensor.

The upper side of the chute 16 is provided with a limit groove 15, the guide block 21 cannot pass through the limit groove 15, and the stud 24 passes through the limit groove 15.

The stud 24 is screwed with two nuts 23 on the upper side of the limit groove 15.

The stud 24 is movably connected with a limit rod 22 on the upper side of the limit groove 15, the limit rod 22 cannot pass through the limit groove 15, a clearance groove 25 penetrating up and down is arranged in the limit rod 22, and the stud 24 passes through the clearance groove 25.

The guide block 21 is provided with a movable groove 32 penetrating upwards, the universal ball 31 is accommodated in the movable groove 32, and the stud 24 extends out of the movable groove 32.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. A multiposition sensor mounting structure for bridge fabrication machine, including main clamp splice (11) and vice clamp splice (12) that the symmetry set up, main clamp splice (11) with all be equipped with the spread groove on vice clamp splice (12), its characterized in that: the novel sliding block is characterized in that a sliding groove (16) penetrating upwards is formed in the end face of the main clamping block (11), a guide block (21) is connected in the sliding groove (16) in a sliding mode, the length of the guide block (21) is smaller than that of the sliding groove (16), a universal ball (31) is movably connected in the guide block (21), a stud (24) extending out of the sliding groove (16) is fixedly connected to the universal ball (31), and the stud (24) is used for fixing a sensor.

2. A multi-position sensor mounting structure for a bridge fabrication machine as defined in claim 1, wherein: the upper side of the sliding groove (16) is provided with a limiting groove (15), the guide block (21) cannot penetrate through the limiting groove (15), and the stud (24) penetrates through the limiting groove (15).

3. A multi-position sensor mounting structure for a bridge fabrication machine according to claim 2, wherein: the stud (24) is in threaded connection with two nuts (23) on the upper side of the limit groove (15).

4. A multi-position sensor mounting structure for a bridge fabrication machine according to claim 3, wherein: the stud (24) is movably connected with a limiting rod (22) at the upper side of the limiting groove (15), the limiting rod (22) cannot penetrate through the limiting groove (15), a clearance groove (25) penetrating up and down is formed in the limiting rod (22), and the stud (24) penetrates through the clearance groove (25).

5. A multi-position sensor mounting structure for a bridge fabrication machine according to claim 2, wherein: the guide block (21) is internally provided with a movable groove (32) penetrating upwards, the universal ball (31) is accommodated in the movable groove (32), and the stud (24) extends out of the movable groove (32).

6. A multi-position sensor mounting structure for a bridge fabrication machine as defined in claim 1, wherein: connecting plates (13) are fixedly connected to the two side walls of the main clamping block (11) and the auxiliary clamping block (12), and the connecting plates (13) are connected through screw threads.

7. A multi-position sensor mounting structure for a bridge fabrication machine as defined in claim 1, wherein: the end surfaces of the main clamping block (11) and the auxiliary clamping block (12) are respectively and rotatably connected with a movable clamping plate (14).