CN218866107U - Fixing device for cable-tower GNSS measuring equipment - Google Patents

Abstract

The utility model discloses a cable tower GNSS measuring equipment fixing device, including the lower part solid fixed splint, but splint regulator, the scalable bracing piece in upper portion and settle GNSS measuring equipment's platform, its characterized in that: settle solid fixed splint on the cable tower back timber, adjust splint through the splint regulator and realize equipment horizontal displacement and adjust, be connected upper portion scalable bracing piece through threaded connection and lower part solid fixed splint and the platform of settling GNSS measuring equipment, through adjusting the scalable bracing piece in upper portion, realize the vertical displacement of equipment and adjust. The fixing device is simple in structure, the components are connected through threads, the mounting, the dismounting and the transportation are convenient, and the stability is good; compared with the fixing device of the traditional cable tower GNSS measuring equipment, the fixing device can be recycled, complex operations such as welding and cutting are not needed, the construction efficiency is improved, and the engineering cost is reduced; the device can freely adjust the horizontal displacement and the vertical displacement of the GNSS measuring equipment, and the equipment is fixed.

Description

Fixing device for cable-tower GNSS measuring equipment

Technical Field

The utility model belongs to GNSS erection equipment field specifically is a be suitable for steel structure buildings GNSS measuring equipment fixing device such as cable tower.

Background

GNSS refers to global navigation satellite positioning system. The GNSS can calculate the specific position of the target through signal transmission with the satellites, and the GNSS has the characteristics of high precision, high speed, no error accumulation and the like, so that the GNSS is widely applied to cable tower engineering in China and has obvious superiority in construction measurement of building engineering. However, in practical engineering, the GNSS surveying equipment is affected in many ways, which results in errors in the measurement result, and the most important point is the error caused by the fixing device of the GNSS surveying equipment. In practical applications, fixing devices of GNSS measurement apparatuses are various, and traditionally, dedicated tripods are mainly used or directly welded on buildings. The special tripod is easy to be influenced by external factors, and the feet of the special tripod are not fixedly connected with the structure, so that the influence of wind, construction structure vibration and the like is very easy to occur in high-rise buildings such as a cable tower and the like, and the error is generated between the measured result and the actual result; the GNSS measuring equipment fixing device is directly welded on the structure, workers are required to weld and cut in the high altitude, construction cost is improved, the GNSS measuring equipment cannot be adjusted according to actual construction conditions after welding, and once deviation occurs in welding, a measuring result can be directly influenced. Therefore the utility model discloses a new fixing device has been proposed based on exist among the above traditional GNSS measuring equipment fixing device not enough.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model discloses an it is not enough to high-rise steel construction GNSS measuring equipment fixing device existence such as traditional cable support, provide a simple structure, simple to operate, and be favorable to improving the fixing device of GNSS measuring equipment measuring precision, overcome that current fixing device is inflexible, the installation is complicated, measuring accuracy has the technique such as error not enough, improves the efficiency of construction, reduction in production cost.

The utility model discloses a realize like this, construct a cable tower GNSS measuring equipment fixing device, including solid fixed splint, splint regulator, the scalable bracing piece in upper portion and the platform of settling GNSS measuring equipment, its characterized in that: the fixed splint are arranged on the top beam of the cable tower, the horizontal displacement position of the splint is adjusted by the splint adjuster, the splint adjuster is arranged on the fixed splint, the upper telescopic support rod is connected on the fixed splint through threads, and the platform for arranging the GNSS measuring equipment is connected on the upper telescopic support rod through threads.

According to the utility model discloses a cable tower GNSS measuring equipment fixing device, its characterized in that: the fixed clamp plate is directly arranged on the top beam of the cable tower, one side of the clamp plate is provided with a thread tapping hole and is used for being connected with the upper telescopic support rod, one end of the thread tapping hole is provided with a through hole with a certain distance, the other end of the thread tapping hole is a non-through hole, and the hole is used for arranging the clamp plate adjuster.

According to cable tower GNSS measuring equipment fixing device, its characterized in that: the upper telescopic supporting rod is in threaded connection with a platform for arranging GNSS measuring equipment, and certain thread tapping is respectively arranged at two ends of the upper telescopic supporting rod.

According to the utility model discloses a cable tower GNSS measuring equipment fixing device, its characterized in that: the middle of the platform for arranging the GNSS measuring equipment is provided with a certain thread for connecting with the upper telescopic supporting rod.

A cable tower GNSS measuring equipment fixing device, including solid fixed splint, but the platform of splint regulator, the scalable bracing piece in upper portion and arrangement GNSS measuring equipment, but the platform of arrangement GNSS measuring equipment passes through threaded connection with solid fixed splint, can freely adjust GNSS equipment spatial position through the flexible bracing piece in splint regulator and upper portion, specifically include following step:

s1, arranging a fixed clamp plate on a cable tower top beam;

s2, arranging the splint regulator on the fixed splint;

s3, connecting the upper telescopic supporting rod to the fixed clamping plate through a screw;

and S4, after the telescopic supporting rod is connected with the fixed clamping plate, the upper GNSS measuring equipment fixing device is arranged on the telescopic supporting rod through threaded connection.

And S5, after the steps are completed, arranging GNSS measuring equipment, and adjusting the spatial displacement according to the actual situation through the splint adjuster and the upper telescopic supporting rod.

Preferably, the method comprises the following steps: in S1, after a proper position is selected, one surface with thread tapping in the fixing clamp plate faces upwards, and the fixing clamp plate is directly arranged on a top beam of a steel structure such as a cable tower.

Preferably, the method comprises the following steps: and S2, arranging the clamping plate adjuster in the small space on the fixed clamping plate, continuously adjusting the position of the clamping plate according to the requirement on horizontal displacement, and arranging the clamping plate adjuster to fix the horizontal position of the GNSS measuring equipment after the horizontal position is determined.

Preferably, the method comprises the following steps: and S3, vertically twisting the upper telescopic support rod, inserting the upper telescopic support rod into a small hole with certain thread tapping of the fixed clamping plate, and adjusting the vertical position of the GNSS measuring equipment through the telescopic support rod.

Preferably, the method comprises the following steps: and S4, twisting the upper end of the telescopic supporting rod, inserting the upper end of the telescopic supporting rod into a small tapping hole in the middle of the platform for fixing the GNSS measuring equipment, and completing the butt joint of the platform and the lower structure.

Preferably, the method comprises the following steps: in S5, after the fixing device is installed, the GNSS measuring equipment is arranged on the platform, and the space coordinate of the measuring equipment can be finely adjusted through the clamping plate adjuster and the telescopic supporting rod according to actual construction conditions in the later period.

The utility model has the advantages of as follows:

the utility model has the advantages that: but solid fixed splint direct settling is on the cable tower back timber, and scalable bracing piece and GNSS measuring equipment arrangement platform, solid fixed splint all adopt threaded connection, and can adjust GNSS measuring equipment three-dimensional space coordinate at any time through splint regulator, scalable bracing piece, and device simple structure is nimble changeable.

The utility model is suitable for an on high-rise steel structure buildings such as cable tower, can be with GNSS measuring equipment firmly fix on building structure, have simple structure, install advantages such as convenient, nimble variable, compare in traditional GNSS measuring equipment fixing device, the utility model discloses can effectively improve the efficiency of construction, reduce engineering cost, finely tune fixing device according to actual engineering demand, improve GNSS measuring equipment's precision.

Drawings

Fig. 1 is a schematic diagram of a cable tower GNSS surveying apparatus fixture.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings 1, wherein the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses an improve and provide a cable tower GNSS measuring equipment fixing device here, including solid fixed splint 1, splint regulator 2, the scalable bracing piece in upper portion 3 and the platform 4 of settling GNSS measuring equipment, gu fixed splint 1 settles at the cable tower back timber, has adjusted splint horizontal displacement position through splint regulator 2, splint regulator 2 settles on gu fixed splint 1, the scalable bracing piece in upper portion 3 passes through threaded connection on gu fixed splint 1, settle GNSS measuring equipment's platform 4 passes through threaded connection on the scalable bracing piece in upper portion 3.

The utility model discloses during implementation solid fixed splint 1 directly settles on the cable tower back timber, and its splint one side has the screw tapping for be connected with the scalable bracing piece 3 in upper portion, there is the certain through-hole of interval screw tapping one end, and the other end is the non-through-hole, and this hole is used for settling splint regulator 2.

The utility model discloses during the implementation but upper portion telescopic support pole 3 adopts threaded connection with platform 4 of settling GNSS measuring equipment, the certain screw tapping of its both ends system all.

The utility model discloses during the implementation settle GNSS measuring equipment's platform 4 middle parts and set up certain screw thread for be connected with the scalable bracing piece 3 in upper portion.

The utility model relates to a cable tower GNSS measuring equipment fixing device, this installation method as follows:

s1, directly arranging a fixed splint 1 on a cable tower top beam;

s2, arranging the clamp plate adjuster 2 on the fixed clamp plate 1, and performing horizontal displacement adjustment on the measuring equipment through the clamp plate adjuster 2;

s3, arranging the upper telescopic support rod 3 on the fixed splint 1, and adjusting the vertical displacement of the GNSS measuring device through the upper telescopic support rod;

s4, mounting the GNSS measuring equipment platform 4 on the upper telescopic supporting rod 3, and mounting the measuring equipment on the upper telescopic supporting rod;

and S5, after the steps are completed, fine adjustment can be carried out on the GNSS measuring equipment through the clamping plate adjuster 2 and the telescopic supporting rod 3 according to actual construction requirements.

The utility model discloses a cable tower GNSS measuring equipment fixing device, including the lower part solid fixed splint, the platform of splint regulator, the scalable bracing piece in upper portion and arrangement GNSS measuring equipment, its characterized in that: settle solid fixed splint on the cable tower back timber, adjust splint through the splint regulator and realize equipment horizontal displacement and adjust, be connected the scalable bracing piece in upper portion through threaded connection and lower part solid fixed splint and the platform of settling GNSS measuring equipment, through adjusting the scalable bracing piece in upper portion, realize the vertical displacement of equipment and adjust. Compared with the prior art, the utility model have following advantage and effect: the fixing device is simple in structure, the components are connected through threads, the mounting, the dismounting and the transportation are convenient, and the stability is good; compared with the traditional fixing device for the cable tower GNSS measuring equipment, the fixing device can be recycled, complex operations such as welding and cutting are not needed, the construction efficiency is improved, and the engineering cost is reduced; the device can freely adjust the horizontal displacement and the vertical displacement of the GNSS measuring equipment, fix the equipment, flexibly adjust the space position of the GNSS measuring equipment and improve the monitoring precision of the GNSS measuring equipment. The utility model discloses compare in traditional GNSS measuring equipment fixing device, its simple to operate, circulated use, stability are good and can freely adjust, can effective reduce cost, improve the efficiency of construction.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (4)

1. The utility model provides a cable tower GNSS measuring equipment fixing device, includes fixed splint (1), splint regulator (2), scalable bracing piece in upper portion (3) and settles GNSS measuring equipment's platform (4), its characterized in that: fixed splint (1) are settled at the cable tower back timber, have adjusted splint horizontal displacement position through splint regulator (2), and splint regulator (2) are settled on fixed splint (1), and upper portion scalable bracing piece (3) are through threaded connection on fixed splint (1), settle GNSS measuring equipment's platform (4) through threaded connection on upper portion scalable bracing piece (3).

2. The cable-tower GNSS surveying equipment fixture of claim 1, wherein: the fixing clamp plate (1) is directly arranged on a cable tower top beam, one side of the clamp plate is provided with a thread tapping hole and is used for being connected with an upper telescopic support rod (3), one end of the thread tapping hole is provided with a certain through hole at an interval, the other end of the thread tapping hole is a non-through hole, and the hole is used for arranging the clamp plate adjuster (2).

3. The cable-tower GNSS surveying equipment fixture of claim 1, wherein: the upper telescopic supporting rod (3) is in threaded connection with a platform (4) for arranging GNSS measuring equipment, and certain threads are arranged at two ends of the upper telescopic supporting rod.

4. The pylon GNSS surveying instrument fixture of claim 1, wherein: the middle of the platform (4) for arranging the GNSS measuring equipment is provided with a certain thread for connecting with the upper telescopic supporting rod (3).

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