CN207936967U - Total station prism fast-positioning device - Google Patents

Abstract

The utility model discloses a kind of total station prism fast-positioning devices, belong to building construction measurement device field, its key points of the technical solution are that including centering rod, the centering rod be the hollow ferromagnetism body of rod, the centering rod top is equipped with prism, further include a pair of support rods, two supporting rods are separately positioned on the both sides of centering rod, and the supporting rod is equipped with magnetic-adsorption part close to one end of centering rod, its advantage is that prism can comparatively fast be allowed to be in correct position, and it can preferably control its stabilization.

Description

Total Station Prism Quick Positioning Device

technical field

The utility model relates to the field of building construction measuring devices, in particular to a rapid positioning device for a total station prism.

Background technique

During the construction of various projects, it is often necessary to measure and set points to monitor the deformation and displacement of buildings and structures. The general method is to use high-precision total stations to collect measurement data. During measurement, the total station calculates data such as distance or three-dimensional coordinates through the "phase shift" generated by sending (receiving) light signals to and from the prism. For this reason, the pole operator is required to quickly erect the centering pole equipped with a prism on each measuring point and adjust it to a vertical position. The height of the prism support rod used in the traditional method is mostly about 1.5 meters to 2 meters. It completely relies on the adjustment of the support rod for leveling and centering, which is slow and difficult to master, and it is difficult to meet the measurement requirements.

At present, the Chinese utility model patent whose authorized notification number is CN205665455U discloses a total station lofting prism support, which includes a prism support, a support interface arranged on the prism support, a prism and a prism which is arranged on the prism and can be installed with the support interface. The prism interface, the height of the prism bracket is less than or equal to 12 cm, and the prism bracket is a T-shaped bracket.

Although this kind of prism bracket can control the deviation of the vertical direction of the prism, it needs manual hands to support the bracket when measuring on a hard ground.

Utility model content

The purpose of this utility model is to provide a kind of fast positioning device for the prism of total station, and its advantage is that the prism can be placed in the correct position quickly, and its stability can be better controlled.

The above-mentioned technical purpose of the utility model is achieved through the following technical solutions: a total station prism rapid positioning device, including a centering rod and a pair of support rods, the centering rod is a hollow ferromagnetic rod body, the A prism is provided at the top of the centering rod, and the two support rods are respectively arranged on both sides of the centering rod, and a magnetic adsorption piece is provided at the end of the support rod close to the centering rod.

Through the above technical solution, the prism can reflect the optical signal emitted by the total station, and provide position reference for the total station. The centering rod adopts a ferromagnetic rod body, and the magnetic adsorption part adopts a neodymium magnet. The magnetic adsorption part can be quickly adsorbed on the centering rod through strong magnetic force, so as to connect the support rod to the centering rod and provide support for the centering rod . The centering rod is stably stood on the ground through the support rod, so that the stability of the centering rod during use is better. After the observation is over, the support rod can be quickly removed from the centering rod, which is more convenient to disassemble, and can be moved to the next measuring point after being gathered with the centering rod.

The utility model is further configured as follows: the magnetic adsorption part is a semi-circular structure with magnetism, and the radius of the magnetic adsorption part is the same as that of the centering rod.

Through the above technical solution, the radius of the annular structure of the magnetic adsorption part is the same as that of the centering rod. When the magnetic adsorption part is magnetically adsorbed on the centering rod, the ring-shaped magnetic adsorption part can fit well with the centering rod , tightly adsorbed on the surface of the centering rod, can reduce the relative movement between the magnetic adsorption part and the centering rod, reduce the shaking when the centering rod is erected, and improve the stability of the positioning device during work.

The utility model is further configured as: the magnetic adsorption part is hinged on the end of the support rod close to the centering rod.

Through the above technical solution, the magnetic adsorption part can rotate around one end of the support rod. When the support rod is supported on the support rod at different heights, by rotating the magnetic adsorption part relative to the support rod, the magnetic adsorption part can always be closely attached to the support The surface of the rod is beneficial to further improving the stability of the magnetic adsorption part when it is adsorbed on the surface of the support rod. The supporting rod can rotate left and right around the centering rod, so that the supporting rod can support the centering rod at different heights and in different directions.

The utility model is further configured as: a rubber pad is provided on a side surface of the magnetic adsorption member close to the centering rod.

Through the above technical scheme, when the magnetic adsorption part is adsorbed on the centering rod, due to the strong magnetic force, the magnetic adsorption part will hit the centering rod violently during the adsorption process, and the rubber pad acts as a buffer between the magnetic force adsorption part and the centering rod , can reduce the impact force of the magnetic adsorption part on the centering rod, and is conducive to improving the stability of the vertical state of the centering rod.

The utility model is further configured as: the end of the centering rod away from the prism is conical.

Through the above technical scheme, when the centering rod is placed on the soft ground, the centering rod can be slightly inserted into the ground, and the operator can still maintain vertical stability after letting go; when the ground is hard and cannot be inserted, the centering rod The bottom of the tip reduces the contact area with the ground, making it less difficult to place the pole on uneven ground.

The utility model is further configured as: the end of the support rod away from the magnetic adsorption part is hinged with a support seat.

Through the above technical solution, when the support rod is supported on the ground, the support seat directly contacts the ground, providing a fulcrum for the support rod to stand. The support seat can reduce the pressure of the support rod on the ground, so that the state of the support rod placed on the ground is relatively stable.

The utility model is further configured as follows: the side of the support seat close to the ground is provided with a silicone foot pad.

Through the above technical scheme, when the support base is supported on the ground, it contacts the ground through the silicone foot pad, which has the characteristics of high friction. Force, the support seat can be kept stable with the ground in the horizontal direction through the silicone foot pad, and the lateral displacement of the support seat can be reduced.

The utility model is further configured as follows: the top of the prism is provided with a vial for adjusting the level.

Through the above technical solution, during the process of erecting the centering rod, the operator keeps moving the centering rod in hand, and can adjust the centering rod to a vertical state according to the indication of the vial, and at this time use the support rod to support the centering rod , the operator can release the grip on the centering rod, and detect the prism through the total station.

In summary, the utility model has the following beneficial effects:

1. The magnetic adsorption part is magnetically adsorbed on the surface of the centering rod, the support rod can be quickly installed or disassembled, and the centering rod can be well supported by the support rod for reference detection by the total station;

2. The magnetic adsorption part is hinged on the support rod, and the other end of the support rod is hinged with a support seat. Through rotation adjustment, the support rod can support the centering rod at any height of the centering rod.

Description of drawings

Fig. 1 is the overall structural representation of the present embodiment;

Fig. 2 is the enlarged view of place A in Fig. 1;

Fig. 3 is a schematic structural view of the positioning device standing on the ground.

Reference signs: 1, centering rod; 2, support rod; 21, support seat; 211, silicone foot pad; 3, prism; 4, magnetic adsorption piece; 41, rubber pad; 5, level bubble.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Embodiment: a kind of total station prism rapid positioning device, with reference to Fig. 1, comprises centering rod 1 and a pair of support rods 2, and centering rod 1 is a hollow thin rod body, and the height of centering rod 1 in the present embodiment is 30 cm. The centering rod 1 is made of ferromagnetic material, such as iron, steel, nickel and so on. The top of the centering rod 1 is provided with a prism 3 for cooperating with a total station. The bottom end of the centering rod 1 is conical, and the centering rod 1 can stand on the ground through the conical end. Two support rods 2 are respectively connected to both sides of the centering rod 1 to provide support for the centering rod 1 . One end of the support rod 2 connected to the centering rod 1 is provided with a magnetic adsorption part 4, which is made of a material with permanent magnetism. In this embodiment, a neodymium magnet is used, and the magnetic adsorption part 4 can be adsorbed on the centering rod 1. The support rod 2 can quickly absorb or detach from the centering rod 1 through the magnetic adsorption member 4 . Referring to FIG. 3 , when the support rod 2 is adsorbed on the centering rod 1 , it can play a better supporting role.

Referring to Fig. 1, the magnetic adsorption part 4 is hinged on the end of the support rod 2, the magnetic adsorption part 4 is a semi-circular structure, and its radius is the same as that of the centering rod 1, when the magnetic adsorption part 4 is magnetically adsorbed to the support rod 2, the magnetic adsorption part 4 can be close to the surface of the support rod 2, so that the combination of the support rod 2 and the centering rod 1 is relatively stable.

Referring to FIG. 2 , the inner ring of the magnetic adsorption member 4 is provided with a rubber pad 41 , and the rubber pad 41 is attached to the surface of the magnetic adsorption member 4 . When the magnetic absorption part 4 is attached to the centering pole 1, the rubber pad 41 acts as a buffer between the magnetic absorption part 4 and the centering pole 1, and can avoid the direct contact between the magnetic absorption part 4 and the centering pole 1 at the same time. It is more convenient when the support rod 2 is removed from the centering rod 1 , and it is also possible to prevent the magnetic adsorption part 4 from scratching the centering rod 1 .

Referring to FIG. 1 and FIG. 3 , a vial 5 is provided on the top surface of the prism 3 . By observing the vial 5, the operator can place the centering rod 1 in a vertical direction, thereby improving the measurement accuracy when using the total station for measurement.

Referring to Fig. 1 and Fig. 3, the end of the support rod 2 away from the magnetic adsorption part 4 is hinged with a support base 21, and the side of the support base 21 close to the ground is provided with a silicone foot pad 211. When the support rod 2 is supported on the ground, the support base 21 It can be kept in close contact with the ground all the time, and the stability when the support rod 2 is supported on the ground is improved. The silicone foot pad 211 can provide a certain buffer for the support base 21 and improve the adaptability of the support base 21 to uneven ground.

The specific implementation process: when performing field operations, the centering rod 1 is first placed on the measurement point, and the operator adjusts the centering rod 1 to be vertical by observing the vial 5 . Immediately, the support rod 2 is adsorbed on both sides of the centering rod 1 by the magnetic adsorption part 4, and the support rod 2 is adjusted so that the support seat 21 is supported on the ground, and the operator can release the centering rod 1, and the whole assembly and adjustment process can Done in two seconds. Two support rods 2 form a triangular layout on both sides of the centering rod 1, so that the centering rod 1 remains stable during the observation process of the total station, and the verticality and stability of the centering rod 1 can be well improved. control.

After measuring a point, the operator removes the magnetic adsorption part 4 from the centering rod 1 to complete the disassembly of the positioning device. The disassembled centering rod 1 and support rod 2 can be placed side by side in the storage container. Take up less space.

This specific embodiment is only an explanation of the utility model, and it is not a limitation of the utility model. After reading this description, those skilled in the art can make modifications to the embodiment without creative contribution according to needs, but as long as it is within the utility model All new claims are protected by patent law.

Claims (6)

1. a kind of total station prism fast-positioning device, it is characterised in that：Including centering rod (1) and a pair of support rods (2), institute It is the hollow ferromagnetism body of rod to state centering rod (1), and centering rod (1) top is equipped with prism (3), two supporting rods (2) The both sides of centering rod (1) are separately positioned on, the supporting rod (2) is equipped with magnetic-adsorption part (4) close to one end of centering rod (1)； The one end of the supporting rod (2) far from magnetic-adsorption part (4) is hinged with support base (21), and the support base (21) is subaerial Side is equipped with silica gel foot pad (211), supporting rod（2）When supporting on the ground, support base（21）Can keep always with ground face paste It closes, improves supporting rod（2）Stability when supporting on the ground, passes through silica gel foot pad（211）, can be support base（21）It provides Certain buffering, while improving support base（21）To the adaptability on out-of-flatness ground.

2. total station prism fast-positioning device according to claim 1, it is characterised in that：The magnetic-adsorption part (4) For with magnetic semi-annular shape structure, the radius of the magnetic-adsorption part (4) is identical as the radius of centering rod (1).

3. total station prism fast-positioning device according to claim 1, it is characterised in that：The magnetic-adsorption part (4) Be hinged on supporting rod (2) close to centering rod (1) one end.

4. total station prism fast-positioning device according to claim 2, it is characterised in that：The magnetic-adsorption part (4) It is equipped with rubber pad (41) close to the side of centering rod (1).

5. total station prism fast-positioning device according to claim 1, it is characterised in that：The centering rod (1) is separate One end end of prism (3) is coniform.

6. total station prism fast-positioning device according to claim 1, it is characterised in that：Prism (3) top is set It is useful for the air level (5) of level-off.