CN219890437U - Total powerstation prism is from centering frame - Google Patents

Abstract

The utility model provides a self-centering frame for a total station prism. The total powerstation prism is from centering frame includes: a mounting frame; the movable sleeve assembly is arranged on the mounting frame; the gyroscope is arranged below the mounting frame; the mounting seat is arranged on the movable sleeve assembly; the bracket is arranged on the mounting seat; the prism body is arranged on the bracket; the fixing bolt is installed on the support in a threaded mode and is in threaded connection with the installation seat. The self-centering frame for the total station prism has the advantages that the vertical direction and the gravity direction of the prism body can be always kept consistent through the arrangement of the gyroscope, and the automatic leveling of the prism body is realized.

Description

Total powerstation prism is from centering frame

Technical Field

The utility model relates to the technical field of self-centering frames of total station prisms, in particular to a self-centering frame of a total station prism.

Background

The total station, namely the total station type electronic distance meter, is a high-technology measuring instrument integrating light, mechanical and electric, is a surveying instrument system integrating the functions of measuring horizontal angle, vertical angle, distance (inclined distance and flat distance) and height difference, plays a great role in surveying operation, and a prism is used as an accessory which is most important for the total station, is indispensable in the most basic distance measurement, fragment measurement and other works, and the principle is that the prism receives light signals sent by the total station and reflects the light signals back from the reflecting prism, the total station sends out the light signals and receives the light signals back from the reflecting prism, calculates the phase displacement of the light signals and the like, so that the time for light to pass through is indirectly obtained, and finally, the distance from the total station to the reflecting prism is measured.

The existing total station prism mounting frame mostly adopts a common tripod to mount the prism mounting frame, after the installation, the prism base is referred to, the tube level and the round level are adjusted by three leg screws to achieve the purpose of leveling, meanwhile, the optical centering device is observed to realize the purpose of centering by translating the base on the frame head, the prism is difficult to center and level by a person without professional training, and meanwhile, time and labor are wasted when the prism is leveled, and labor consumption is increased.

Therefore, it is necessary to provide a new self-centering frame for total station prism to solve the above technical problems.

Disclosure of Invention

The utility model provides a self-centering frame for a total station prism, which aims to solve the technical problem that most of the existing prism mounting frames cannot automatically level and quickly center the prism.

The total station prism self-centering frame provided by the utility model comprises: a mounting frame; the movable sleeve assembly is arranged on the mounting frame; the gyroscope is arranged below the mounting frame; the mounting seat is arranged on the movable sleeve assembly; the bracket is arranged on the mounting seat; the prism body is arranged on the bracket; the fixing bolt is installed on the support in a threaded mode and is in threaded connection with the installation seat.

Preferably, the movable sleeve assembly comprises an outer cylinder, a plurality of connecting shafts and an inner cylinder, the connecting shafts are arranged on the mounting frame, the connecting shafts are connected with the outer cylinder, the inner cylinder is movably mounted in the outer cylinder, and the inner cylinder is fixedly connected with the mounting seat.

Preferably, the two sides of the prism body are fixedly provided with supporting rods, and the two supporting rods are rotationally connected with the bracket.

Preferably, a connecting cylinder is fixedly arranged at the bottom of the mounting seat, and the connecting cylinder is fixedly connected with the gyroscope.

Preferably, a plurality of supporting leg assemblies are arranged on the mounting frame, and a plurality of supporting leg assemblies are arranged in a triangular shape.

Preferably, the supporting leg assembly comprises a supporting leg body and an anti-slip round pad, wherein the supporting leg body is fixedly installed on the installation frame, and the anti-slip round pad is arranged below the supporting leg body.

Preferably, the supporting leg assembly further comprises a sliding groove, a sliding rod and a connecting bolt, the sliding groove is formed in the supporting leg body, the sliding rod is slidably mounted in the sliding groove, the sliding rod is fixedly connected with the anti-slip round pad, the connecting bolt is mounted on the supporting leg body in a threaded mode, and the connecting bolt is in rotary contact with the sliding rod.

Compared with the related art, the self-centering frame for the total station prism has the following beneficial effects:

the utility model provides a self-centering frame for a total station prism, which comprises the following components:

1. through the arrangement of the gyroscope, the vertical direction and the gravity direction of the prism body can be always kept consistent, the automatic leveling of the prism body is realized, through the arrangement of the movable sleeve component, the prism body can have two-way movable degrees of freedom, 360-degree free swinging taking the mounting seat as the center can be realized, the prism body can be matched with the gyroscope for use, the prism body can be quickly centered, and the prism body is convenient to use;

2. through the setting of rotatable bracing piece, can rotate the regulation to the prism body, through the setting of connecting cylinder, make the gyroscope keep away from movable sleeve subassembly setting, the use of the gyroscope of being convenient for is triangle-shaped setting through the supporting leg subassembly, supports fixedly to the prism body that can be better, stability is higher;

3. through the setting of anti-skidding circular pad, can make the supporting leg subassembly have anti-skidding effect, improve the anti-skidding performance of supporting leg subassembly, through the setting of scalable slide bar, can carry out length adjustment to the supporting leg body, be convenient for use on the uneven ground of topography.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a preferred embodiment of a self-centering frame for a total station prism provided by the present utility model;

FIG. 2 is a schematic diagram of a front view of a preferred embodiment of a self-centering frame for a total station prism according to the present utility model;

FIG. 3 is a schematic diagram of a right side view of a preferred embodiment of a self-centering frame for a total station prism according to the present utility model;

FIG. 4 is a schematic diagram of a left side cross-sectional structure of a preferred embodiment of a self-centering frame for a total station prism provided by the present utility model;

FIG. 5 is an assembly view of a middle support leg assembly according to the present utility model;

fig. 6 is an enlarged schematic view of the portion a shown in fig. 5.

Reference numerals in the drawings: 1. a mounting frame; 2. a movable sleeve assembly; 21. an outer cylinder; 22. a connecting shaft; 23. an inner cylinder; 3. a gyroscope; 4. a mounting base; 5. a bracket; 6. a prism body; 7. a fixing bolt; 8. a support rod; 9. a connecting cylinder; 10. a support leg assembly; 101. a support leg body; 102. an anti-slip round pad; 103. a chute; 104. a slide bar; 105. and (5) connecting bolts.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

Referring to fig. 1-6 in combination, fig. 1 is a schematic overall structure diagram of a preferred embodiment of a self-centering frame of a total station prism according to the present utility model; FIG. 2 is a schematic diagram of a front view of a preferred embodiment of a self-centering frame for a total station prism according to the present utility model; FIG. 3 is a schematic diagram of a right side view of a preferred embodiment of a self-centering frame for a total station prism according to the present utility model; FIG. 4 is a schematic diagram of a left side cross-sectional structure of a preferred embodiment of a self-centering frame for a total station prism provided by the present utility model; FIG. 5 is an assembly view of a middle support leg assembly according to the present utility model; fig. 6 is an enlarged schematic view of the portion a shown in fig. 5. The total powerstation prism is from centering frame includes: a mounting frame 1; a movable sleeve assembly 2, wherein the movable sleeve assembly 2 is arranged on the mounting frame 1; a gyroscope 3, the gyroscope 3 being arranged below the mounting frame 1; a mounting seat 4, wherein the mounting seat 4 is arranged on the movable sleeve assembly 2; a bracket 5, wherein the bracket 5 is arranged on the mounting seat 4; a prism body 6, wherein the prism body 6 is arranged on the bracket 5; the fixing bolt 7, the fixing bolt 7 screw thread is installed on the support 5, fixing bolt 7 with mount pad 4 threaded connection through the setting of gyroscope 3, can make the vertical direction of prism body 6 and the direction of gravity keep unanimous always, realizes the auto leveling of prism body 6.

The movable sleeve assembly 2 comprises an outer cylinder 21, a plurality of connecting shafts 22 and an inner cylinder 23, wherein the connecting shafts 22 are arranged on the mounting frame 1, the connecting shafts 22 are connected with the outer cylinder 21, the inner cylinder 23 is movably arranged in the outer cylinder 21, the inner cylinder 23 is fixedly connected with the mounting seat 4, the prism body 6 can have two-way movable degrees of freedom through the arrangement of the movable sleeve assembly 2, 360-degree free swing taking the mounting seat 4 as the center can be realized, the prism body can be matched with the gyroscope 3 for use, the prism body 6 can be quickly centered, and the use is convenient.

The both sides of prism body 6 are all fixed mounting has bracing piece 8, two bracing piece 8 all with support 5 rotates to be connected, through rotatable bracing piece 8's setting, can rotate the regulation to prism body 6.

The bottom fixed mounting of mount pad 4 has connecting cylinder 9, connecting cylinder 9 with gyroscope 3 fixed connection, through the setting of connecting cylinder 9, make gyroscope 3 keep away from movable sleeve subassembly 2 setting, the use of gyroscope 3 of being convenient for.

Be provided with a plurality of supporting leg subassemblies 10 on the mounting bracket 1, a plurality of supporting leg subassemblies 10 are triangle-shaped setting, are triangle-shaped setting through supporting leg subassemblies 10, can be better support fixedly to prism body 6, stability is higher.

The supporting leg assembly 10 comprises a supporting leg body 101 and an anti-slip round pad 102, the supporting leg body 101 is fixedly installed on the installation frame 1, the anti-slip round pad 102 is arranged below the supporting leg body 101, and the supporting leg assembly 10 can have an anti-slip effect through the arrangement of the anti-slip round pad 102, so that the anti-slip performance of the supporting leg assembly 10 is improved.

The supporting leg assembly 10 further comprises a sliding groove 103, a sliding rod 104 and a connecting bolt, the sliding groove 103 is formed in the supporting leg body 101, the sliding rod 104 is slidably mounted in the sliding groove 103, the sliding rod 104 is fixedly connected with the anti-slip round pad 102, the connecting bolt 105 is mounted on the supporting leg body 101 in a threaded mode, the connecting bolt 105 is in rotary contact with the sliding rod 104, and the supporting leg body 101 can be adjusted in length through the arrangement of the telescopic sliding rod 104, so that the supporting leg is convenient to use on the ground with uneven topography.

The working principle of the self-centering frame of the total station prism provided by the utility model is as follows:

when the device is used, firstly, the device is placed on a relatively flat ground, the supporting leg assembly 10 is used for supporting the device, when the device is placed, the gyroscope 3 is used for providing correction torque compensation according to the position of the movable sleeve assembly 2, the gyroscope 3 is used for driving the prism body 6 to move along the movable sleeve assembly 2, the gyroscope 3 is used for driving the prism body 6 to move according to the gravity of the gyroscope 3, the vertical direction of the prism body 6 is kept consistent with the gravity direction of the gyroscope 3, and then the prism body 6 is used for operation;

when in use, the prism body 6 can rotate through the support rod 8 to adjust the angle of the prism body 6;

when the topography is uneven, when the supporting leg assembly 10 needs to be prolonged, the connecting bolt 105 is firstly made to rotate to be far away from the sliding rod 104, then the anti-slip round pad 102 is pulled, the anti-slip round pad 102 is made to drive the sliding rod 104 to slide along the sliding groove 103, then the connecting bolt 105 is made to rotate, the connecting bolt 105 is made to press and fix the sliding rod 104, then the device is placed on the ground to support the prism body 6, the length of the supporting leg body 101 can be prolonged on the ground with uneven topography through the arrangement of the adjustable supporting leg assembly 10, so that the gyroscope 3 is made to be far away from the ground, and the gyroscope 3 is convenient to use.

Compared with the related art, the self-centering frame for the total station prism has the following beneficial effects:

the utility model provides a self-centering frame for a total station prism, which can enable the vertical direction and the gravity direction of a prism body 6 to be always consistent through the arrangement of a gyroscope 3, realize the automatic leveling of the prism body 6, enable the prism body 6 to have bidirectional movable freedom degree through the arrangement of a movable sleeve assembly 2, enable the prism body 6 to swing freely by 360 degrees with a mounting seat 4 as the center and be matched with the gyroscope 3 for use, realize the quick centering of the prism body 6, facilitate the use, enable the prism body 6 to be rotationally adjusted through the arrangement of a rotatable supporting rod 8, enable the gyroscope 3 to be far away from the movable sleeve assembly 2 through the arrangement of a connecting cylinder 9, facilitate the use of the gyroscope 3, enable the prism body 6 to be well supported and fixed through the triangular arrangement of a supporting leg assembly 10, have the anti-skid effect through the arrangement of an anti-skid round pad 102, improve the anti-skid performance of the supporting leg assembly 10, and enable the supporting leg 101 to be used for length adjustment through the arrangement of a telescopic sliding rod 104, thereby facilitating the use on uneven ground.

The device structure and the drawings of the present utility model mainly describe the principle of the present utility model, and in terms of the technology of the design principle, the arrangement of the power mechanism, the power supply system, the control system, etc. of the device is not completely described, but the specific details of the power mechanism, the power supply system, and the control system thereof can be clearly known on the premise that those skilled in the art understand the principle of the present utility model.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. A total powerstation prism self-centering frame, comprising:

a mounting frame;

the movable sleeve assembly is arranged on the mounting frame;

the gyroscope is arranged below the mounting frame;

the mounting seat is arranged on the movable sleeve assembly;

the bracket is arranged on the mounting seat;

the prism body is arranged on the bracket;

the fixing bolt is installed on the support in a threaded mode and is in threaded connection with the installation seat.

2. The total station prism self-centering frame according to claim 1, wherein the movable sleeve assembly is composed of an outer cylinder, a plurality of connecting shafts and an inner cylinder, the connecting shafts are all arranged on the mounting frame, the connecting shafts are all connected with the outer cylinder, the inner cylinder is movably mounted in the outer cylinder, and the inner cylinder is fixedly connected with the mounting seat.

3. The self-centering frame for a total station prism as claimed in claim 1, wherein support rods are fixedly mounted on two sides of the prism body, and the two support rods are rotatably connected with the support.

4. The total station prism self-centering frame of claim 1, wherein a connecting cylinder is fixedly mounted at the bottom of the mounting base and fixedly connected with the gyroscope.

5. The total station prism self-centering frame of claim 1, wherein a plurality of support leg assemblies are provided on the mounting frame, and a plurality of the support leg assemblies are arranged in a triangle.

6. The total station prism self-centering frame of claim 5, wherein the support leg assembly comprises a support leg body fixedly mounted on the mounting frame and an anti-slip mat disposed below the support leg body.

7. The total station prism self-centering frame of claim 6, wherein the support leg assembly further comprises a chute, a slide bar and a connecting bolt, the chute is arranged in the support leg body, the slide bar is slidably mounted in the chute, the slide bar is fixedly connected with the anti-slip round pad, the connecting bolt is threadedly mounted on the support leg body, and the connecting bolt is in rotational contact with the slide bar.