CN212082364U

CN212082364U - Trackless measuring device measuring module

Info

Publication number: CN212082364U
Application number: CN202020927419.2U
Authority: CN
Inventors: 刘辉; 曹原; 叶玉鹏; 黄杰; 姚中一; 袁亮; 陈强
Original assignee: China Railway Construction Electrification Bureau Group Co Ltd; South Engineering Co Ltd of China Railway Construction Electrification Bureau Group Co Ltd
Current assignee: China Railway Construction Electrification Bureau Group Co Ltd; South Engineering Co Ltd of China Railway Construction Electrification Bureau Group Co Ltd
Priority date: 2020-05-27
Filing date: 2020-05-27
Publication date: 2020-12-04
Anticipated expiration: 2030-05-27

Abstract

The utility model provides a trackless measuring device measuring module, including three-dimensional translation system and leveling moving module, three-dimensional translation system installs on leveling moving module, three-dimensional translation system includes Y axle translation platform, X axle moving module and Z axle translation platform, leveling moving module includes leveling system and moving frame system, Y axle translation platform is installed and is moved along X axle direction on X axle moving module, Z axle translation platform is installed and is moved along Y axle direction on Y axle translation platform, fixed plate fixed mounting is passed through to the lower extreme of leveling system, and the upper end links to each other with moving frame system. The utility model is used for when measuring line coordinate and location track face in subway tunnel, match total powerstation and surveyor's level and use, adjustment convenient and fast is accurate.

Description

Trackless measuring device measuring module

Technical Field

The utility model relates to a trackless field of measurement in tunnel among electric railway and the track traffic construction specifically is a trackless measuring device measuring module.

Background

In the construction of electrified railway and track traffic power supply system, generally need follow the construction progress of making a track and carry out the construction, often compress power supply system time limit for a project, measure the first step process of power supply system construction, also the most crucial, will measure before making a track in advance and accomplish, will very big promotion construction progress, can avoid simultaneously because of the time limit for a project robbing worker safety risk that leads to of shortage. Therefore, the trackless measuring module of the measuring device is invented aiming at trackless conditions, and is matched with a total station and a level gauge to position line coordinates and a rail surface, so that the trackless measuring module is rapid and accurate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a trackless measuring device measuring module has combined various circuit topography condition and the different rail ground height difference condition, can use effectively in the trackless measurement of power supply system in the subway tunnel, guarantees that measuring is quick and accurate.

The technical scheme of the utility model:

the utility model provides a trackless measuring device measuring module, includes three-dimensional translation system and leveling moving module, three-dimensional translation system installs on leveling moving module, three-dimensional translation system includes Y axle translation platform, X axle moving module and Z axle translation platform, leveling moving module includes leveling system and moving frame system, Y axle translation platform is installed and is moved along X axle direction on X axle moving module, Z axle translation platform is installed and is moved along Y axle direction on Y axle translation platform, fixed plate fixed mounting is passed through to the lower extreme of leveling system, and the upper end links to each other with moving frame system.

The X-axis moving module comprises two X-axis linear horizontal guide rails arranged on a moving frame system, a sliding block and a locking device are arranged on the X-axis linear horizontal guide rails, the sliding block and the locking device slide along the X-axis linear horizontal guide rails, a steel ruler is arranged beside the X-axis linear horizontal guide rails, the steel ruler is arranged in parallel with the X-axis linear horizontal guide rails, pointers are arranged on the sliding block and the locking device, and the pointers are right opposite to the steel ruler.

The Y-axis translation table comprises a Y-axis bottom plate, the Y-axis bottom plate is installed between the two sliding blocks and the locking device, the Y-axis sliding blocks are installed on the Y-axis bottom plate and connected with a Y-axis hand wheel, and the distance of the Y-axis sliding blocks moving along the Y axis is controlled by adjusting the Y-axis hand wheel.

The Z-axis translation platform comprises a Z-axis connecting plate, the bottom surface of the Z-axis connecting plate is connected with a Y-axis sliding block, a Z-axis sliding block is installed on the Z-axis connecting plate and connected with a Z-axis hand wheel, a Z-axis bottom plate is installed on the Z-axis sliding block, and the Z-axis sliding block and the Z-axis bottom plate are controlled to move along the Z axis by adjusting the Z-axis hand wheel.

The leveling system is provided with three, and three leveling system is equilateral triangle and arranges.

The movable frame system comprises a bottom frame, a movable frame and a connecting frame, the bottom frame is fixedly connected with the jacking device, the movable frame is installed on the bottom frame and is adjusted in position through the movable operation device, and a simulation track is installed on the connecting frame.

The two ends of the movable frame are provided with rails, a frame sliding block matched with the rails is installed below the connecting frame, and the movable operation device pushes the movable frame to move along the rails.

Compared with the prior art, the beneficial effects of the utility model are that: when the instrument is used for measuring line coordinates and positioning rail surfaces in a subway tunnel, the instrument is matched with a total station and a level gauge for use, and the adjustment is convenient, fast and accurate.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a trackless measuring device.

Fig. 2 is a schematic structural view of the three-dimensional translation system of the present invention.

Fig. 3 is a schematic view of the leveling moving module according to the present invention.

Fig. 4 is a schematic view of the bottom frame structure of the present invention.

Fig. 5 is a schematic diagram of the structure of the movable frame of the present invention.

Fig. 6 is a schematic view of the structure of the connection frame of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, 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.

Referring to fig. 1-6, the present invention provides a technical solution:

the utility model provides a trackless measuring device measuring module, includes three-dimensional translation system 1 and leveling movement module 2, three-dimensional translation system 1 is installed on leveling movement module 2, and three-dimensional translation system 1 is used for placing total powerstation prism and the complete vertical laser of transmission, and leveling movement module 2 is used for whole measuring module leveling to according to actual conditions translation, three-dimensional translation system 1 includes Y axle translation platform 11, X axle movement module 12 and Z axle translation platform 13, leveling movement module 2 includes leveling system 21 and moving frame system 22, Y axle translation platform 11 is installed and is followed X axle direction motion on X axle movement module 12, Z axle translation platform 13 is installed and is followed Y axle direction motion on Y axle translation platform 11, the lower extreme of leveling system 21 passes through fixed plate fixed mounting, and the upper end links to each other with moving frame system 22.

The X-axis moving module 12 includes two X-axis linear horizontal guide rails 121 installed on the moving frame system 22, a slider and a locking device 124 are installed on the X-axis linear horizontal guide rails 121, the slider and the locking device 124 slide along the X-axis linear horizontal guide rails 121, a straightedge 122 is arranged beside the X-axis linear horizontal guide rails 121, the straightedge 122 is arranged in parallel with the X-axis linear horizontal guide rails 121, a pointer 123 is installed on the slider and the locking device 124, and the pointer 123 is opposite to the straightedge 122.

The Y-axis translation stage 11 comprises a Y-axis bottom plate 112, the Y-axis bottom plate 112 is installed between two sliding blocks and a locking device 124, a Y-axis sliding block 111 is installed on the Y-axis bottom plate 112, the Y-axis sliding block 111 is connected with a Y-axis hand wheel 113, and the distance of the Y-axis sliding block 111 moving along the Y axis is controlled by adjusting the Y-axis hand wheel 113.

The Z-axis translation stage 13 includes a Z-axis connecting plate 131, the bottom surface of the Z-axis connecting plate 131 is connected to the Y-axis slider 111, a Z-axis slider 132 is mounted on the Z-axis connecting plate 131, the Z-axis slider 132 is connected to a Z-axis handwheel 133, a Z-axis base plate 134 is mounted on the Z-axis slider 132, and the distance of movement of the Z-axis slider 132 and the Z-axis base plate 134 along the Z-axis is controlled by adjusting the Z-axis handwheel 133.

The leveling systems 21 are three, and the three leveling systems 21 are arranged in an equilateral triangle.

The moving frame system 22 includes a bottom frame 221, a moving frame 222, and a connecting frame 223, the bottom frame 221 is fixedly connected with the jacking device, the moving frame 222 is installed on the bottom frame 221 and is adjusted in position by a moving operation device 224, and the connecting frame 223 is installed with a simulation rail.

The moving frame 222 is provided at both ends thereof with rails 2221, and frame sliders fitted to the rails 2221 are installed below the connection frame 223, and the moving operation device 224 pushes the moving frame 222 to move along the rails 2221. The connection frame 223 is provided with a horizontal display bulb.

In the implementation process, the Z-axis bottom plate is used for placing a total station prism and emitting completely vertical laser. The three-dimensional translation system is mainly adjusted in three directions of XYZ, the X-axis translation system moves along the line direction, the adjustment mode is manual pushing, the pushing position is confirmed through a ruler, and the adjustment range is +/-500 mm; the direction perpendicular to the line direction is a Y axis, the adjustment mode is that a sliding table hand wheel is rotated, the hand wheel drives a screw rod to rotate, the screw rod pushes a sliding block to move, the moving position is confirmed through a scale, and the adjustment range is +/-100 mm; the vertical direction is Z axis, the adjusting mode is the same as Y axis, the adjustment is carried out by rotating the sliding table hand wheel, and the adjusting range is-50- +200 mm. The whole measuring module can be adjusted along the direction perpendicular to the track by rotating the hand wheel, the adjusting mode is the same as that of the Y axis, the hand wheel drives the screw rod to rotate, the screw rod pushes the sliding block to move, and the adjusting range is +/-100 mm.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a trackless measuring device measuring module, characterized in that, includes three-dimensional translation system (1) and leveling movement module (2), three-dimensional translation system (1) is installed on leveling movement module (2), three-dimensional translation system (1) includes Y axle translation platform (11), X axle movement module (12) and Z axle translation platform (13), leveling movement module (2) is including leveling system (21) and moving frame system (22), X axle translation platform (11) are installed and are moved along X axle direction on X axle movement module (12), Z axle translation platform (13) are installed and are moved along Y axle direction on Y axle translation platform (11), the lower extreme of leveling system (21) passes through fixed plate fixed mounting, and the upper end links to each other with moving frame system (22).

2. A trackless measuring device measuring module according to claim 1, characterized in that the X-axis moving module (12) comprises two X-axis linear horizontal guide rails (121) mounted on the moving frame system (22), a slider and a locking device (124) are mounted on the X-axis linear horizontal guide rails (121), the slider and the locking device (124) slide along the X-axis linear horizontal guide rails (121), a straight steel ruler (122) is disposed beside the X-axis linear horizontal guide rails (121), the straight steel ruler (122) is disposed parallel to the X-axis linear horizontal guide rails (121), a pointer (123) is mounted on the slider and the locking device (124), and the pointer (123) is opposite to the straight steel ruler (122).

3. A trackless measuring module according to claim 2, characterized in that the Y-axis translation stage (11) comprises a Y-axis base plate (112), the Y-axis base plate (112) is installed between two sliders and the locking device (124), a Y-axis slider (111) is installed on the Y-axis base plate (112), the Y-axis slider (111) is connected with a Y-axis hand wheel (113), and the distance of movement of the Y-axis slider (111) along the Y-axis is controlled by adjusting the Y-axis hand wheel (113).

4. A trackless measuring device measuring module according to claim 3, characterized in that the Z-axis translation stage (13) comprises a Z-axis connecting plate (131), the bottom surface of the Z-axis connecting plate (131) is connected with the Y-axis slider (111), a Z-axis slider (132) is mounted on the Z-axis connecting plate (131), the Z-axis slider (132) is connected with a Z-axis handwheel (133), a Z-axis base plate (134) is mounted on the Z-axis slider (132), and the distance of movement of the Z-axis slider (132) and the Z-axis base plate (134) along the Z-axis is controlled by adjusting the Z-axis handwheel (133).

5. A trackless measuring device measuring module according to claim 1, characterized in that three levelling systems (21) are provided, the three levelling systems (21) being arranged in an equilateral triangle.

6. A trackless measuring device measuring module according to claim 1, characterized in that the moving frame system (22) comprises a bottom frame (221), a moving frame (222) and a connecting frame (223), the bottom frame (221) is fixedly connected with the jacking means, the moving frame (222) is mounted on the bottom frame (221) and is adjusted in position by moving the operating means (224), and the connecting frame (223) is mounted with a simulated rail.

7. A trackless measuring device measuring module according to claim 6, characterized in that the moving frame (222) is provided with rails (2221) at both ends, frame sliders fitted to the rails (2221) are installed below the connecting frame (223), and the moving operation device (224) pushes the moving frame (222) to move along the rails (2221).