CN215636019U

CN215636019U - An underground pipeline exploration and measurement device

Info

Publication number: CN215636019U
Application number: CN202122140850.XU
Authority: CN
Inventors: 徐亮; 李军
Original assignee: Sichuan Deyang Zhongdi Surveying And Mapping Planning Co ltd
Current assignee: Sichuan Huaxing Century Technology Development Co ltd
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2022-01-25
Anticipated expiration: 2031-09-06

Abstract

The utility model discloses an underground pipeline exploration and measurement device, comprising an RTX instrument, the RTX instrument is composed of a support rod and an operation panel, the operation panel is installed on the support rod, and a pipeline is installed on the support rod through an installation mechanism detector. In the underground pipeline exploration and measurement device of the utility model, during the exploration and measurement of the underground pipeline, the pipeline detector is used to conduct exploration and identification of the underground pipeline. After the identification is completed, the exploration information is directly transmitted to the RTX instrument, and the RTX instrument passes the The control of the operation panel determines the position of the pipeline after underground identification, and completes the exploration and measurement operation of the underground pipeline. During the entire exploration and measurement operation, by installing the pipeline detector on the RTX instrument, the underground pipeline can be quickly and effectively carried out at the same time. The identification and location confirmation of the underground pipeline reduces the procedures of underground pipeline exploration and measurement, and improves the efficiency of exploration and identification.

Description

Underground pipeline exploration measuring device

Technical Field

The utility model belongs to the technical field of underground pipeline exploration, and particularly relates to an underground pipeline exploration measuring device.

Background

Before engineering construction, underground pipelines at construction positions need to be explored to determine whether pipelines and specific positions of the pipelines exist or not, in the existing underground pipeline exploration and identification process, whether pipelines exist underground or not is detected and identified through a pipeline detecting instrument, after identification operation is completed, the positions of the identified underground pipelines are further determined through an RTK measurement technology, the whole exploration and measurement process is multiple in process, and the efficiency of underground pipeline exploration and measurement is reduced.

The present invention has been made in view of this situation.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model adopts the technical scheme that:

an underground pipeline exploration measuring device comprises an RTX instrument, wherein the RTX instrument consists of a support rod and an operation panel, the operation panel is arranged on the support rod, a pipeline detecting instrument is arranged on the support rod through an installation mechanism, and an induction rod is arranged on the pipeline detecting instrument;

installation mechanism includes the annular slab, the annular slab is connected on the bracing piece through the adjustment subassembly that is used for measuring height adjustment, be connected with the installation pole through turning to the subassembly on the annular slab, install the mounting panel on the installation pole, be connected with the stripper plate that two mutual symmetries set up, two through drive assembly on the mounting panel the arc wall has been seted up on the relative lateral wall of stripper plate.

The adjusting assembly comprises a spirally arranged sliding groove formed in the supporting rod, a sliding strip is fixed on the inner wall of the annular plate, and the sliding strip is connected to the sliding groove in a sliding mode.

The steering assembly comprises an annular groove formed in the annular plate, a rotating ring is connected to the annular groove in a rotating mode, and the mounting rod is fixed to the rotating ring.

The driving assembly comprises a square groove formed in the mounting plate, the square groove is connected with two sliding plates in a sliding mode, the mounting plate is connected with the double-end lead screw in a rotating mode, and the two sliding plates are respectively meshed with the two thread grooves in the double-end lead screw in an intermeshing mode.

Two thread grooves on the double-end screw rod are arranged in opposite rotating directions.

One end of the double-end screw rod penetrates through the mounting plate and is fixed with a rotating pin, and an anti-skidding bulge is arranged on the rotating pin.

Compared with the prior art, the utility model has the following beneficial effects:

according to the underground pipeline exploration and measurement device, in the process of carrying out exploration and measurement on an underground pipeline, the pipeline detecting instrument is arranged on the supporting rod of the RTX instrument through the installation mechanism, after the installation is finished, the underground pipeline is explored and identified through the pipeline detecting instrument, after the identification is finished, exploration information is directly transmitted to the RTX instrument, the RTX instrument determines the position of the underground identified pipeline through the control of the operation panel, the exploration and measurement operation on the underground pipeline is finished, and in the whole exploration and measurement operation process, the pipeline detecting instrument is arranged on the RTX instrument, so that the identification and the position confirmation of the underground pipeline are rapidly and effectively carried out simultaneously, the procedures of exploration and measurement of the underground pipeline are reduced, and the efficiency of exploration and identification is improved.

According to the underground pipeline exploration measuring device, the pipeline detector is convenient to explore and measure different positions on the ground through the adjusting assembly and the steering assembly in the process of identifying the underground pipeline, and the practicability of the exploration measuring device is improved.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic view of the overall configuration of the present invention;

FIG. 2 is a schematic view of the internal structure of the mounting mechanism of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 1;

fig. 4 is an enlarged view at B in fig. 2.

In the figure: 1-RTX instrument; 101-a support bar; 102-an operation panel; 2-a pipeline detector; 301-a chute; 302-a slider; 401-annular plate; 402-mounting a pole; 403-mounting a plate; 404-a compression plate; 405-an arc-shaped slot; 501-an annular groove; 502-a rotating ring; 601-square groove; 602-a sliding plate; 603-double-head screw rod; 604-rotation pin.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used to illustrate the present invention.

As shown in fig. 1 to 4, an underground pipeline exploration and measurement device comprises an RTX instrument 1, wherein the RTX instrument 1 is composed of a support rod 101 and an operation panel 102, the operation panel 102 is installed on the support rod 101, a pipeline detector 2 is installed on the support rod 101 through an installation mechanism, an induction rod is arranged on the pipeline detector 2, and the pipeline detector 2 is installed on the RTX instrument 1, so that underground pipeline identification and position confirmation can be rapidly and effectively carried out at the same time, the underground pipeline exploration and measurement procedures are reduced, and the exploration and identification efficiency is improved;

installation mechanism includes annular plate 401, and annular plate 401 is connected on bracing piece 101 through the adjustment subassembly that is used for measuring height adjustment, is connected with installation pole 402 through turning to the subassembly on the annular plate 401, installs mounting panel 403 on the installation pole 402, is connected with the stripper plate 404 that two mutual symmetries set up through drive assembly on the mounting panel 403, has seted up arc wall 405 on the relative lateral wall of two stripper plates 404, through installation mechanism, the operation is disassembled in the installation of the pipeline detection instrument 2 of being convenient for.

The adjusting assembly comprises a spirally arranged sliding groove 301 arranged on the supporting rod 101, a sliding strip 302 is fixed on the inner wall of the annular plate 401, the sliding strip 302 is connected to the sliding groove 301 in a sliding mode, the using height of the pipeline detector 2 on the annular plate 401 is adjusted through the adjusting assembly, and exploration operation is conducted on the ground at different height positions conveniently.

The steering assembly comprises an annular groove 501 formed in the annular plate 401, a rotating ring 502 is connected to the annular groove 501 in a rotating mode, the mounting rod 402 is fixed to the rotating ring 502, the pipeline detector 2 on the annular plate 401 is steered and adjusted through the steering assembly, and exploration measurement is further conducted on different positions on the ground conveniently.

The driving assembly comprises a square groove 601 formed in the mounting plate 403, the square groove 601 is connected with two sliding plates 602 in a sliding mode, the mounting plate 403 is connected with a double-end lead screw 603 in a rotating mode, the two sliding plates 602 are respectively meshed with two thread grooves in the double-end lead screw 603, and the two sliding plates 602 are forced to slide through meshing transmission between the double-end lead screw 603 and the two sliding plates 602.

The two thread grooves on the double-thread lead screw 603 are oppositely arranged in the rotating direction, and the double-thread lead screw 603 with the oppositely arranged rotating direction of the threads drives the two sliding plates 602 to move close to each other in the process of meshing transmission with the two sliding plates 602.

One end of the double-end screw 603 penetrates through the mounting plate 403 and is fixed with a rotating pin 604, an anti-slip bulge is arranged on the rotating pin 604, and the rotating pin 604 and the anti-slip bulge on the rotating pin 604 are convenient for driving the double-end screw 603 to rotate.

In the process of prospecting and measuring the underground pipeline, firstly, the pipeline detector 2 is installed on the support rod 101 of the RTX instrument 1, during the installation process, the sensing rod on the pipeline detector 2 is placed between the two extrusion plates 404, the rotation pin 604 drives the double-end screw rod 603 to rotate, and because the thread directions of the two thread grooves on the double-end screw rod 603 are opposite, in the process of rotating the double-end screw rod 603, the engagement transmission between the two threaded grooves and the two sliding plates 602 and the guiding effect of the square grooves 601 on the two sliding plates 602 enable the two sliding plates 602 to be forced to move close to each other, in the process that the two sliding plates 602 move close to each other, the arc-shaped grooves 405 on the two extrusion plates 404 are abutted against the side walls of the supporting rods 101 and the supporting rods 101 are fixed, so that a mounting mechanism between the pipeline detector 2 and the RTX instrument 1 is formed, and the mounting and dismounting operations of the pipeline detector 2 are facilitated;

then, after the installation is finished, the whole device is moved, the underground pipelines are explored and identified through the pipeline detector 2, after the identification is finished, exploration information is directly transmitted to the RTX instrument 1, the RTX instrument 1 determines the positions of the underground identified pipelines through the control of the operation panel 102, the exploration and measurement operation of the underground pipelines is finished, and in the whole exploration and measurement operation process, the pipeline detector 2 is installed on the RTX instrument 1, so that the identification and position confirmation of the underground pipelines are rapidly and effectively carried out at the same time, the underground pipeline exploration and measurement process is reduced, and the exploration and identification efficiency is improved;

finally, the pipeline detector 2 is in the process of identifying the underground pipeline, when the height of the induction rod needs to be adjusted to adapt to ground exploration measurement with different heights, the annular plate 401 is rotated, in the rotating process, the sliding strip 302 slides on the sliding groove 301, the position of the annular plate 401 on the supporting rod 101 is adjusted, the use height of the pipeline detector 2 on the annular plate 401 is further adjusted, exploration operation on the ground with different height positions is facilitated, in the exploration process, when different positions around the supporting rod 101 need to be explored and measured, the pipeline detector 2 on the annular plate 401 is turned to be adjusted through the rotating operation of the annular groove 501 and the rotating ring 502, exploration measurement is further facilitated on different positions on the ground, and the practicability of the exploration measurement device is improved.

Claims

1. An underground pipeline exploration and measurement device, comprising an RTX instrument (1), the RTX instrument (1) is composed of a support rod (101) and an operation panel (102), and the operation panel (102) is installed on the support rod (102). 101), characterized in that a pipeline detector (2) is installed on the support rod (101) through an installation mechanism, and an induction rod is provided on the pipeline detector (2);

The mounting mechanism includes an annular plate (401), the annular plate (401) is connected to the support rod (101) through an adjustment assembly for measuring height adjustment, and the annular plate (401) is connected with an installation through a steering assembly A rod (402), a mounting plate (403) is mounted on the mounting rod (402), and two symmetrically arranged pressing plates (404) are connected on the mounting plate (403) through a drive assembly, and the two Arc-shaped grooves (405) are formed on the opposite side walls of the pressing plate (404).

2 . An underground pipeline exploration and measurement device according to claim 1 , wherein the adjustment assembly comprises a spirally arranged chute ( 301 ) provided on the support rod ( 101 ), and the annular plate ( 401 ). 3 . A slide bar (302) is fixed on the inner wall of the ), and the slide bar (302) is slidably connected to the chute (301).

3. An underground pipeline exploration and measurement device according to claim 1, characterized in that the steering assembly comprises an annular groove (501) formed on the annular plate (401), and the annular groove (501) rotates on the annular groove (501). A rotating ring (502) is connected, and the mounting rod (402) is fixed on the rotating ring (502).

4. An underground pipeline exploration and measurement device according to claim 1, wherein the drive assembly comprises a square groove (601) opened on the mounting plate (403), and the square groove (601) slides on the Two sliding plates (602) are connected, and a double-ended screw (603) is rotatably connected to the mounting plate (403), and the two sliding plates (602) are respectively connected with the two screws on the double-ended screw (603). The screw grooves are arranged to engage with each other.

5 . The underground pipeline exploration and measurement device according to claim 4 , wherein the two thread grooves on the double-ended screw (603) are arranged in opposite directions of rotation. 6 .

6. An underground pipeline exploration and measurement device according to claim 4, characterized in that, one end of the double-ended screw (603) penetrates the mounting plate (403) and is fixed with a rotating pin (604), the rotating Anti-skid protrusions are provided on the pins (604).