CN218884955U

CN218884955U - Remote control digital inclinometer for geological engineering

Info

Publication number: CN218884955U
Application number: CN202222632959.XU
Authority: CN
Inventors: 王晨阳; 阚世平; 李帅
Original assignee: Chengdu Univeristy of Technology
Current assignee: Chengdu Univeristy of Technology
Priority date: 2022-03-10
Filing date: 2022-10-08
Publication date: 2023-04-18
Anticipated expiration: 2032-10-08

Abstract

The utility model discloses a geological engineering is with digital inclinometer of remote control, including connecting cable and test probe, the one end that connecting cable and test probe are relative is provided with female wiring end and son wiring end respectively, sliding connection has the slip pipe on the connecting cable. The utility model discloses a geological engineering is with digital inclinometer of remote control, the in-process that the digital inclinometer of remote control used, through the transmission, make annular gasbag begin the inflation under the effect of internal pressure and offset with the inner wall of sliding tube, the kneck to female wiring end and son wiring end seals the shutoff, avoid outside liquid to get into to female wiring end and son wiring end interface and cause the unable use of digital inclinometer of remote control, and the in-process of whole sealed protection, constantly aerify the extrusion through the sliding tube in the installation at every turn, guarantee that annular gasbag is effective and inseparable and the inner wall of sliding tube offsets, sealed effect between connecting cable and the test probe has been improved in the digital inclinometer use of remote control.

Description

Remote control digital inclinometer for geological engineering

Technical Field

The utility model belongs to the technical field of the digital inclinometer of remote control, specifically speaking relates to a geological engineering is with digital inclinometer of remote control.

Background

Remote control digital inclinometer is the instrument that measures the apex angle of engineering structures such as drilling, foundation ditch, foundation base, wall body and dam body slope on the geological engineering, the azimuth, the in-process that remote control digital inclinometer used, need be connected test probe and the female wiring end and the sub-wiring end of connecting the cable, connect and accomplish the back, seal up interface department through the sealing washer, but along with the continuous use wearing and tearing and the oxidation of sealing washer, it is not enough to make the leakproofness of interface department, the protection of the digital inclinometer of remote control of being not convenient for is used.

In view of this special the utility model is put forward.

SUMMERY OF THE UTILITY MODEL

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

the remote control digital inclinometer for the geological engineering comprises a connecting cable and a detection probe, wherein a female wiring end and a male wiring end are respectively arranged at one end, opposite to the connecting cable and the detection probe, of the connecting cable, a sliding pipe is connected to the connecting cable in a sliding mode, the sliding pipe is connected with the outer side wall of the detection probe through a connecting assembly, and a sealing mechanism used for sealing after the sliding pipe is connected to the detection probe is arranged on the detection probe;

the sealing mechanism comprises a circular plate arranged at one end of the detection probe, an annular groove is formed in the circular plate, an annular air bag is arranged on the annular groove, and an inflating mechanism used for inflating the inside of the annular air bag is arranged on one side of the circular plate.

The inflation mechanism is provided with a plurality of inflation mechanisms, and each annular array of the inflation mechanism is arranged on the circular plate.

The inflating mechanism comprises an installation pipe installed on one side of the circular plate, one end of the installation pipe is communicated with the inside of the annular air bag, and the installation pipe is connected with a pushing plate through a pushing assembly.

The promotion subassembly includes sliding connection at the catch bar of installation pipe one end, the one end of catch bar is located the inside of installation pipe and is fixed mutually with the catch bar, the driving plate is installed to the other end of catch bar, the circular slot that is used for the driving plate to promote is seted up to the inside of sliding tube.

The lateral wall of catch bar is overlapped and is equipped with the spring, the both ends of spring are connected with the inner wall of slurcam and installation pipe respectively.

Coupling assembling is including seting up the thread groove on the sliding tube inner wall, be provided with the screw thread strip on test probe's the outside lateral wall, threaded connection between screw thread strip and the thread groove.

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

the utility model discloses a geological engineering is with remote control digital inclinometer, the in-process that remote control digital inclinometer used, female wiring end and the son wiring end between connecting cable and the test probe are connected, connect the completion back, through the transmission, make annular gasbag begin the inflation under the effect of internal pressure and offset with the inner wall of sliding tube, the kneck to female wiring end and son wiring end seals up, avoid outside liquid to get into to female wiring end and son wiring end interface and cause the unable use of remote control digital inclinometer, and the in-process of whole sealed protection, constantly aerify the extrusion through the sliding tube installation at every turn, guarantee that the annular gasbag is effective and inseparable and the inner wall of sliding tube offsets, sealed effect between connecting cable and the test probe in the remote control digital inclinometer use has been 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 appearance structure of the present invention;

fig. 2 is a schematic view of the internal structure of the sealing 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;

fig. 5 is an enlarged view at C in fig. 4.

In the figure: 1-connecting a cable; 2-detecting the probe; 3-a sliding tube; 401-thread groove; 402-a thread strip; 501-circular plate; 502-an annular groove; 503-annular balloon; 601-installing a pipe; 602-a push plate; 603-a push rod; 604-a drive plate; 605-circular groove; 606-spring.

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 5, a remote control digital inclinometer for geological engineering comprises a connecting cable 1 and a detection probe 2, wherein one ends of the connecting cable 1 and the detection probe 2, which are opposite to each other, are respectively provided with a female terminal and a male terminal, a sliding tube 3 is connected on the connecting cable 1 in a sliding manner, the sliding tube 3 is connected with the outer side wall of the detection probe 2 through a connecting component, and a sealing mechanism for sealing after the sliding tube 3 is connected is arranged on the detection probe 2;

sealing mechanism is including installing the plectane 501 in the 2 one end of test probe, the annular groove 502 has been seted up on the plectane 501, install annular gasbag 503 on the annular groove 502, one side of plectane 501 is provided with and is used for the inside aerifyd mechanism of annular gasbag 503, the in-process of whole sealed protection, constantly aerify the extrusion through the sliding tube 3 installation in-process at every turn, guarantee that annular gasbag 503 is effective and inseparable offsets with the inner wall of sliding tube 3, the sealed effect between connecting cable 1 and test probe 2 in the remote control digital inclinometer use has been improved.

The plurality of inflation mechanisms are arranged, the annular arrays of the inflation mechanisms are arranged on the circular plate 501, and the effect of inflating the interior of the annular airbag 503 is improved through the plurality of inflation mechanisms arranged in the annular arrays.

The inflation mechanism comprises an installation pipe 601 installed on one side of the circular plate 501, one end of the installation pipe 601 is communicated with the interior of the annular airbag 503, a push plate 602 is connected to the installation pipe 601 through a push assembly, partial gas in the installation pipe 601 is pushed into the interior of the annular airbag 503 through the inflation mechanism, and the annular airbag 503 starts to expand under the action of internal pressure and abuts against the inner wall of the sliding pipe 3.

The pushing assembly comprises a pushing rod 603 which is connected to one end of the mounting pipe 601 in a sliding mode, one end of the pushing rod 603 is located inside the mounting pipe 601 and fixed to the pushing plate 602, the driving plate 604 is mounted at the other end of the pushing rod 603, a circular groove 605 used for being pushed by the driving plate 604 is formed in the sliding pipe 3, and the pushing rod 602 is convenient to push to move close to the annular air bag 503 under the action of force through the pushing assembly.

The lateral wall of the push rod 603 is sleeved with a spring 606, two ends of the spring 606 are respectively connected with the push plate 602 and the inner wall of the installation pipe 601, and the push plate 602 after being extruded can be conveniently reset through the arrangement of the spring 606.

Coupling assembling is provided with thread strip 402 including seting up thread groove 401 on 3 inner walls of sliding tube on the outside lateral wall of test probe 2, threaded connection between thread strip 402 and the thread groove 401, through coupling assembling, is convenient for be connected sliding tube 3 and test probe 2, through sliding tube 3's connection, protects the junction between female terminal and the sub-terminal.

In the process of using the remote control digital inclinometer, a female terminal and a sub terminal between a connecting cable 1 and a detection probe 2 are connected, after connection is completed, a sliding tube 3 slides and is connected with a thread between a thread groove 401 and a thread strip 402, so that the sliding tube 3 protects the joint between the female terminal and the sub terminal, in the process of connecting the sliding tube 3 with the detection probe 2, a circular groove 605 abuts against each transmission plate 604, the push plates 602 inside each push rod 603 are pushed to move by being stressed towards the annular air bag 503, partial gas inside each mounting tube 601 is pushed into the annular air bag 503 through the movement of each push plate 602, the annular air bag 503 starts to expand under the action of internal pressure and abuts against the inner wall of the sliding tube 3, sealing and plugging are carried out at the interface of the female terminal and the sub terminal, the phenomenon that external liquid enters the interface of the female terminal and the sub terminal to cause the remote control digital inclinometer is avoided, in the whole sealing and protecting process, the annular air bag 503 is continuously inflated during mounting through the sliding tube 3 at each time, the annular air bag 503, the effect that the annular air bag effectively extrudes the inner wall of the sliding tube 3 and the remote control digital inclinometer is effectively, and the sealing effect of the remote control digital inclinometer is improved in the process of the remote control digital inclinometer 1 and the detection probe 2 is improved.

Claims

1. The remote control digital inclinometer for the geological engineering comprises a connecting cable (1) and a detection probe (2), wherein a female wiring end and a male wiring end are respectively arranged at one end, opposite to the connecting cable (1) and the detection probe (2), of the connecting cable, and is characterized in that a sliding pipe (3) is connected onto the connecting cable (1) in a sliding manner, the sliding pipe (3) is connected with the outer side wall of the detection probe (2) through a connecting component, and a sealing mechanism used for sealing the sliding pipe (3) after connection is arranged on the detection probe (2);

the sealing mechanism comprises a circular plate (501) installed at one end of the detection probe (2), an annular groove (502) is formed in the circular plate (501), an annular air bag (503) is installed on the annular groove (502), and an inflating mechanism used for inflating the annular air bag (503) is arranged on one side of the circular plate (501).

2. A remote-controlled digital inclinometer for geological engineering according to claim 1, characterized in that said inflating means are provided in plurality, each of said inflating means being arranged in an annular array on a circular plate (501).

3. The remote control digital inclinometer for the geological engineering according to claim 2, characterized in that the inflation mechanism comprises a mounting pipe (601) arranged at one side of a circular plate (501), one end of the mounting pipe (601) is communicated with the inside of the annular air bag (503), and the mounting pipe (601) is connected with a pushing plate (602) through a pushing component.

4. The remote-control digital inclinometer for the geological engineering according to claim 3, characterized in that the pushing component comprises a pushing rod (603) which is slidably connected with one end of the mounting pipe (601), one end of the pushing rod (603) is positioned inside the mounting pipe (601) and fixed with the pushing plate (602), the other end of the pushing rod (603) is provided with a driving plate (604), and the inside of the sliding pipe (3) is provided with a circular groove (605) for pushing the driving plate (604).

5. The remote control digital inclinometer for the geological engineering according to claim 4, characterized in that the side wall of the pushing rod (603) is sleeved with a spring (606), and two ends of the spring (606) are respectively connected with the pushing plate (602) and the inner wall of the mounting pipe (601).

6. The remote-control digital inclinometer for geological engineering according to claim 1, characterized in that the connecting assembly comprises a threaded groove (401) opened on the inner wall of the sliding pipe (3), a threaded strip (402) is arranged on the outer side wall of the detection probe (2), and the threaded strip (402) is in threaded connection with the threaded groove (401).