CN215893591U - Novel automatic monitoring-manual monitoring dual-purpose inclinometer tube - Google Patents

Abstract

The utility model discloses a novel automatic monitoring-manual monitoring dual-purpose inclinometer tube, which comprises a peripheral tube, a double-ring tube clamp and two inclinometer tubes for mounting inclinometer equipment, wherein the peripheral tube is connected with the double-ring tube clamp; the double-ring pipe clamp is arranged in the peripheral pipe and is connected with the peripheral pipe in a sliding way; the double-ring pipe clamp is provided with two clamping parts and a connecting part, the two clamping parts are connected through the connecting part, and a chuck tightening device is arranged on the connecting part; the two inclinometer pipes are respectively arranged in the two clamping parts and are bound and fixed through the clamping parts. According to the utility model, the automatic inclination measuring device and the manual inclination measuring device can be arranged on the novel inclination measuring pipe, the advantages of automatic inclination measuring and manual inclination measuring are integrated, the defects are mutually compensated, automatic all-weather accurate and timely measurement is realized, meanwhile, data of the same monitoring position can be obtained through manual inclination measuring when needed, and the data can be timely compared with the automatic inclination measuring, so that the defect of single-hole occupation type inclination measuring of the automatic inclination measuring pipe is overcome.

Description

Novel automatic monitoring-manual monitoring dual-purpose inclinometer tube

Technical Field

The utility model belongs to the field of engineering measuring instruments, and particularly relates to a novel automatic monitoring-manual monitoring dual-purpose inclinometer pipe.

Background

With the continuous advance of urbanization in China, deep foundation pit engineering is more and more common in three-dimensional traffic, civil air defense engineering, super high-rise buildings and underground large-scale building construction. Monitoring work is carried out in the foundation pit construction process, and foundation pit excavation and supporting are guided and controlled, and the method is particularly important in deep foundation pit construction.

The monitoring of deep level displacement of a foundation pit is a difficult point in engineering protection. At present, the main modes of foundation pit inclination measurement are traditional manual inclination measurement and automatic inclination measurement, and the two modes respectively have advantages and disadvantages.

For manual inclination measurement, the method has the advantages of mature calculation method, simple implementation, convenient verification and mature evaluation system; the method has the defects of poor recording objectivity and timeliness, scattered point randomness, point simulation lines, difficulty in integration of data dispersion, low data utilization rate, large environmental influence, time and place constraint and certain system errors and human errors. For automatic inclination measurement, the method has the advantages that the method is not influenced by weather, can ensure stable data, can continuously test, can quantify, and is safe and convenient; the method has the defects that the single-tube occupied type inclination measurement can not detect and verify the data accuracy at any time and can not correct errors in time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel automatic-manual monitoring dual-purpose inclinometer tube, which aims to overcome the defects that the single manual inclinometer record proposed in the background technology has poor objectivity and timeliness, scattered point randomness, point simulation lines, difficult integration of data dispersion, low data utilization rate, large environmental influence, time and place constraint and certain system errors and artificial errors exist, and the defects that the single automatic inclinometer cannot detect and verify the data accuracy at any time and cannot correct errors in time are overcome.

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

the utility model relates to a novel automatic monitoring-manual monitoring dual-purpose inclinometer tube, which comprises a peripheral tube, a double-ring tube clamp and two inclinometer tubes for mounting inclinometer equipment, wherein the peripheral tube is connected with the double-ring tube clamp; the double-ring pipe clamp is arranged in the peripheral pipe and is connected with the peripheral pipe in a sliding way; the double-ring pipe clamp is provided with two clamping parts and a connecting part, the two clamping parts are connected through the connecting part, and a chuck tightening device is arranged on the connecting part; the two inclinometer pipes are respectively arranged in the two clamping parts and are bound and fixed through the clamping parts.

Preferably, two peripheral pipe chutes are arranged in the peripheral pipe, double-ring pipe clamp chute buckles are arranged on two sides of the double-ring pipe clamp, and the double-ring pipe clamp chute buckles are respectively coupled with the corresponding peripheral pipe chutes.

Preferably, two the clamping part symmetry set up, and two one side that the clamping part is relative is equipped with the opening, connecting portion be two flexure strips, the both ends of two flexure strips are connected respectively in the opening part of both sides clamping part.

Preferably, the chuck compels tight device include axis of rotation, eccentric block, two stay locks and locking shaft, two stay locks are located the both sides of connecting portion respectively, the locking shaft runs through connecting portion, the one end of locking shaft is fixed with one of them stay locks, the other end of locking shaft runs through another stay lock, and the axis of rotation is connected with the part rotation of the stay lock of wearing out of locking shaft, the eccentric block cover establish the outside at the axis of rotation.

Preferably, the chuck tightening device further comprises a wrench, and the wrench and the eccentric block are in an integrated structure.

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

1. the utility model relates to a novel automatic-manual monitoring dual-purpose inclinometer, which comprises a peripheral pipe, a double-ring pipe clamp and two inclinometer pipes for installing inclinometer equipment, wherein the double-ring pipe clamp is provided with two clamping parts for installing the two inclinometer pipes, the two inclinometer pipes are conveniently, quickly and stably bound through a chuck tightening device, and the two inclinometer pipes are used for installing the inclinometer equipment, so that the automatic inclinometer device and the manual inclinometer device can be installed on the novel inclinometer pipes, the advantages of automatic inclinometry and manual inclinometry are centralized, the defects are mutually compensated, automatic all-weather accurate and timely measurement is realized, data of the same monitoring part can be obtained through manual inclinometry when needed, comparison with the automatic inclinometry is carried out in time, and the defect of 'single-hole occupation' type inclinometry of the automatic inclinometer pipes is compensated.

2. The novel dynamic monitoring-manual monitoring dual-purpose inclinometer comprises a peripheral pipe and double-ring pipe clamps, wherein two peripheral pipe chutes are formed in the peripheral pipe, double-ring pipe clamp chute buckles are arranged on two sides of the double-ring pipe clamp, and the double-ring pipe clamp chute buckles are respectively coupled with the corresponding peripheral pipe chutes, so that the inclinometer can be stably, accurately and conveniently installed, and the measurement precision is favorably improved.

3. The double-ring pipe clamp disclosed by the utility model can conveniently, quickly and stably bind two inclinometer pipes through the chuck tightening device, and compared with a drilling bolt tightening mode, the double-ring pipe clamp can save materials and is easier to install.

Drawings

FIG. 1 is a general cross-sectional view of the novel inclinometer;

FIG. 2 is a cross-sectional view of a peripheral tube with a chute;

FIG. 3 is a schematic view of a dual ring collet member;

FIG. 4 is a front view of a dual ring tube clamp member;

FIG. 5 is a top view of a dual ring tube clamp member;

fig. 6 is a sectional view of the collet tightening device.

In the figure: the clamp comprises a 1-peripheral pipe, a 11-peripheral pipe sliding groove, a 2-double-ring pipe clamp, a 21-clamping head pressing device, a 211-locking sheet, a 212-locking shaft, a 213-rotating shaft, a 214-eccentric block, a 215-wrench, a 22-double-ring pipe clamp sliding groove buckle, a 23-clamping part, a 24-connecting part and a 3-inclinometer pipe.

Detailed Description

The present invention is described in detail below, and technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to the attached figure 1, the utility model relates to a novel automatic monitoring-manual monitoring dual-purpose inclinometer tube, which comprises a peripheral tube 1, a double-ring tube clamp 2 and two inclinometer tubes 3 for installing inclinometer equipment.

Referring to the attached drawings 1-3, two peripheral pipe chutes 11 are arranged inside the peripheral pipe 1, two sides of the double-ring pipe clamp 2 are provided with double-ring pipe clamp chute buckles 22, the double-ring pipe clamp chute buckles 22 are respectively coupled with the corresponding peripheral pipe chutes 11, and therefore the double-ring pipe clamp 2 is mounted inside the peripheral pipe 1 and is in sliding connection with the peripheral pipe 1.

Referring to fig. 3-5, the double-ring pipe clamp 2 is provided with two clamping portions 23 and a connecting portion 24, the two clamping portions are connected through the connecting portion, the two clamping portions 23 are symmetrically arranged, an opening is formed in one side, opposite to the two clamping portions 23, of each clamping portion, the connecting portion 24 is provided with two elastic sheets, and two ends of each elastic sheet are connected to the openings of the clamping portions 23 on two sides respectively. The connecting part 24 is provided with a chuck packing device 21; two deviational survey pipes 3 are installed respectively in two clamping parts 23 and are binded fixedly through the clamping part, and one of them deviational survey pipe 3 is used for installing automatic deviational survey equipment, and another deviational survey pipe 3 is used for installing artifical deviational survey equipment.

Referring to fig. 3-6, the chuck tightening device 21 includes a rotation shaft 213, an eccentric block 214, two locking plates 211 and a locking shaft 212, the two locking plates 211 are respectively located at two sides of the connecting portion 24, the locking shaft 212 penetrates through the connecting portion 24, one end of the locking shaft 212 is fixed to one of the locking plates 211, the other end of the locking shaft 212 penetrates through the other locking plate 211, the rotation shaft 213 is rotatably connected with the locking shaft 212 at a portion penetrating out of the locking plate 211, the eccentric block 214 is sleeved outside the rotation shaft, and an arc notch is formed at a position of the eccentric block 214 corresponding to the locking shaft 212, so that the locking shaft 212 penetrates through the eccentric block 214 and is connected with the rotation shaft 213 inside the eccentric block 214. The collet tightening device 21 further includes a wrench 215, and the wrench 215 and the eccentric block 214 are integrated.

In this embodiment, the inner diameter of the peripheral tube 1 is 180mm, the inner diameter of the double-ring tube clamp 2 is 70mm, the distance between the circle centers of the two rings is 106mm, the inner diameter of the inclinometer tube 3 is 65mm, and a group of inclinometer tubes 3 are arranged at intervals of 1m in height.

The use method of the automatic monitoring-manual monitoring dual-purpose novel inclinometer pipe comprises the following steps:

1) drilling: an engineering drilling machine is adopted, and the depth of a drill hole is generally deeper than the installation depth (more than 0.5 meter per ten meters) in order to ensure that the peripheral installation is smooth;

2) hole cleaning: and after the drill bit drills to a preset position, clean water is filled downwards until muddy water becomes clean mixed water, and then the drill bit is lifted.

3) Install the dual-purpose novel deviational survey pipe of automatic monitoring-manual monitoring that this embodiment relates to:

(1) connecting the peripheral pipes 1 one by one until the designed length is reached, installing the peripheral pipes 1 in place, enabling the connecting line of the two sliding grooves of the peripheral pipes 1 to be parallel to the foundation pit, and backfilling gaps between the peripheral pipes 1 and the drilled holes;

(2) the length of the side inclined tube 3 is 2 meters generally, the side inclined tube 3 is connected to the designed length one by adopting an insertion connection method, when the inclined tube 3 is connected, a double-ring tube clamp 2 is arranged on each meter, namely the inclined tube 3 is arranged in the clamping part 23, the spanner 215 is pulled to enable the eccentric block 214 to rotate, the part, far away from the axis of the rotating shaft 213, of the eccentric block 214 abuts against the locking sheet 211 connected with the eccentric block, so that the locking sheet 211 moves inwards along the locking shaft 212, the distance between the two locking shafts 212 is shortened, the connecting part 24 is further compressed, the inner cavity of the clamping part 23 is reduced due to the deformation of the connecting part 24, the inclined tube 3 is further banded, the inclined tube 3 and the double-ring tube clamp 2 are arranged in the tube 1 together, and the double-ring tube clamp sliding groove buckle 22 of the double-ring tube clamp 2 is coupled with the peripheral tube sliding groove 11;

(4) and backfilling the holes in the peripheral pipe.

The present invention has been described in detail with reference to the embodiments, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (5)

1. The utility model provides an automatic dual-purpose novel deviational survey pipe of monitoring-manual monitoring which characterized in that: the inclination measuring device comprises a peripheral pipe, a double-ring pipe clamp and two inclination measuring pipes for mounting inclination measuring equipment; the double-ring pipe clamp is arranged in the peripheral pipe and is connected with the peripheral pipe in a sliding way; the double-ring pipe clamp is provided with two clamping parts and a connecting part, the two clamping parts are connected through the connecting part, and a chuck tightening device is arranged on the connecting part; the two inclinometer pipes are respectively arranged in the two clamping parts and are bound and fixed through the clamping parts.

2. The automatic monitoring-manual monitoring dual-purpose novel inclinometer pipe as claimed in claim 1, characterized in that: the inside of peripheral pipe be equipped with twice peripheral pipe spout, the both sides of dicyclo pipe clamp be equipped with dicyclo pipe clamp spout buckle, dicyclo pipe clamp spout buckle respectively with corresponding peripheral pipe spout coupling connection.

3. The automatic monitoring-manual monitoring dual-purpose novel inclinometer pipe as claimed in claim 1, characterized in that: two the clamping part symmetry set up, and two clamping part relative one side is equipped with the opening, connecting portion be two flexure strips, the both ends of two flexure strips are connected respectively in the opening part of both sides clamping part.

4. The automatic monitoring-manual monitoring dual-purpose novel inclinometer pipe as claimed in claim 1, characterized in that: the chuck compels tight device include axis of rotation, eccentric block, two stay and locking shaft, two stays are located the both sides of connecting portion respectively, the locking shaft runs through connecting portion, the one end of locking shaft is fixed with one of them stay, the other end of locking shaft runs through another stay, and the axis of rotation rotates with the part of locking shaft that wears out the stay and is connected, the eccentric block cover establish the outside at the axis of rotation.

5. The automatic monitoring-manual monitoring dual-purpose novel inclinometer pipe as claimed in claim 3, characterized in that: the chuck tightening device further comprises a wrench, and the wrench and the eccentric block are in an integrated structural form.

Images