CN110793503A - Inclination monitoring instrument - Google Patents

Abstract

The invention discloses an inclination monitoring instrument, which comprises a mounting box, a foot screw, a connecting support, a protective cylinder, a communicating pipe, a suspension sensor, a horizontal bubble, an electronic sensor, a data receiving and transmitting device, a mobile power supply and a bubble fixing device, wherein the mounting box is used for mounting and fixing the instrument on a monitored object to monitor the change of the object, the electronic sensor above the mounting box transmits measured parameters to the data receiving and transmitting device in the mounting box and then transmits the parameters to a computer in a wireless way, the inclination monitoring instrument is used for monitoring the inclination of a building, the operation is simple, the use is convenient, the on-site limited condition is small, manpower, material resources and time can be greatly saved, the precision can meet the monitoring requirement, the risk of rainwater infiltration of the instrument is effectively prevented, the material quality and the size model of instrument equipment can be adjusted according to different monitored objects, and the main monitoring instrument can be repeatedly used, the application range is wide.

Description

Inclination monitoring instrument

Technical Field

The invention belongs to the technical field of building detection and particularly relates to an inclination monitoring instrument.

Background

At present, the influence of construction on surrounding building structures is often encountered on each construction project and monitored, and the monitoring projects mainly comprise building settlement, building differential settlement and building inclination. The monitoring method generally comprises the steps of monitoring building measuring points by using a precision level gauge and then exporting and calculating data.

The existing building monitoring technology has the following problems: the factors needed when utilizing the precision level to monitor building structure measurement point have a lot, for example manpower, material resources, time and the scene that satisfies the requirement, otherwise the monitoring result often can be poor and the intention, and the precision level installation is comparatively troublesome when using, need consume some time, and secondly the operation is relatively complicated, needs technical talent real-time operation, receives the on-the-spot geological requirement more, and application scope is not extensive enough.

Disclosure of Invention

The invention aims to provide an inclination monitoring instrument, which aims to solve the problems that the existing technology for detecting by using a precision level provided in the background technology has more requirements on manpower, material resources, time and sites meeting the requirements, the precision level is troublesome to install and complicated to operate when in use, and the application range is not wide enough.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an inclination monitoring instrument, includes mounting box, foot spiral, connects support, a protection section of thick bamboo, communicating pipe, suspension inductor, horizontal bubble, electronic inductor, data reception, conveyer, portable power source and bubble fixing device, the mounting box is fixed the change of monitoring object on the monitoring object with the instrument fixing, the electronic inductor of mounting box top will survey and acquire in parameter transmission to the mounting box data reception, the conveyer again through wireless propagation to the computer, suspension inductor, electronic inductor and data reception, conveyer all with portable power source electric connection.

Preferably, communicating pipe structure as an organic whole, communicating pipe comprises two U-shaped pipes of same size, shape, the mouth of pipe of U-shaped pipe on communicating pipe perpendicular to coplanar, circular arc position up become 90 and intersect, and bottom intercommunication, two kinds of modes are taken to mouth of pipe department of communicating pipe, one can open the lid pattern, reserve the gas pocket on the lid, one with body integration pattern, the gas pocket is reserved to the top in the top

The suspension inductor is provided with four in total, four the suspension inductor is arranged in four mouths of pipe of communicating pipe respectively, the diameter of suspension inductor slightly is less than communicating pipe inner tube diameter and suspends in communicating pipe inside liquid.

Preferably, the electronic inductor is arranged in and is connected with bubble fixing device in the middle of four outer tube walls of communicating pipe, bubble fixing device is the cross shape, communicating pipe cup joints with four ring sleeves respectively mutually, communicating pipe mouth of pipe external diameter slightly is less than the ring sleeve internal diameter, and ring sleeve department is equipped with the latch closure and plays the fixed action, and bubble fixing device's central authorities are connected different faces with the inductor and are settled there is the horizontal bubble, the horizontal bubble is directly over.

Preferably, the communicating pipe is made of transparent materials, the pipe wall is provided with scale measuring ranges, the connection part of the protection cylinder and the communicating pipe is made of transparent materials, other parts are made of non-transparent materials, the protection cylinder is reversely buckled into the instrument, the cylinder opening of the protection cylinder is in ring buckle connection with the support, the inside of the connection support is connected with the arc center of the communicating pipe, and the outside of the connection support is in spiral connection with the feet.

Preferably, the connection support is connected with the mounting box below through three equilateral triangle's foot spiral, the foot spiral can be used to adjust top horizontal bubble, the foot spiral is induction system and installation, transmission device's node, but foot spiral material cavity for data receiving, data receiving arrangement in the conveyer data line connection mounting box.

Preferably, the data receiving and transmitting device is arranged in the installation box, receives the induction parameters through a data line and transmits the parameters back to the computer, the mobile power supply is arranged at the bottommost part of the installation box, and the installation box can be adjusted in size and made of selected materials according to the monitored objects.

Compared with the prior building monitoring technology, the invention provides an inclination monitoring instrument, which has the following beneficial effects:

the device is used for monitoring the inclination of a building, is simple to operate, convenient to use, small in limited condition on site, capable of greatly saving manpower, material resources and time, capable of meeting the monitoring requirement for precision, effectively preventing the risk of rainwater infiltration of instruments, capable of adjusting the material and size models of instrument equipment according to different monitoring objects, reusable and wide in application range, and can be applied to detection tasks of buildings in various geological environments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention without limiting the invention in which:

FIG. 1 is a schematic plane structure diagram of an inclination monitoring device according to the present invention;

FIG. 2 is a schematic top view of a tilt monitoring apparatus according to the present invention;

FIG. 3 is a schematic view of a front view structure of a communication pipe according to the present invention;

fig. 4 is a schematic view of a top view structure of a communication pipe according to the present invention;

FIG. 5 is a schematic view of a reading area of a communication tube according to the present invention;

in the figure: 1. mounting a box; 2. a foot spiral; 3. connecting a support; 4. a protective cylinder; 5. a communicating pipe; 6. a suspension inductor; 7. horizontal bubbles; 8. an electronic inductor; 9. data receiving and transmitting devices; 10. a mobile power supply; 11. and a bubble fixing device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, 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 fig. 1-5, the present invention provides a technical solution: the utility model provides an inclination monitoring instrument, including mounting box 1, foot spiral 2, connect support 3, a protection section of thick bamboo 4, communicating pipe 5, suspension inductor 6, horizontal bubble 7, electronic inductor 8, data reception, conveyer 9, portable power source 10 and bubble fixing device 11, mounting box 1 fixes the change of monitoring object on the monitoring object with the instrument installation, the electronic inductor 8 of mounting box 1 top will record the data reception of parameter transmission to mounting box 1, rethread wireless propagation to the computer in the conveyer 9, suspension inductor 6, electronic inductor 8 and data reception, conveyer 9 all with portable power source 10 electric connection.

In detail:

the instrument can be used for monitoring both vertical wall surfaces and high-voltage towers with large angles, firstly, the mounting boxes 1 with different materials and sizes are determined according to different environments and different monitoring objects, and the mounting boxes 1 are fixed on the monitoring objects (sticking and foreign object fixing).

The foot spiral 2 below the connecting support 3 is adjusted to enable the horizontal bubble 7 on the bubble fixing device 11 to be centered, meanwhile, whether the suspension sensor 6 is located on the scale of 0 is determined by observing the scale value on the transparent communicating pipe 5 on the protection cylinder 4, the protection cylinder 4 can be stamped and covered by completing the operation, the bubble fixing device 11 and the communicating pipe 5 are made of materials which have slight influence on expansion with heat and contraction with cold, of course, the invention is not limited by the above, and a person skilled in the art can select proper materials and shape sizes according to needs.

After the instrument is leveled, the protective cylinder 4 is reversely buckled into the communicating pipe 5, a switch of the connecting support 3 is locked, the mounting box 1 is opened, the mobile power supply 10 is started, whether an indicator lamp on the electronic inductor 8 below the bubble fixing device 11 is bright or not is observed, whether an indicator lamp of the data receiving and transmitting device 9 is bright or not is observed, and whether the instrument transmission signal on a computer is normal or not is checked.

In the using process, the inclination angles of the object in four directions can be analyzed and monitored according to data transmitted back by the instrument, a three-dimensional image is formed, and differential settlement in the four directions is calculated.

The instrument can be dismantled after the project is accomplished, and whether used repeatedly is confirmed to the visual sound level of mounting box 1 and protection section of thick bamboo 4, can carry out used repeatedly under the undamaged prerequisite of other instrument devices again.

The working principle and the using process of the invention are as follows: after the invention is installed, the installation boxes 1 with different materials and sizes are determined according to different environments and different monitoring objects, the installation boxes 1 are fixed on the monitoring objects (adhered and fixed by foreign objects), the foot spiral 2 below the connecting support 3 is adjusted to center the horizontal bubble 7 on the bubble fixing device 11, meanwhile, whether the suspension inductor 6 is positioned on 0 scale is determined by observing the scale value on the transparent communicating pipe 5 on the protection cylinder 4, the protection cylinder 4 can be sealed and covered by finishing the operation, the bubble fixing device 11 and the communicating pipe 5 are made of materials which have slight influence on thermal expansion and cold contraction,

after the instrument is leveled, the protective cylinder 4 is reversely buckled into the communicating pipe 5, a switch of the connecting support 3 is locked and locked, the mounting box 1 is opened, the mobile power supply 10 is started, whether an indicator lamp on the electronic inductor 8 below the bubble fixing device 11 is bright or not is observed, whether an indicator lamp of the data receiving and transmitting device 9 is bright or not is observed, whether an instrument transmission signal on a computer is normal or not is checked, the inclination angles of four directions of an object can be analyzed and monitored according to data transmitted back by the instrument in the using process, a three-dimensional image is formed, and differential settlement of the four directions is calculated.

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 (7)

1. The utility model provides an inclination monitoring instrument, includes mounting box (1), foot spiral (2), connection support (3), a protection section of thick bamboo (4), communicating pipe (5), suspension inductor (6), horizontal bubble (7), electronic inductor (8), data reception, conveyer (9), portable power source (10) and bubble fixing device (11), its characterized in that: the mounting box (1) fixes the instrument installation on monitoring the change of object, the data reception in mounting box (1), the rethread wireless transmission to the computer in the conveyer (9) will be surveyed to electronic inductor (8) of mounting box (1) top, suspension inductor (6), electronic inductor (8) and data reception, conveyer (9) all with portable power source (10) electric connection.

2. A tilt monitoring apparatus according to claim 1, wherein: communicating pipe (5) structure as an organic whole, communicating pipe (5) comprise two U-shaped pipes of same size, shape, the mouth of pipe of U-shaped pipe is up perpendicular to coplanar, circular arc position to become 90 crossing on communicating pipe (5), and the bottom communicates mutually, two kinds of modes are taken to communicating pipe (5) mouth of pipe department, one kind can open the lid pattern, reserves the gas pocket on the lid, one kind and body integration pattern, and the gas pocket is reserved to the top.

3. A tilt monitoring apparatus according to claim 1, wherein: the suspension inductors (6) are provided with four, four in total, the suspension inductors (6) are respectively arranged inside four pipe openings of the communicating pipe (5), and the diameter of the suspension inductors (6) is slightly smaller than the diameter of an inner pipe of the communicating pipe (5) and is suspended in liquid inside the communicating pipe (5).

4. A tilt monitoring apparatus according to claim 1, wherein: electronic sensor (8) are arranged in communicating pipe (5) four outer walls in the middle of and are connected with bubble fixing device (11), bubble fixing device (11) are the cross shape, communicating pipe (5) cup joint with four ring covers respectively, communicating pipe (5) mouth of pipe external diameter slightly is less than ring cover internal diameter, and ring cover department is equipped with the latch closure and plays fixed action, and horizontal bubble (7) have been settled to the central authorities (being connected different faces with the inductor) of bubble fixing device (11), horizontal bubble (7) are towards directly over.

5. A tilt monitoring apparatus according to claim 1, wherein: communicating pipe (5) are transparent material, and have the scale range on the pipe wall, a protection section of thick bamboo (4) and communicating pipe (5) handing-over position are transparent material equally, and other positions are opaque material, an instrument is gone into to a protection section of thick bamboo (4) back-off, support (3) is connected to the nozzle latch closure of a protection section of thick bamboo (4), it is connected with communicating pipe (5) circular arc center to connect support (3) inside, it is connected with foot spiral (2) to connect support (3) outside.

6. A tilt monitoring apparatus according to claim 1, wherein: connect support (3) and connect below mounting box (1) through three equilateral triangle's foot spiral (2), foot spiral (2) can be used to adjust top horizontal bubble (7), foot spiral (2) are induction system and installation, transmission device's node, but foot spiral (2) material cavity for data receiving, data receiving device in conveyer (9) data line connection mounting box (1).

7. A tilt monitoring apparatus according to claim 1, wherein: the data receiving and transmitting device (9) is arranged in the mounting box (1), receives induction parameters through a data line and transmits the parameters back to a computer, the mobile power supply (10) is arranged at the bottommost part of the mounting box (1), and the mounting box (1) can be adjusted in size and made of selected materials according to a monitored object.

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