JPH0434405Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] This invention relates to an inclinometer used for investigating the behavior of the ground or underground structures or measuring changes in slopes.

[Conventional technology]

Conventionally, this type of inclinometer has been used to measure, for example, the deformation distribution of retaining walls, underground displacement, etc.
Insert the inclination detector body into the measuring tube, and use the inclination detector body to read the inclination angle due to horizontal displacement of the measuring tube at arbitrary regular intervals such as 50 cm pitch, 1 m pitch, etc., and mark the obtained value as a gauge. The horizontal displacement is determined by multiplying by the distance, and the total amount of deformation is measured by summing the horizontal displacement. By performing such measurements periodically, the position, magnitude, direction, and position of the movement of the measuring tube can be determined. Obtaining data on speed, etc.

[Problem that the invention attempts to solve]

However, in the case of the above-mentioned conventional pipe inclinometer, the measuring staff manually inserts the main body of the inclination detector into the measuring pipe, lowers it to a predetermined depth, and then takes measurements while pulling it up at a predetermined pitch. Not only is the measurement work cumbersome and time-consuming, the measurement error is large, continuous measurement is not possible, and the signal cable is connected to the tilt detector body. , there was a problem that it was inconvenient for mobile phones.

[Purpose of invention]

This invention was made in view of the above-mentioned problems, and aims to provide an inclinometer that can save labor and automate measurement.

[Means for solving problems]

In order to solve the above problems, this invention
It consists of a tilt detector body that is slidably placed inside the measuring tube, and a lifting mechanism that automatically moves up and down inside the measuring tube. a gearbox that moves up and down within the measurement tube via a group;
comprising a drive section for driving the gearbox, a data recording means for inputting measurement data from the tilt detector main body, and an infrared data transmission/reception means,
A control section including the drive section, data recording means, and infrared data transmission/reception means is removably connected to the gearbox via a lock mechanism, and the tilt detector main body is suspended from the control section. This is what I did.

[Effect]

That is, this invention has the above-mentioned structure,
The tilt detector body can be raised and lowered automatically, and the measurement data is automatically recorded and has a built-in output function to a computer, so measurements can be performed automatically and continuously. become. Further, the lifting mechanism is lifted and lowered by driving a gearbox including a group of gears meshed with a chain whose one end is fixed to the upper part of the measuring tube. Since the control section including the transmitting/receiving means and the tilt detector main body suspended from the control section are detachable from the gearbox, these control section and the tilt detector main body can be carried separately. I can do it.

〔Example〕

This invention will be explained below based on an illustrated embodiment.

Fig. 1 and Fig. 2 show the schematic structure of the inclinometer in a pipe according to this invention, in which 1 indicates a measuring pipe;
2 is a tilt detector body inserted into the measuring tube 1;
Guide rollers 3 allow for free sliding in the vertical direction. In addition, numeral 4 in the figure is a gear box constituting the elevating mechanism, in which gear groups 5, 6, and 7 are meshed with a chain 8 whose one end is fixed to the upper part of the measuring tube 1, and a battery 9 provided at the lower part of the chain 8. The measuring tube 1 is arranged so that it can be automatically moved up and down within the measuring tube 1 by a drive motor 10 whose power source is . Furthermore, reference numeral 11 in the figure is a controller consisting of a microcomputer, which is capable of recording measurement data from the tilt detector main body 2 suspended at the bottom thereof, and is controlled by an infrared data transmitting/receiving device 12. has been done. Furthermore, 13 in the figure is the drive motor 1.
A rotary encoder installed at 0 detects the vertical distance of the tilt detector main body 2, so that the position of each measurement data can be confirmed continuously.

By the way, with respect to the gearbox 4, a control section including a drive section housing a battery 9, a drive motor 10, etc., and a controller 11 is connected to the locking hook 1.
Since it is removably attached via 4,
In the case of multiple site measurements, the control section can be separated from the gearbox 4 and carried together with the tilt detector main body 2 suspended below.

[Effect of idea]

As explained above, this invention automates the lifting and lowering of the tilt detector body inserted into the measuring tube and data recording, making continuous measurement possible. It is suspended from a lifting mechanism that meshes with a chain with one end fixed to the upper part, and moves up and down along with this lifting mechanism.In addition to eliminating the need for a signal cable to suspend the tilt detector body from outside the measuring tube,
Since the control unit and the tilt detector main body of the lift mechanism can be separated from the gearbox in the lift mechanism, only the control unit and the tilt detector can be carried, which saves labor in measurement. It has the effect that it can do.

[Brief explanation of drawings]

FIG. 1 is a schematic cross-sectional view of essential parts showing an embodiment of the inclinometer in a pipe according to this invention, and FIG.
It is a sectional view seen from the line arrow direction. 1... Measuring tube, 2... Tilt detector body, 4...
Gearbox, 5, 6, 7...Gear, 8...Chain, 9...Battery, 10...Drive motor, 1
1...Controller, 12...Data transmitting/receiving device, 13
...Rotary encoder.

Claims (1)

[Scope of utility model registration request] It consists of a tilt detector body that is slidably placed inside the measuring tube, and a lifting mechanism that automatically moves up and down inside the measuring tube. a gearbox that moves up and down within the measurement tube via a group;
comprising a drive section for driving the gearbox, a data recording means for inputting measurement data from the tilt detector main body, and an infrared data transmission/reception means,
The control section including the drive section, data recording means, and infrared data transmission/reception means is removably connected to the gearbox via a lock mechanism, and the tilt detector main body is suspended from the control section. Features: In-pipe inclinometer.