JPH0116057Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a pole type optical distance meter used for simple surveying.

Conventional light wave distance meters have been used by being fixed to a surveying tripod or theodolite. A surveying tripod or theodolite is suitable for use in a wide area, but it is extremely difficult to install it in a narrow place and survey a narrow range. Therefore, conventional light wave distance meters have been used exclusively for long-distance surveying.

This invention can be installed in an extremely narrow space, enables short-distance surveying extremely easily, and also allows the lightwave rangefinder to be held vertically, finely adjusted to the tilt angle, and fixed in that state. The purpose is to obtain a pole-type light-wave distance meter that makes it possible to perform a survey. A pole-type optical wave sensor is provided with a fine adjustment device, the surveying pole is configured to be extendable and retractable, a distance scale is provided from the lower end of the pole to the center of the optical axis of the optical distance meter, and a vertical measuring device is attached to the pole. It's on the rangefinder.

The present invention will be described below with reference to the embodiments shown in the drawings.

11 is a light wave distance meter, and a frame 12 is attached to the distance meter 11. Surveying pole 2
0 is configured to be extendable and retractable, and a bearing arm 22 is attached to its tip (upper end) via an attachment 21. The bearing arm 22 is the surveying pole 2
0, it may be attached so as to be rotatable in the lateral direction, or it may be fixed in a non-rotatable manner. Bearing arm 2
The optical distance meter 11 is fitted between the two bearing parts 22a and 22b, and the shafts 23a and 23b are connected to the bearing parts 22a and 22.
b to support the frame 12, and support the frame 12, that is, the optical distance meter 11 so as to be tiltable. The fixing device for the mounting portion of the optical distance meter 11, which is tiltably mounted on the bearing arm 22 as described above, is constructed as follows. The upper bifurcated fitting part 30a of the fixed arm 30 is fitted into the protruding part of one shaft 23b, and the threaded rod part 31' of the fixed knob 31 is inserted through the upper ends 30c and 30d of the bifurcated fitting part. By tightening and loosening the fixing knob 31, it is possible to fix and rotate the bifurcated fitting part 30a of the fixed arm 30 and the shaft 23b, that is, fix and tilt the optical distance meter 11. do.

The fine movement adjustment device for the attachment part of the light wave distance meter 11 is constructed as follows. The screw rod 41' of the fine movement knob 41 is screwed through the support frame 40 fixed to the one bearing portion 22b of the bearing arm 22, and the tip of the screw rod 41' is brought into pressure contact with the fixed arm 30.
Also, a spring cylinder 44 is fitted into a cylinder 43 whose end face is fixed to the support frame 42 which is fixed at a position symmetrical to the support frame 40 of one bearing part 22b of the bearing arm 22.
is resiliently repelled toward the fixed arm by a spring (not shown). 50 is a minute scale mounted on the frame 12, which rotates together with the frame 12;
By providing the indicator 51 on the bearing arm 22,
If the light wave distance meter 11 is set as a scale for reading in a horizontal or vertically inclined state, conversion of horizontal and vertical distances becomes easy. A supporting part 24' of a vertical measuring device 24 such as a circular bubble tube can be attached to and detached from the surveying pole 20, or a fitting part (not shown) for fitting the surveying pole 20 is provided at the base of the supporting part 24'. By screwing in a fixing screw (not shown), the vertical measuring instrument 24 can be rotated with respect to the surveying pole 20, or the vertical position can be adjusted.
4 is configured to be non-removable from the surveying pole 20, or alternatively, the support part 24' is fixedly attached to the surveying pole 20 so as not to be rotatable or vertically movable, thereby confirming that the surveying pole is maintained in a vertical state. 25 is a distance scale from the lower end of the surveying pole 20 to the center of the optical axis of the optical distance meter 11, and is used to know the height from the measuring point to the optical axis of the optical distance meter 11, and 25' is a distance scale. These are scale numbers displayed on the distance scale 25. That is, the surveying pole 20 has an outer cylindrical portion 20a located at the top.
and an inner cylinder part 20b having a stone protrusion whose upper part is inserted into the outer cylinder part 20a, and the distance scale 25 and scale numbers 25' are displayed in the vertical direction of the inner cylinder part 20b. . The tension between the outer cylinder part 20a and the inner cylinder part 20b is released by unscrewing the fixing ring 26 which is circumscribed and screwed to the lower edge of the outer cylinder part 20a, and the outer cylinder part 20a can be raised and lowered relative to the inner cylinder part 20b. Then,
The surveying pole is expanded and contracted. Further, after the outer cylinder part 20a is positioned at the desired position of the inner cylinder part 20b by raising and lowering the outer cylinder part 20a, the inner wall of the outer cylinder part 20a is moved to the inner cylinder part 20b by tightening the fixing ring 26. The outer cylinder part 20a and the inner cylinder part 20b are compressed.
and fix it.

As shown in FIG. 3, reading the scale number 26 on the distance scale 25 of the inner cylinder part 20b where the lower edge of the fixed ring 26 is located when the above-mentioned outer cylinder part 20a and inner cylinder part 20b are fixed. Accordingly, the height from the measurement point to the optical distance meter 11 can be known.

When the lower edge of the fixed ring 26 is located in the middle of the distance scale 25, the distance between the distance scales 25, 25 can be read by dividing the distance, and the numerical value of the height can be determined. Since the present invention allows the surveying pole 20 to be erected in a narrow space of land, it does not require a standing volume like a tripod, and after tilting the optical distance meter 11 to the desired angle, the fine adjustment knob 41 can be adjusted. After making fine adjustments, the light wave distance meter 11 is fixed to the surveying pole 20 at the fine adjustment angle using the fixing knob 42.

As described above, the present invention includes a light wave rangefinder tiltably attached to the tip of a surveying pole, a fixing device and a fine adjustment device for the mounting part, and the surveying pole is configured to be extendable and retractable. A distance scale is provided from the bottom end to the center of the optical axis of the optical distance meter, and a vertical measuring device is attached to the pole, so the surveying pole can be erected in any narrow space, and the vertical measuring device allows it to be erected vertically. By expanding and contracting the pole, measurements can be made from long distances to very close distances. Moreover, it has the effect of making it possible to finely adjust the inclination angle of the light wave distance meter and to fix it after the fine adjustment.

[Brief explanation of the drawing]

FIG. 1 is a left side view of the present invention, FIG. 2 is a front view, FIG. 3 is an enlarged view of a portion of the surveying pole, and FIG. 4 is an enlarged view of a portion of FIG. 2. 11...Light wave distance meter, 12...Frame body, 20...
Surveying pole, 21... Attachment, 22...
...bearing arm, 22a, 22b...bearing part, 23
a, 22b...axis, 24...vertical measuring device, 30...
...Fixed arm, 30a...Bifurcated fitting part, 30
c, 30d... upper end of the forked fitting part, 31... fixed knob, 31'... threaded rod part, 40... support frame,
41...Fine movement knob, 42...Support frame, 43...
Cylindrical body, 44... Spring tube.

Claims (1)

[Claims for Utility Model Registration] 1. A light wave distance meter is tiltably attached to the tip of a surveying pole, and a fixing device and a fine adjustment device are provided for the mounting portion, and the surveying pole is configured to be extendable and retractable, and A pole-type light-wave distance meter is provided with a distance scale from the bottom end of the pole to the center of the optical axis of the light-wave distance meter, and a vertical measuring device is attached to the pole. 2. A pole-type light wave distance meter according to claim 1 of the utility model registration claim, which comprises a vertical measuring device removably attached to a surveying pole. 3. A pole-type light wave distance meter according to claim 1 of the utility model registration claim, which comprises a vertical measuring device irremovably attached to a surveying pole.