JP2020098175A - Target for surveying - Google Patents

Abstract

To provide a target for surveying, in which an elevation/depression angle can be altered without changing the center position of a prism, and which is also adaptable to changes of an installation place of a surveying instrument.SOLUTION: A target for surveying comprises: a prism; a circularly shaped frame having a circular arc part; a holding member which is fixed to the circularly shaped frame in order to hold the prism; and a fixing basis for fixing the circularly shaped frame. The prism being a 360° prism is fixed to the circularly shaped frame via the holding member, such that the center position of the prism coincides with the center point of the circular arc of the circular arc part of the circularly shaped frame. Further, in the target for surveying, the circularly shaped frame is movable along the circular arc of the circular arc part, while holding the center position of the prism, with respect to the fixing base.SELECTED DRAWING: Figure 1

Description

The present invention relates to a surveying target fixed to a surveying point of a surveying object.

When constructing a structure, it is necessary to measure the position and orientation of the members that construct the structure, and to carry out construction while maintaining accuracy.
A surveying target is attached to the measurement point of the surveyed object. If the surveying target is a prism, automatic collimation and automatic tracking can be performed during surveying using a total station. At this time, the prism must face the surveying instrument for accurate surveying.

When mounting the prism on the surface of the object to be surveyed, if you try to mount it in the direction directly facing the surveying instrument, you need to calculate the offset of the center position of the prism and adjust the direction and amount before mounting. ..
As a jig that can be attached without changing the center position of the prism, for example, one described in Patent Document 1 is known.

JP, 2014-145683, A

For example, if the object to be surveyed is a steel column, it is necessary to attach a prism with the steel column lying on the ground, and the offset is calculated in advance according to the position of the steel column and the installation location of the survey instrument. However, according to the calculation result, the prism must be adjusted and attached to the surveying instrument to be installed.
In the case of surveying a steel column, a reflection sheet is generally used as a survey target because it is difficult to calculate the offset and it is difficult to cope with a sudden change in the installation location of the survey instrument.
However, when a reflective sheet is used as the survey target, the automatic collimation and automatic tracking, which are the greatest features of the total station, cannot be performed.

It is an object of the present invention to provide a surveying target that can change the elevation and depression angle without changing the center position of the prism and can also cope with changes in the installation location of the surveying instrument.

A first invention of the present application made to solve the above-mentioned problems includes a prism, a circular frame having an arc portion, a holding member which is fixed to the circular frame and holds the prism, and the circular frame. A fixed base for fixing, and the prism is a 360° prism, and the prism is interposed via the holding member so that the center position is the same as the center point of the arc of the arc portion of the circular frame. Fixed to the circular frame, the circular frame is movable along the arc of the arc portion while maintaining the center position of the prism with respect to the fixed base, surveying Provide targets for.
A second invention of the present application is characterized in that, in the surveying target of the first invention, the holding member is a rod-shaped member and is arranged in a radius portion of a circle formed by the arc portions of the circular frame. Provide a survey target.
A third invention of the present application is the surveying target of the first or second invention, wherein the holding member is a rod-shaped member that vertically penetrates the prism or fixes the prism to an upper portion and a lower portion of the prism. A target for surveying is provided, wherein the circular arc portion of the frame is substantially semicircular.
A fourth invention of the present application is the survey target according to any one of the first to third inventions, wherein a slit along the arc is formed in a predetermined range substantially at the center in the width direction of the circular frame, and the slit is provided with an axis. A fixing screw capable of inserting a portion, and a screw hole into which the fixing screw can be screwed, on the top surface of the fixing base, and the fixing screw from the inner diameter side of the circular frame to the slit. There is provided a surveying target, wherein the circular frame is fixed to the fixed base by inserting a shaft portion and screwing into the screw hole of the fixed base.
A fifth invention of the present application is that, in the surveying target according to any one of the first to fourth inventions, it has stoppers which are provided upright in parallel with a moving direction of the circular frame at the same intervals as the width of the circular frame. A characteristic surveying target is provided.
A sixth invention of the present application provides the surveying target according to any one of the first to fifth inventions, characterized in that an angular scale is provided on a side surface of the circular frame.

The present invention can obtain the following effects by the means for solving the above problems.
(1) Since the center point of the circular arc of the circular frame is the same as the central position of the prism, even if the circular frame is moved in the circular arc direction, the central position of the prism remains unchanged.
(2) Even if the circular frame is moved to adjust the elevation/depression angle, the center position of the prism does not change. Therefore, the offset is constant and the offset can be easily calculated.
(3) Since a prism is used as the target, automatic collimation and automatic tracking by the total station are possible.
(4) Since the prism is a 360° prism, even if the installation location of the surveying instrument is changed due to the circumstances of the site, if the prism is within the predetermined elevation and azimuth angles, surveying is performed. be able to.

Perspective view of the surveying target of the present invention (1) Explanatory drawing of the method of fixing the prism to the holding member Side view of the surveying target of the present invention Perspective view of the surveying target of the present invention (2) Explanatory drawing of a state in which the surveying target of the present invention is attached (1) Explanatory drawing of a state in which the surveying target of the present invention is attached (2) Side view of a surveying target according to a second embodiment Side view of a surveying target according to a third embodiment

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[Example 1]
[1] Configuration of Surveying Target The surveying target of the present invention includes a prism 1, a holding member 2 for mounting the prism 1, a circular frame 3 for fixing the holding member 2, a fixed base 4, and a fixed base 4. It is composed of a fixing screw 5 that integrates the circular frame 3 and a frame holding member 6 that is arranged between the circular frame 3 and the fixed base 4 (FIG. 1 ).

(1) Prism The prism 1 is a member for reflecting the laser oscillated by the surveying instrument.
The prism 1 is a 360° prism and reflects a laser beam incident from an arbitrary direction in the incident direction. By using the prism 1 as a 360° prism, even if the surveying instrument is not directly facing the prism 1, a predetermined elevation/depression angle (for example, −15° to 15°) and an azimuth angle (for example, −110°) from the center of the prism 1 are used. It is sufficient if there is a surveying instrument within 110°).
The prism 1 in the present embodiment has a through hole 11 penetrating the center C in the vertical direction, and in a state where the holding member 2 is inserted into the through hole 11, the prism fixing screw 12 is tightened to fix the prism to the holding member 2 ( (Fig. 2).

(2) Holding Member The holding member 2 is a rod-shaped member that vertically penetrates the center of the prism 1.
The holding member 2 has an upper portion 2a having a thickness that can be inserted into the through hole 11 of the prism 1, and a lower portion 2b having a larger thickness than the through hole 11.
When the upper portion 2a of the holding member 2 is inserted from the lower portion of the through hole 11, the prism 1 can be positioned at the position where the lower portion of the prism 1 contacts the upper end of the lower portion 2b. At this time, the lengths of the upper portion 2a and the lower portion 2b are set in advance so that the center C of the prism 1 is the center in the length direction of the holding member 2 (the distance between the ends of the holding member 2 is L/2).
In this embodiment, the holding member 2 is inserted through the through hole 11 of the prism 1, but the holding member 2 may be separately attached to the upper portion and the lower portion of the prism 1. At this time, the upper and lower holding members 2 are arranged coaxially, and the distance from the center C of the prism 1 to the end of each holding member 2 is the same (L/2).
Screw holes 22 into which the holding member fixing screws 21 can be screwed are formed at both ends of the holding member 2.

(3) Circular Frame The circular frame 3 is a member having a substantially semi-circular arc portion 31 and mounting portions 32 that project symmetrically from both ends of the arc portion 31 so as to face each other in parallel.
The circular frame 3 is formed by, for example, shaving aluminum.
The distance between the opposing mounting portions 32 is the same as the length L of the holding member 2.
An insertion hole 321 for inserting the shaft portion of the holding member fixing screw 21 is formed in the attachment portion 32 (FIG. 1). Then, the holding member 2 to which the prism 1 is fixed is arranged between the mounting portions 32, and the holding member fixing screw 21 having the shaft portion inserted into the insertion hole 321 is screwed into the screw hole 22 to be fixed.
A slit 33 along the circular arc of the circular arc portion 31 is formed in a predetermined range substantially at the center of the circular frame 3 in the width direction.

(3.1) Arrangement of Holding Member and Prism The fixing position of the holding member 2 with respect to the circular frame 3 is the radius of a circle of which the circular arc portion 31 of the circular frame 3 forms a part (FIG. 3).
In particular, in this embodiment, since the holding member 2 is inserted into the through hole 11 of the prism 1, the holding member 2 is fixed at a diameter portion of a circle which the circular arc portion 31 of the circular frame 3 forms a part.
Since the center C of the prism 1 is the center in the length direction of the holding member 2, the center point of the arc of the arc portion 31 of the circular frame 3 and the center C of the prism 1 are at the same position.
Further, by fixing the holding member 2 to the diameter portion, the substantially semicircular shape of the circular arc portion 31 of the circular frame 3 can be held.
By removing the holding member fixing screw 21, the holding member 2 can be removed from the circular frame 3, and the prism 1 can be replaced when the prism 1 is damaged.

(4) Fixed Base The fixed base 4 is a member for fixing the circular frame 3 to which the prism 1 is attached to the object to be surveyed.
When the object to be measured is made of metal, the fixed base 4 is preferably a magnet base that can be excited and fixed to the bottom surface and can be demagnetized and removed, and that can be easily switched between excitation and demagnetization. However, when the object to be surveyed is not made of a ferromagnetic material such as concrete or wood, the fixed base 4 is not limited to the magnet base, and can be appropriately fixed through a fixing tool such as an adhesive, a nail or a bolt.
A screw hole 41 into which the fixing screw 5 can be screwed is provided on the top surface of the fixed base 4.

(5) Fixing Screw The fixing screw 5 includes a head portion 51 and a shaft portion 52.
The head portion 51 has a width larger than the width of the slit 33 of the circular frame 3, and the shaft portion 52 has a diameter smaller than the width of the slit 33.
The fixing screw 5 fixes the circular frame 3 to the fixed base 4 by inserting the shaft portion 52 into the slit 33 from the inner diameter side of the circular frame 3 and screwing the shaft portion 52 into the screw hole 41 of the fixed base 4.
A washer 53 is provided between the fixing screw 5 and the circular frame 3.
The washer 53 has a surface in contact with the circular frame 3 with the same curvature as the circular frame 3.

(6) Frame holding material A frame holding material 6 is provided between the circular frame 3 and the top surface of the fixed base 4.
The frame holding member 6 includes a stopper 61 standing upright in parallel with the width of the circular frame 3, and a bottom plate 62 connecting the stoppers 61.
By holding the circular frame 3 between the stoppers 61, the movement of the circular frame 3 in the width direction is suppressed.
Through holes 63 corresponding to the screw holes 41 are provided in the bottom plate 62.
The bottom plate 62 has a surface in contact with the circular frame 3 with the same curvature as the circular frame 3.
The frame holding material 6 is integrated with the fixed base 4 by adhesion or the like. Further, the fixed base 4 may be provided with a stopper 61 so as to project therefrom.

(7) Adjusting the elevation/depression angle The circular frame 3 is fixed to the fixed base 4 via the fixing screw 5.
By loosening the fixing screw 5, the circular frame 3 between the head 51 of the fixing screw 5 and the frame holding member 6 (fixed base 4) can be moved (FIG. 4).
The shaft portion 52 of the fixing screw 5 is located in the slit 33 of the circular frame 3. The movement of the circular frame 3 in the width direction is suppressed by the stopper 61. Further, the washer 53 and the bottom plate 62 of the frame holding member 6 have the same curvature as the surface of the circular frame 3 in contact with the circular frame 3, so that the washer 53 and the bottom plate 62 are circular when the fixing screw 5 is tightened. The frame 3 is held by the surface.
Therefore, the circular frame 3 moves in the arc direction with respect to the fixed base 4 within the range where the slit 33 is formed. Thereby, the elevation and depression angle of the prism 1 provided on the circular frame 3 can be adjusted.
At this time, since the center point of the circular arc of the circular arc portion 31 of the circular frame 3 and the center C of the prism 1 are at the same position, even if the circular frame 3 is moved in the circular arc direction, the position of the center C of the prism 1 remains. It remains constant.

[2] Use of surveying target (1) Fixation of surveying target Fix the surveying target at the surveying target position of the surveying target 7 such as a steel column in a lying state at the site (FIG. 5). At this time, the elevation/depression angle of the prism 1 is adjusted in advance so that the surveying target directly faces the surveying instrument when the surveying target 7 is installed.
In the surveying target of the present invention, the offset is constant because the position of the center C of the prism 1 does not change even if the elevation/depression angle is adjusted, and the offset is easy to calculate.
When the survey object 7 is a ferromagnetic material, the fixed base 4 is a magnet base, so that the survey target can be easily attached to the survey target position.

(2) Surveying The survey target 7 with the surveying target fixed is built in (Fig. 6).
A surveying target in which the elevation and depression angle of the prism 1 is set in advance is fixed to the measurement target position of the surveying target 7, and the surveying can be easily performed by disposing the surveying instrument at a predetermined position.
Further, since the surveying target is the prism 1, automatic collimation and automatic tracking by the total station are possible.
Since the prism 1 is a 360° prism, even if the installation location of the surveying instrument is changed due to the circumstances of the site, if the prism 1 is within the predetermined elevation and azimuth angles, the surveying is performed. It can be carried out.

(3) Removal After the building work is completed, the surveying target is removed from the survey object 7.
When the fixed base 4 is a magnet base, the fixed base 4 can be demagnetized to easily remove the surveying target.

[Example 2]
(1) Confirmation of the adjustment angle of the prism By providing the angle scale 34 indicating the angle on the side surface of the circular frame 3, the adjustment angle of the prism 1 can be visually checked (FIG. 7).
At this time, by providing the notch 64 in the stopper 61 of the frame holding member 6, the angle scale 34 displayed in the notch 64 can be easily confirmed as the adjustment angle of the prism 1. The stopper 61 may be a transparent/semi-transparent member so that the inner angle scale 34 can be seen through.

[Example 3]
In the above-described embodiment, the holding members 2 are arranged above and below the prism 1, and the holding members 2 are fixed to the radius of the semicircle of the circular frame 3. However, the present invention is not limited to this. If the center point of the arc of 31 and the position of the center C of the prism 1 are the same, the holding member 2 can be cantilevered and fixed to the circular frame 3, and the prism 1 can be fixed to the holding member 2 (see FIG. 8). At this time, the holding member 2 is located in the radius portion of the circle of which the circular arc portion 31 of the circular frame 3 forms a part.
In this case, the circular arc portion 31 of the circular frame 3 does not have to be substantially semicircular, and may have a circular arc portion.
Further, when the prism 1 is damaged, the prism 1 can be replaced without removing the holding member 2 from the circular frame 3.

In addition, in the above-described Examples 1 to 3, the holding member 2 is the radius portion of the circle of which the circular arc portion 31 of the circular frame 3 forms a part. If the position of the center C of the prism 1 is the same, the number of the holding members 2 and the arrangement position can be appropriately selected.

DESCRIPTION OF SYMBOLS 1... Prism, 11... Through hole, 12... Prism fixing screw 2... Holding member, 21... Holding member fixing screw, 22... Screw hole 3... Circular frame, 31... Arc part, 32... Mounting part, 33... Slit, 34... Angle scale 4... Fixed base 5... Fixing screw, 51... Head, 52... Shaft, 53... Washer 6... Frame holding material, 61... Stopper, 62... Bottom plate, 63... Through hole, 64... Notch 7 …Surveying object

Claims (6)

A prism,
A circular frame having an arc portion,
A holding member fixed to the circular frame and holding the prism,
A fixed base for fixing the circular frame,
The prism is a 360° prism,
The prism is fixed to the circular frame via the holding member so that the center position is the same as the center point of the arc of the arc portion of the circular frame,
The circular frame is movable along the arc of the arc portion while maintaining the center position of the prism with respect to the fixed base.
Target for surveying. In the surveying target according to claim 1,
The holding member is a rod-shaped member, and is arranged in a radius portion of a circle formed by the arc portion of the circular frame,
Target for surveying. In the surveying target according to claim 1 or 2,
The holding member is a rod-shaped member that vertically penetrates the prism, or fixes the prism to an upper part and a lower part of the prism,
The circular arc portion of the circular frame is substantially semicircular,
Target for surveying. The surveying target according to any one of claims 1 to 3,
Forming a predetermined range of slits along the arc in the approximate center in the width direction of the circular frame,
Having a fixing screw capable of inserting the shaft portion into the slit,
The top surface of the fixed base has a screw hole into which the fixing screw can be screwed,
The fixing screw is fixed to the fixed base by inserting the shaft portion into the slit from the inner diameter side of the circular frame and screwing the screw into the screw hole of the fixed base. Characteristic,
Target for surveying. The surveying target according to any one of claims 1 to 4,
It has a stopper standing upright in parallel with the moving direction of the circular frame at the same interval as the width of the circular frame,
Target for surveying. The surveying target according to any one of claims 1 to 5,
An angle scale is provided on the side surface of the circular frame,
Target for surveying.

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