KR20190020468A - Apparatus for setting layout point of total station - Google Patents

Abstract

The present invention relates to an apparatus for setting a layout point of a total station, so that a prism reflecting the light irradiated from the light source is fixed to be positioned at the precise layout point at which the measurement is desired. The apparatus includes: a laser pointer for irradiating a laser point indicating an XY coordinate with respect to a fixed position of the prism center point toward a lower surface of the prism; a laser pointer fixing bracket for fixing the prism and fixing the laser pointer; an XY position adjuster for moving the X-axis coordinate moving adjuster and the Y-axis coordinate moving adjuster of the laser pointer in mutually vertical directions, in which a fixing bolt is coupled to a lower portion of the laser pointer fixing bracket; a horizontal position adjuster in which a horizontal position adjusting ball head is freely rotatable and fixed by a horizontal position adjusting ball head locking knob for adjusting a horizontal position of the laser pointer, and the XY position adjuster and the upper and lower quick brackets are disposed under the XY position adjuster and are coupled by fixing bolts; and a moving cradle coupled to the horizontal position adjuster by a fixing bolt.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a layout point setting apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a layout point setting apparatus for a lightwave instrument, and more particularly, to a layout point setting apparatus for a lightwave instrument, and more particularly to a layout point setting apparatus for setting a position of a prism and a prism The present invention relates to a layout point setting apparatus for setting a precise measuring position by precisely guiding a laser pointer indicating a position of a prism on an XY-axis in order to accurately set a desired point position.

In general, a total station is one of the equipment used for surveying. It is installed to rotate a small telescope around a horizontal axis and a vertical axis, and uses a light wave (EDM) such as a laser to measure an incident light It is a device for measuring the distance, altitude or azimuth of an observation object through measurement of phase difference with respect to reflected light.

Such a light wave is widely used for accurate position and distance measurement in construction sites as well as various surveying work sites.

1 shows a method for measuring the position of an object using a light wave according to the prior art.

1, a light source 100 includes a head 110 for measuring an object to be observed by the operator and a plurality of supports 120 for supporting the head 110.

In this case, the support base 120 is generally composed of three, and is formed to support the head 110 by forming a tripod. The support base 120 is installed so as to be opened or folded at a predetermined angle, Respectively.

In a typical measurement process, a light source is installed at a certain point or a reference point, and a point or an arbitrary point is set. Then, a reflection device such as the prism 210 and a height measurement It is possible to position the prism rest 150 as much as possible and grasp the position of each light while reflecting the light irradiated from the light source 100 by the reflection device.

However, in this process, after the light source 100 is installed at the reference point, the prisms 210 and the prism holder 150 are precisely positioned at specific positions before the measurement is performed by the attraction force for each arbitrary coordinate. According to the related art, the prism 210 and the prism holder 150 are slightly moved in the direction of the eye in order to find an accurate position in the unit of millimeter near a specific position to be found after checking the current position of the prism 210 and the prism holder 150 The process of moving continues to be repeated.

Therefore, the conventional surveying process has a problem of consuming a lot of time and manpower because it is time consuming to move to an inaccurate and accurate position.

Korean Patent Publication No. 10-2014-0026058 Korean Patent Registration No. 10-1143507

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and it is an object of the present invention to provide a prism holder and a prism holder for reflecting a laser beam emitted from a light wave generator in a position, A laser pointer indicating a position of a prism is precisely guided on an XY-axis so as to accurately set a measurement point at a measurement position.

The layout point setting device of a light wave device according to the present invention is a layout point setting device of a light wave device that adjusts a prism that reflects light emitted from a light wave generator so as to be located at a desired accurate layout point in a surveying operation, A laser pointer for irradiating a laser point representing a XY coordinate with respect to the lower surface of the paper; A laser pointer fixing bracket for fixing the prism and fixing the laser pointer; An XY position adjuster coupled to a lower portion of the laser pointer fixing bracket by a fixing bolt and adapted to move the X-axis coordinate movement adjuster and the Y-axis coordinate movement adjuster of the laser pointer mutually in a vertical direction; The horizontal position adjusting ball head is freely rotatable to adjust the horizontal position of the laser pointer. The horizontal position adjusting ball head is coupled to the XY position adjuster and the upper and lower quick brackets by the fixing bolt. A horizontal position adjuster fastened and fixed by a ball head locking knob; And a horizontal position adjuster coupled to the lower portion by a fixing bolt.

In the layout point setting apparatus of the present invention, the XY position adjuster may be disposed below the laser pointer fixing bracket to place the laser pointer fixing bracket and the upper and lower quick brackets, and the X- And one side of the upper surface of the Y-axis coordinate transferring regulator is provided with an X-axis movement scale and a Y-axis movement scale so that the movement distance can be easily grasped.

In the layout point setting apparatus of the present invention, the gear portion is formed at one side edge of the lower surface of the X-axis coordinate transfer regulator of the XY position adjuster, and the X-axis fixing block is fixed to the Y- A gear portion is formed at one side edge of the lower surface of the Y-axis coordinate transfer regulator, the Y-axis fixing moving block is engaged with the gear portion to allow the X-axis coordinate transferring regulator to slide in the longitudinal direction with respect to the X- And the Y-axis coordinate shifting regulator is slidable in the longitudinal direction with respect to the Y-axis fixing block by being fixed to the lower horizontal position adjuster and engaged with the gear portion.

In the layout point setting device of the present invention, an X-axis movement knob for controlling the sliding movement of the quick bracket for laser pointer and an X-axis movement knob for controlling the X- A Y-axis moving knob for controlling the sliding movement of the Y-axis coordinate moving regulator and a Y-axis moving knob for moving the Y-axis coordinate moving regulator are provided on a side surface of the Y-axis coordinate moving regulator of the XY position adjuster, And a Y-axis movement locking knob for fixing the Y-axis movement locking knob.

Further, in the layout point setting apparatus of the present invention, in the lower portion of the quick bracket for fixing the laser pointer, which is coupled to the X-axis movement regulator of the XY position adjuster, a horizontal bubble determination tube or level indicator And the like.

The present invention has the effect of precisely guiding the laser pointer indicating the measurement position on the XY axis to accurately set the layout point position, which is the position of the prism for reflecting the laser emitted from the light source, to the measurement position.

In addition, according to the present invention, a laser pointer indicating a measurement position of a prism can be accurately and quickly set in a unit of mm while viewing a scale through an XY-axis movement adjustment screw.

Further, according to the present invention, there is an advantage that in the surveying operation, the layout point of the prism can be moved to the correct position, and the processing can be performed in a short time without consuming human power.

FIG. 1 is a schematic view showing a method of measuring the position of an object using a light wave according to the prior art.
2 is a schematic view illustrating a method for measuring the position of an object according to an embodiment of the present invention.
FIG. 3 is a generalized exploded view of a layout point setting apparatus of a light wave device according to an embodiment of the present invention, as shown in FIG.
FIG. 4 is a detailed configuration diagram of a laser pointer in a layout point setting apparatus of a light wave device according to an embodiment of the present invention.
6 is a plan view of the XY position adjuster, FIG. 7 is a bottom view of the XY position adjuster, and FIG. 8 is a bottom view of the XY position adjuster in the layout position setting device of the present invention. XY position adjuster.
FIG. 9 is a perspective view of a horizontal position adjuster and a movable holder in an apparatus for setting a layout point of a light wave according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for setting a layout point of a sound wave according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view illustrating a method for measuring the position of an object according to an embodiment of the present invention.

Referring to FIG. 2, a method for measuring a position of an object according to an exemplary embodiment of the present invention includes installing a light source 100 at a certain point or a reference point, and then, using a layout point setting apparatus 200, The layout point setting device 200 and the layout point setting device 200 are accurately positioned at a specific position so that the surveying operation can smoothly proceed.

FIG. 3 is a generalized exploded view of a layout point setting apparatus of a light wave device according to an embodiment of the present invention, as shown in FIG.

3, a layout point setting device 200 of a light wave device that fixes a prism 210 that reflects light emitted from a light source 100 so that the prism 210 is located at an exact layout point desired by the user, includes a prism 210, A laser pointer fixing bracket 230, an XY position adjuster 240, a horizontal position adjuster 250, and a movable holder 260. The laser pointer fixing bracket 230,

The prism 210 is a 360 ° prism provided on a polyhedron to reflect light emitted from the light source 100 and reflects the laser light and transmits the reflected light to the light guide 100.

The laser pointer 220 irradiates a laser point indicating an XY coordinate with respect to a fixed position of a center point of the prism 210 toward a lower surface.

That is, the laser pointer 220 irradiates the upward laser pointer and the downward laser pointer, the upward laser pointer always directs the center of the 360 ° prism, and the downward laser pointer serves to reduce the center point of the 360 ° prism to the ground do.

The laser pointer fixing bracket 230 fixes and fixes the prism 210 on the upper portion thereof and fixes the laser pointer 220.

In addition, the XY position adjuster 240 is coupled to the lower portion of the laser pointer fixing bracket 230 by fixing bolts, and the X-axis coordinate shifter and the Y-axis coordinate shifter of the laser pointer 220 are perpendicular To be mutually movable in directions.

The horizontal position adjuster 250 is coupled to the XY position adjuster 240 and the upper and lower quick brackets by the bolts for fixing the XY position adjuster 240 and the horizontal position of the laser pointer 220 And a horizontal position adjusting ball head which is freely rotatable for adjustment is fastened and fixed by a horizontal position adjusting ball head locking knob.

Finally, the movable holder 260 is for supporting the entire layout point setting device 200 of the light source, and the horizontal position adjuster 250 is coupled to the lower portion by a fixing bolt.

FIG. 4 is a detailed configuration diagram of a laser pointer in a layout point setting apparatus of a light wave device according to an embodiment of the present invention.

 The laser pointer fixing bracket 230 has a U-shape and seats and fixes the laser pointer 220 in its inner space.

 A prism fixing bolt 232 is passed through the hole formed in the upper portion of the laser pointer fixing bracket 230 and is fixed to the nut 231. The protruded screw portion is screwed to the female screw portion formed at the lower portion of the prism 210, (210) is fixed.

The laser pointer fixing bracket 230 is firmly fixed to the inner space of the laser pointer fixing bracket 230 by a pair of tongue bolts 233 on the lower left and right sides while the laser pointer 220 is seated.

A passageway for passing the laser point irradiated from the laser point 220 is formed in the lower portion of the laser pointer fixing bracket 230.

In addition, an upper quick bracket 234 is coupled to the fixing bolt (not shown) on the lower portion of the laser pointer fixing bracket 230 to fasten the laser pointer fixing bracket 230 to the XY position adjuster 240 235).

6 is a plan view of the XY position adjuster, FIG. 7 is a bottom view of the XY position adjuster, and FIG. 8 is a bottom view of the XY position adjuster in the layout position setting device of the present invention. XY position adjuster.

9 is a perspective view of a horizontal position adjuster and a movable holder in an apparatus for setting a layout point of a light wave according to an embodiment of the present invention.

5 to 8, a layout point setting device of a light wave device according to the present invention includes a laser point indicating an XY coordinate of a fixed position of the prism center point by fine adjustment of an XY position adjuster 240, The laser pointer 220 can be accurately positioned to be irradiated.

 The XY position adjuster 240 is coupled to the lower portion of the laser pointer fixing bracket 230 by placing the laser pointer fixing bracket 230 and the upper and lower quick brackets 234 and 241, An X-axis movement scale 244b and a Y-axis movement scale 246b are provided on one side of the upper surface of the coordinate movement adjuster 244 and the Y-axis coordinate movement adjuster 246, respectively, so that the movement distance can be easily grasped.

The upper quick bracket 234 is fixed to the lower portion of the laser point fixing bracket 230 by the fixing bolt 235 in the quick brackets 234 and 241 for fixing the laser pointer composed of upper and lower pairs The lower quick bracket 241 is fixed to the X-axis coordinate adjuster 244 of the XY position adjuster 240 by a fixing bolt 243.

The upper quick bracket 243 coupled with the laser pointer fixing bracket 230 can quickly and easily slide and engage with the groove formed in the upper inner side surface of the lower quick bracket 241 so that the laser pointer 220 So that the pointer fixing bracket 230 can be easily and quickly coupled to the XY position adjuster 240.

The upper quick bracket 243 coupled to the laser pointer fixing bracket 230 with the laser pointer 220 is slidably coupled to a groove formed in the upper inner surface of the lower quick bracket 241, The quick bracket knob 241a is turned and fixed firmly.

The X-axis position adjuster 240 includes a gear portion 244a at one side edge of the lower surface of the X-axis coordinate adjuster 244 and an X-axis fixing block 245 is connected to the Y- And the X axis coordinate shifting regulator 244 is slidable in the longitudinal direction with respect to the X axis fixing block 245 by being fixed by the fixing bolt 248 to the gear portion 244a.

An X-axis moving knob 245a and an X-axis moving locking knob 245b are provided on one side of the X-axis fixing block 245, and the X- 244 or to restrict the movement of the X-axis coordinate shifting regulator 244.

A gear portion 246a is formed at one side edge of the lower surface of the Y-axis coordinate adjuster 246 of the XY position adjuster 240. A Y-axis fixing block 247 is provided on the XY position adjuster fixing upper quick- The Y-axis coordinate adjusting unit 246 can be slidably moved in the longitudinal direction with respect to the Y-axis fixing block 247 by being fixed by the fixing bolt 249a to the Y-axis fixing block 249 and meshing with the side gear unit.

A Y-axis moving knob 247a and a Y-axis moving locking knob 247b are provided on one side of the Y-axis fixing block 247 and a Y-axis coordinate shifting regulator 246 ) Or to limit the movement of the Y-axis coordinate transfer adjuster 246. [

9, the Y-axis coordinate shifter 246 of the XY position adjuster 240 is coupled to the upper portion of the horizontal adjuster 250 by placing upper and lower quick brackets 249 and 252 thereon.

The upper quick bracket 249 for fixing the XY position adjuster is fixed to the lower quick bracket 252 for fixing the XY position adjuster in the quick brackets 249 and 252 for fixing the XY position adjuster, And the lower quick bracket 252 for fixing the lower XY position adjuster is fixed to the extension of the ball head 254 of the level adjuster 250 by the fixing bolt 251. [

The upper quick bracket 249 is fastened to the groove formed on the upper inner surface of the lower quick bracket 252 so as to be slidably engaged with the Y So that the upper fixing bracket 249 fixing the shaft fixing block 247 can be simply and quickly coupled to the lower quick bracket 252 fixed to the upper portion of the horizontal adjuster 250.

The upper quick bracket 249 for fixing the Y-axis fixing block 247 is rotated by rotating the quick bracket knob 253 for fixing the XY position adjuster when the upper quick bracket 249 is slidably coupled to the groove formed in the upper inner surface of the lower quick bracket 252 So that it is firmly fixed.

The X-axis coordinate transferring regulator 244 and the Y-axis coordinate transferring regulator 246 of the laser pointer mutually move in the vertical direction and the X-axis coordinate transferring regulator 244 and the Y- 246c are aligned with the X-axis movement scale 244b and the Y-axis movement scale 246b provided on one side of the upper surface of the upper surface Each movement can be precisely controlled.

On the other hand, the X-axis coordinate transfer adjuster 244 and the Y-axis coordinate transfer adjuster 246 mutually move in the vertical direction so that the laser pointer of the layout pointer irradiated on the laser pointer 220 is positioned at the correct coordinate, An operation procedure for moving the movement adjuster 244 and the Y-axis coordinate movement adjuster 246 will be described with reference to FIG.

8 shows a Y-axis moving knob 247a of the Y-axis fixing block 247 engaged with a gear portion 246a formed at one side edge of the lower surface of the Y-axis coordinate transfer adjuster 246 of the XY position adjuster of the present invention .

A gear screw is formed on the outer circumferential surface of the Y-axis moving knob 247a so as to engage with the thread of the gear portion 246a, and is coupled to the side surface of the Y-axis fixing block 247.

When the Y-axis moving knob 247a is rotated, the Y-axis moving adjuster 246 is moved in the longitudinal direction along the rotating direction of the Y-axis moving knob 247a with respect to the fixed Y-axis fixing block 247 When the Y axis movement lock knob 247b is turned by tightening the Y axis movement locking knob 247b when the movement is completed using the scale, the Y axis coordinate movement adjuster 246 is restricted from moving at that position.

Similarly, when the X-axis moving knob 245a is rotated, the X-axis coordinate shifting regulator 244 is slid back and forth along the longitudinal direction with respect to the fixed X-axis fixing block 245 along the rotational direction of the X-axis moving knob 245a When the X-axis movement lock knob 245b is turned by tightening the X-axis movement lock knob 245b, movement of the X-axis coordinate movement adjuster 244 is restricted.

On the upper part of the lower laser pointer fixing quick bracket 241 coupled to the X-axis position adjuster 244 of the XY position adjuster 240, a horizontal bubble ascertaining tube 241b for leveling or a level gauge 241c.

9, the horizontal position adjuster 250 includes a Y-axis fixing block 247 coupled to the Y-axis coordinate adjuster 246 of the XY position adjuster 240 and a Y- And the quick brackets 249 and 252 are coupled and coupled.

At this time, in order to adjust the horizontal position of the laser pointer, the horizontal position adjusting ball head 254, which is freely rotatable when engaged with the XY position adjuster 240, is adjusted to align the horizontal position, And the horizontal position adjusting ball head 254 is tightly fixed so as not to flow, thereby adjusting the horizontal position.

The horizontal position adjuster 250 includes a fastening hole formed at an inner surface of a lower portion of the horizontal position adjuster 250. The horizontal position adjuster 250 is engaged with a fixing bolt 261 provided from the moving cradle 260 to seat the moving cradle 260 .

The movable holder 260 includes a prism 210, a laser pointer 220, a laser pointer fixing bracket 230, an XY position adjuster 240 and a horizontal position adjuster 250. The layout position setting device 200 In the form of a pawl including three or more radial supports at the bottom so as to be able to sit, support and move.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. .

100: optical fiber 200: layout point setting device
210: prism 220: laser pointer
230: Fixing bracket 234, 241: Quick bracket for fixing the laser pointer
240: XY position adjuster 241a: Quick Bracket knob
244: X-axis coordinate shifting regulator 244a, 246a:
245: X-axis fixing block 245a: X-axis moving knob
245b: X-axis movement lock knob 246: Y-axis coordinate movement regulator
247: Y-axis fixing block 247a: Y-axis moving knob
247b: X-axis movement lock knob 249, 252: Fixing quick bracket
250: Horizontal position adjuster 253: Quick bracket knob
254: Ball head for horizontal position adjustment 255: Ball head lock knob
260: Mobile cradle

Claims (5)

A layout point setting device for a light wave device that adjusts a prism that reflects light emitted from a light source to be located at a desired precise layout point in a surveying operation,
A laser pointer for irradiating a laser point indicating an XY coordinate with respect to a fixed position of the prism center point toward a lower surface of the prism;
A laser pointer fixing bracket for fixing the prism and fixing the laser pointer;
An XY position adjuster coupled to a lower portion of the laser pointer fixing bracket by a fixing bolt and adapted to move the X-axis coordinate movement adjuster and the Y-axis coordinate movement adjuster of the laser pointer mutually in a vertical direction;
The horizontal position adjusting ball head is freely rotatable to adjust the horizontal position of the laser pointer. The horizontal position adjusting ball head is coupled to the XY position adjuster and the upper and lower quick brackets by the fixing bolt. A horizontal position adjuster fastened and fixed by a ball head locking knob; And
And the horizontal position adjuster is coupled to the lower portion by a fixing bolt. The method according to claim 1,
The XY position adjuster is attached to the lower portion of the laser pointer fixing bracket by placing the laser pointer fixing bracket and the upper and lower quick brackets and is capable of grasping the movement distance on one side of the upper surface of the X axis coordinate moving adjuster and the Y axis coordinate moving adjuster And the X-axis movement scale and the Y-axis movement scale are respectively provided in order to set the layout point of the optical fiber. The method according to claim 1,
The X-axis position adjusting device is provided with a gear portion at one side edge of the lower surface of the X-axis position adjusting mechanism. The X-axis fixing block is fixed to the Y-axis coordinate moving adjuster and meshed with the gear portion, The axis coordinate shifting regulator is slidable in the longitudinal direction,
A Y-axis fixed block is fixed to the lower horizontal position adjuster, and the Y-axis fixed moving block is engaged with the side gear to adjust the Y- And wherein the layout point setting device is slidable in the longitudinal direction. The method of claim 3,
Axis movement joystick of the XY position adjuster is provided with an X-axis movement knob for controlling the sliding movement of the quick bracket for the laser pointer and a movement lock knob for fixing the X-axis coordinate movement adjuster,
A Y-axis moving knob for controlling the sliding movement of the Y-axis coordinate moving regulator and a Y-axis moving locking knob for fixing the Y-axis coordinate moving regulator are provided on the side surface of the Y-axis coordinate moving regulator of the XY position adjuster Wherein the layout point setting device comprises: The method according to claim 1,
Wherein the quick bracket for fixing the laser pointer on the lower side coupled to the X-axis movement regulator of the XY position adjuster is provided with a horizontal bubble ascertaining tube or leveling device for confirming the horizontal position.

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