KR100928662B1 - A multipurpose instrument - Google Patents

Abstract

The present invention relates to a multi-purpose measuring instrument, a multi-purpose measuring instrument according to the present invention is a tripod for surveying equipment comprising a plurality of legs for placing on the ground and a support plate and a horizontal adjustment means coupled to the upper end of the leg, and the support plate A pair of supports which are fastened and fixed to the vertical shaft and vertically mounted on the support plate, and are axially coupled by the vertical shaft and the bearing so as to be rotatable about the vertical shaft, and are vertically arranged side by side at intervals at the top. A pair of telescopes comprising a body, an objective lens, a crosshair, an eyepiece, and a telescope barrel, which are coupled to each other, and are supported by the pair of supports and positioned in a horizontal direction in the space between the pair of supports. Both side ends of the telescope are respectively coupled to a hinge axis of the center of the hinge axis. It is installed to enable the hinge movement, and the two points where the hinge axis and the telescope are coupled comprises a telescope, characterized in that located on the horizontal line passing through the center of the objective lens and the right and left ends of the objective lens. It is characterized by.

Description

Multipurpose instrument {MULTIPURPOSE SURVEYING INSTRUMENT}

The present invention relates to an instrument, and more particularly, to an instrument which can be used as a conventional leveler or as a conventional transit, and which can make high and low surveying convenient, fast and accurate.

When the plumbing work needs to set a constant inclined line for embankment construction, tunnel construction, etc., the work was performed using a leveler as follows.

For example, when a survey operation is performed for digging a sewer trench so that the distance between the reference point and the target point is 200 m and the height difference between the reference point and the target point is 10 cm, conventionally, a single path is established from the reference point to the target point. After setting the N midpoints on the path, the leveler and the staff were moved and the level of each midpoint was measured to finally measure the level of the target point.

However, such a surveying method is not only complicated and time-consuming, but also requires a process of cutting by section, which is complicated by surveyors, making it easy for surveyors to make mistakes. There is a problem.

The present invention has been made in order to solve the problems of the prior art, the present invention is a surveying instrument that can be very simple and accurate in the surveying in order to construct a structure that is installed long while having a constant inclination angle The purpose is to provide.

Multipurpose measuring device according to the present invention for achieving the above object is a tripod for surveying equipment comprising a plurality of legs for placing on the ground and a support plate and a horizontal adjustment means coupled to the upper end of the leg, and the support plate A pair of supports which are fastened and fixed to the vertical shaft and vertically mounted on the support plate, and are axially coupled by the vertical shaft and the bearing so as to be rotatable about the vertical shaft, and are vertically arranged side by side at intervals at the top. A pair of telescopes comprising a body, an objective lens, a crosshair, an eyepiece, and a telescope barrel, which are coupled to each other, and are supported by the pair of supports and positioned in a horizontal direction in the space between the pair of supports. Both side ends of the telescope are respectively coupled to a hinge axis of the center of the hinge axis. It is installed to enable the hinge movement, and the two points where the hinge axis and the telescope are coupled comprises a telescope, characterized in that located on the horizontal line passing through the center of the objective lens and the right and left ends of the objective lens. do.

In addition, the lower end of the body has a first divider plate with an angle scale on the outer side is integrally provided with the body, a center portion is penetrated by the vertical axis between the first divider plate and the support plate to the center of the vertical axis It is preferred that the second divider, which is rotatable and has an angular scale marked on its outer side, be fitted.

In addition, the support link is formed by a plurality of link members are connected by an intermediate joint, the first end of one end of the support link is coupled to the body, the second end of the other end of the support link is the telescope And a link member comprising a second end in a state in which the telescope remains horizontal when the second end is coupled to the telescope, and the second end is separated from the telescope. It is preferable to further include a support link that is configured to hinge movement around.

In addition, the inclination angle adjusting means consisting of a length adjusting means for connecting between the two connecting members and the two connecting members, one end of the inclination angle adjusting means is hinged to the body and the other end of the inclination angle adjusting means The telescope and the hinge is coupled, at least one of the both ends of the inclination angle adjusting means is configured to be released from the other part, by the length adjusting means by the two connecting members to be closer or farther from each other The length of the inclination angle adjusting means is changed to further include an inclination angle adjusting means for adjusting the inclination angle of the telescope.

In addition, the length adjusting means is a sleeve having a threaded portion on the inner surface of both ends, the threaded portion is formed on the outer circumferential surface of the end connected to the sleeve of each of the two connecting members are each end of the threaded portion of the two connecting members It is preferable that the screw portions are inserted into both ends of the sleeve and screwed, and the screw portions formed at both ends of the sleeve are formed so that the directions of the threads are opposite to each other.

In addition, the body is formed with a body fixing screw through-hole formed with a screw thread on the inner circumferential surface, the body is rotated by a predetermined depth through the body fixing screw through hole in the vertical axis direction from the outer side of the body in contact with the vertical axis to rotate the body It is preferable that the body fixing screw to further prevent.

The second divider plate may include a second divider fixing screw through hole having a thread formed on an inner circumferential surface thereof, and having a predetermined depth through the second divider fixing screw through hole in the vertical axis direction from the outside of the side surface of the second divider plate. It is preferable that the second divider plate fixing screw is further inserted to be in contact with the vertical axis to prevent rotation of the second divider.

As described above, according to the multipurpose measuring instrument according to the present invention, when installing a structure having a certain slope or making terrain, it is very convenient and quick to work, and it is possible to perform accurate measurement without using expensive electronic survey equipment. In addition, as a multi-purpose measuring instrument that can be used as a conventional level or transit has the advantage of high practicality and utility.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a multi-purpose instrument according to an embodiment of the present invention, Figures 2 and 3 is a side cross-sectional view showing a multi-purpose instrument according to an embodiment of the present invention.

Multi-purpose instrument according to the invention tripod 100, vertical axis 200, body 300, telescope 400, hinge axis 500, the first divider 310, the second divider 600, support The link 700, the inclination angle adjusting means 900, the body fixing screw 330, and the second divider fixing screw 610 are configured to be included.

The telescope 400 is a telescope for surveying equipment having a conventional configuration including a telescope barrel 410, an eyepiece 420, an objective lens 430, and a reticle 440.

Tripod 100 is generally used for surveying equipment, and is used to support a telescope and the like at a certain height and to maintain the leveling of the entire surveying equipment. Tripod 100 is composed of three legs 110, one support plate 120, and a horizontal adjusting means. Support plate 120 is a circular plate through which the vertical axis through hole 121 is drilled in the center, and each of the upper ends of the three legs 110 is coupled to a predetermined space at three places of the edge of the support plate 120. A plurality of horizontal adjustment means are installed on the base plate 120 is installed between the bubble tube 140 and the base plate 120 and the leg 110 to check whether the base plate 120 is horizontal, the leg 110 of the Fine adjustment means 130 to finely adjust the length may be included.

The vertical axis 200 is an axis perpendicular to the support plate 120 through the vertical axis through hole 121 of the support plate 120. Since the vertical shaft through hole 121 is larger than the diameter of the vertical shaft 200, in order to fix the vertical shaft 200 to the fixed base plate 120, fine position adjustment in the horizontal direction is possible. When the vertical shaft 200 is fixed to the support plate 120, the lower end of the vertical shaft 200 coupled with the body 300 is inserted through the vertical axis through hole 121 from the support plate 120, and then the center hole is drilled. The upper surface of the washer 150 overlaps the bottom surface of the support plate 120 so that the washer 150 protrudes below the support plate 120 of the vertical shaft 200 into the hole of the washer 150. Then, the vertical nut 200 is fixed by fastening the lower nut 211 to the bolt 210 integrally formed at the lower end of the vertical axis 200.

In the groove of the bottom bottom portion of the vertical axis 200, the laser beam firing device 230 is installed so that the center of the vertical axis 200 can be accurately aligned when positioned above the reference point.

The body 300 is rotatably coupled to the vertical axis 200 about the vertical axis 200. Therefore, the upper bearing portion 800 and the lower bearing portion 810 are installed at two portions where the body 300 and the vertical shaft 200 contact each other, and the upper bearing portion 800 is located inside the upper end of the vertical shaft 200, and the lower portion The bearing part 810 is located inside the first divider 310 integrally formed with the body 300. The bearing parts 800 and 900 are provided with a plurality of roller bearings extending in the radial direction and installed in the radial direction in the donut-shaped bearing housing inclined upward or downward. One outer surface of this roller bearing is in contact with the vertical axis and the other outer surface of the roller bearing is in contact with the body 300.

The direction in which the bearings of the respective bearing parts are inclined is in a direction to prevent the body 300 from being caught upward by the jaw of the vertical shaft 200 in the case of the bearing of the upper bearing part 800, and the lower bearing part 810. ) Is to be in the direction to prevent the body 300 is caught on the chin of the vertical axis 200 to fall down.

At the lower end of the body 300, a first divider plate 310 having a disc shape is integrally formed with the body 300. Scales indicating an angle are displayed on the outer side surface of the first divider 310. Directly below the first divider 310, a second divider 600 in the form of a disc is formed between the first divider 310 and the support plate 120 so that the vertical axis 200 penetrates in the center thereof. It is installed to fit. Scales indicating an angle are also displayed on the outer side surface of the second divider 600.

A thread is formed on the outer side of the upper end of the vertical shaft 200 protruding upward from the upper bearing portion 800 by penetrating the center hole of the upper bearing portion 800. 200 is firmly fixed.

Meanwhile, a body fixing screw through hole is formed at the side of the body 300, and a body fixing screw 330 is inserted into the body fixing screw through hole. When the end of the body fixing screw 330 is inserted into the body fixing screw through hole and the end of the body fixing screw 330 touches the vertical axis 200 to press the vertical axis 200, the body 300 is fixed so as not to rotate. . When you want to rotate the body 300, just loosen the body fixing screw 330 a little.

In addition, a second divider plate fixing screw through hole is formed in a side surface of the second divider plate 600, and a second divider plate fixing screw 610 is inserted into the second divider plate fixing screw through hole. When the end of the second divider plate fixing screw 610 is pressed against the vertical axis 200 by pressing the second divider plate fixing screw 610 inserted into the second plate fixing screw through hole, the second axis plate fixing screw 610 is pressed. The divider plate 600 is fixed so that it cannot be rotated. When the second divider 600 is to be rotated, the second divider fixing screw 610 may be slightly loosened.

As shown in FIG. 3, a pair of supports 320 protrude upwards on both sides of the upper end of the body 300, and a hinge shaft 500 in a horizontal direction is coupled to each support 320, and a pair of Between the hinge axis 500, the telescope 400 is hinged to the hinge axis 500, wherein the coupling point of the hinge axis 500 and the telescope 400 is as shown in Figure 2 of the objective lens 430 It is located on the horizontal line passing through the center and right and left endpoints.

Therefore, as shown in FIG. 5, even when the telescope 400 is rotated and tilted about the hinge axis 500, the telescope 400 passes through the center point of the objective lens 430, the center point of the objective lens 430, the right end point, and the left end point. The horizontal line does not change its height and position at all.

As shown in FIG. 4, when using the telescope 400 as a conventional leveler, it is necessary to support the telescope 400 to be level. A support link 700 is provided for this purpose. The support link 700 is composed of a horizontal link member 710 and the movable link member 720, the horizontal link member 710 is fixedly coupled to the body 300 is installed in the horizontal direction elongated, the movable link member 720 Is hinged to the horizontal link member 710 and is rotatable within a range of up to 180 °. The movable angle range of the movable link member 720 is limited because when the movable link member 720 is in a vertical position, a lower end portion of the movable link member 720 is formed in the horizontal link member 710. This is because the angle formed by the horizontal link member 710 and the movable link member 720 cannot be smaller than the right angle because it is in contact with a vertical surface inside the 711.

A pin hole 721 is formed at the upper end of the movable link member 720, and a fastener 450a having a pin hole is attached to the lower end of the rear end of the telescope 400 so that the pin hole 721 of the movable link member 720 is attached. And the pin through the pin hole of the fastener 450a of the telescope 400 is coupled to the support link 700 and the telescope 400, thereby keeping the telescope 400 horizontal as shown in FIG. It is supported by the support link 700 and the hinge shaft (500).

As shown in FIG. 5, when it is necessary to use the telescope 400 by tilting it by an angle, such as when using a conventional telescope telescope, the angle of the telescope 400 is precisely adjusted and the adjusted angle is maintained. It is necessary to ensure that for this purpose the inclination angle adjusting means 900 is provided.

The inclination angle adjusting means 900 includes an upper connection member 910, a lower connection member 920, and a sleeve 930. A pin hole 911 is formed at an upper end of the upper connection member 910 to be detachably fastened to a fastener 450b formed integrally with the telescope barrel 410 at the rear of the telescope 400 so that the hinge movement is possible even in the fastened state. Is fastened. Desorption between the upper connecting member 910 and the telescope 400 is made by inserting or pulling pins as in the case of the support link 700. The lower end of the lower connection member 920 is hinged to the side of the body 300. Male threads are formed at the lower end of the upper connection member 910 and the upper end of the lower connection member 920. The sleeve 930 serves as a length adjusting means, and the sleeve 930 is a cylindrical part having a predetermined length of female threads at both ends.

One female screw portion of the sleeve 930 is screwed with the male screw portion of the upper connecting member 910, and the other female screw portion is screwed with the male screw portion of the lower connecting member 920. Here, the male screw portion of the upper connecting member 910 is a right screw, the male screw portion of the lower connecting member is composed of a left screw.

One female screw portion of the sleeve 930 corresponding to the male screw portion of the upper connecting member 910 is screwed, and is made of a right screw in the direction of the male screw portion of the upper connecting member 910. The other female screw portion of the sleeve 930 corresponding to the male screw portion of and coupled to the male screw portion is formed of a left screw like the male screw portion of the lower connection member 920.

That is, the male threaded portion of the upper connecting member 910 and the male threaded portion of the lower connecting member 920 are screwed in opposite directions (right-left screw), and the corresponding female threaded portion of the sleeve 930 also corresponds to the upper portion. Screws in opposite directions (right-left screws) are formed on both sides of the connecting member 910 and the lower connecting member 920 so as to be smoothly rotatable.

As described above, when the sleeve 930 is rotated, the male screw portion of the upper connecting member 910 and the male screw portion of the lower connecting member 920 approach each other, and if the rotation is reversed, they move away from each other.

Since the operation principle of the length adjusting means is basically made in the same manner as the principle of the already known turnbuckle, one side of the sleeve 930 is made of a right screw, the other side is made of a left screw, even if both configurations are reversed sleeve 930 It will be apparent that the operation principle of the length adjusting means of the present invention for adjusting the length of the inclination angle adjusting means 900 by forward (reverse) rotation of the same).

As the instrument according to the present invention can be used as a level and a transit, when the instrument according to the present invention is used as a level, the telescope 400 is fixed to be horizontal so that the tilt angle adjusting means 900 is shown in FIG. Separate the top of the telescope 400 and the upper end of the support link 700 is combined with the telescope 400.

On the other hand, when using the instrument according to the present invention as a transit it is necessary to adjust the angle of the telescope 400, as shown in Figure 5 by separating the telescope 400 and the upper end of the support link 700, the support link 700 Next, the movable link member 720 of the) moves under the horizontal link member 710, and then the tilting angle of the telescope 400 is adjusted by rotating the length adjusting means sleeve 930 in the forward or reverse direction.

Referring to the method of digging a trench with a constant slope over a long distance using the multi-purpose instrument as described above.

Here, an example of a digging trench with a height change of 10 cm with respect to the ground surface is described as an example.

First, set the reference point at the center point of 400m section, that is, 200m away from each end point of 400m section, and draw a circle using a compass on the bottom surface around this reference point, and then use the leg of the tripod 100. Position the bottom of the 110 to lie on the circumference. Then, the lower end of the vertical axis 200 of the instrument passes through the center hole of the tripod 100, and then insert the washer 150 and tighten the lower nut 211 to fix the vertical axis 200 to the tripod 100. At this time, the laser beam emitted from the laser beam firing apparatus 230 of the instrument should be fixed to the tripod 100 in a state where the position of the vertical axis 200 is properly adjusted so as to exactly match the reference point. Then, while watching the plurality of bubble tubes 140 installed on the support plate 120 of the tripod 100 using the fine control means 130 is installed at the connection between the leg 110 and the support plate 120 of the tripod 100 By adjusting the base plate 120 of the tripod 100 to maintain the horizontal. On the other hand, the telescope 400 is facing the longitudinal direction of the arm trench, but the direction of the height of the slope of the trench to rise.

Using the tripod for the instrument 100 to support the telescope 400 and to maintain the level is a general content in the surveying equipment, so a detailed description thereof will be omitted.

After the instrument has been installed, a long rod-shaped staff is placed perpendicular to the floor surface in front of the instrument's telescope 400. In this state, while keeping the telescope 400 horizontal, the reading of the staff coinciding with the horizontal line of the crosshair 440 of the telescope 400 is recorded and the reading value of the staff is recorded.

Next, the staff erects a ditch 200m from the reference point on the ground at one end of the 400m section, and the staff's scale is 10cm higher than the staff's reading value read in front of the telescope 400, and the crosshair 440 of the telescope 400 The telescope 400 is inclined using the inclination angle adjusting means 900 so as to coincide with the horizontal line.

For example, if the height of the horizontal line of the crosshair 440 of the telescope 400 is 1m from the ground, the horizontal line of the crosshair of the telescope 400 is aligned to the point where the staff's scale which is set 200m away from the reference point indicates 1m 10cm. In the case of the instrument according to the present invention, the height of the telescope 400 that was initially measured because the hinge axis 500 of the telescope 400 coincides with the line crossing the objective lens 430 in the horizontal direction even though the telescope 400 is tilted. The value of 1m does not change according to the tilt of the telescope 400.

As described above, the telescope 400 is inclined at the same angle as the inclination angle of the trench to be dug, and then the digging starts from the surface immediately in front of the telescope 400. First, the ground just before the reference point is dug up to the depth of the ditch, which, according to design, should be at the center point of the entire section. Then, the staff is erected on the bottom surface of the ditch just before the reference point, and then the point of the staff indicated by the horizontal line of the crosshair 440 of the telescope 400 is indicated. If this point is called the mark of the staff, the horizontal line of the crosshair 440 of the telescope 400 exactly points to this mark when the staff marked by the mark is placed on the bottom surface of the ditch even at a position moved forward from the reference point. Should be increased.

Therefore, each time the trench is squeezed forward by a certain distance from the reference point, it is possible to check whether the trench maintains the proper inclination by checking the telescope 400 with the proper depth of the trench. If the horizontal line of the crosshair 440 of the telescope 400 is higher than the indicator line of the staff, the trench is dug deeper than the depth to be dug, so the soil is dug up again, and the horizontal line of the crosshair 440 of the telescope 400 is staffed. If it is below the marking line, the trench is dug shallower than the depth to be dug, so digging a little more to adjust the depth of the trench.

The more dense the work of erecting staff to match the marking lines with the telescope 400, the more uniform the slope of the ditch will be, but the work efficiency should be determined in consideration of work efficiency. Every time you sell a 2m ditch, you will be able to work with the telescope 400 to move the staff.

If the ditch was formed to a point 200 m forward from the reference point by repeating this operation, the trench of the rear section of the reference point must be dug next, so that the direction of the telescope 400 is maintained while maintaining the inclination of the telescope 400. Should be rotated by 180 °.

After releasing the body fixing screw 330 to release the body 300 of the telescope 400 fixed to the vertical axis 200, and then rotating the body 300 by 180 ° and rotating the body fixing screw 330. Tighten again so that the body 300 is not rotated.

In this case, in order to rotate the 180 ° accurately, the first divider 310 and the second divider 600 need help. In the conventional conventional leveler, there was only one corresponding to the first divider plate 310 of the present invention. In the process of installing the instrument, the rotation angle of the telescope 400 does not coincide with the point indicated to confirm the reference of the rotation angle. It cannot but be finely twisted. Thus, a conventional leveler is not able to rotate exactly 180 °. However, in the present invention, since the second divider 600 can also be rotated by loosening the second divider fixing screw 610, the second divider 600 is rotated by hand before the first divider 310 is rotated. The reference scale of the first divider plate 310 and the reference scale of the second divider 600 can be exactly matched, and in this state, the second divider 600 is tightened by tightening the second divider fixing screw 610. After fixing, rotate the body to rotate the body 300 by exactly 180 ° by matching the reference scale of the first divider 310 with a scale that is 180 degrees from the first reference scale of the second divider 600. There is a number. In this state, the body 300 may be fixed and start digging along the rear of the reference point in the same manner as the operation in which the trench is cut along the front of the reference point. Advance along the rear of the reference point when selling the ditch is the direction of the bottom slope of the ditch gradually goes down because the front portion of the telescope 400 is also inclined downward.

Surveyor according to the present invention can be used in a variety of operations, such as tunnel construction or road pavement construction in addition to the digging work by applying the above method, of course, both the work with the conventional leveler and the work with the transformer You can do

As described above, the present invention has been described only with respect to specific examples, but it will be apparent to those skilled in the art that various changes and modifications can be made within the technical spirit of the present invention based on the above specific examples. And modifications belong to the appended claims.

1 is a perspective view showing a multipurpose measuring instrument according to the present invention.

2 and 3 are side cross-sectional views showing the multipurpose measuring instrument according to the present invention.

Figure 4 is a side view showing a state in which the telescope of the multipurpose measuring instrument according to the present invention keeps horizontal.

Figure 5 is a side view showing a state to tilt the telescope of the multipurpose instrument according to the present invention.

※ Explanation of symbols for main parts of drawing

100: tripod 200: vertical axis

300: body 310: first minute plate

320: support 400: telescope

430: objective lens 500: hinge axis

600: second minute plate 700: support link

900: inclination angle adjusting means

Claims (7)

delete delete A tripod for surveying equipment comprising a plurality of legs for placing on the ground and a support plate and a horizontal adjusting means coupled to the upper end of the leg, a vertical axis fastened and fixed to the support plate and standing vertically on the support plate; It includes a body, an objective lens, a reticle, an eyepiece, and a telescope barrel, which are axially coupled by a vertical axis and are installed to be rotatable about the vertical axis, and have a pair of supports vertically arranged side by side at a top. The telescope is configured to be supported by the pair of supports, and both sides of the telescope are coupled to a pair of hinge axes positioned in a horizontal direction in a horizontal direction in the space between the pair of supports, respectively, to center the hinge axis. Installed to enable the hinge movement and the hinge axis and the telescope Both points are located on the horizontal line passing through the center of the objective lens and the right end and the left end of the objective lens, and the support link is a support link formed by a plurality of link members connected by intermediate joints. One end of the first end is coupled to the body, and the other end of the support link is detachably coupled to the telescope, and the telescope is horizontal when the second end is coupled to the telescope. And a support link configured to allow the link member including the second end to hinge about the joint while the second end is separated from the telescope. A tripod for surveying equipment comprising a plurality of legs for placing on the ground and a support plate and a horizontal adjusting means coupled to the upper end of the leg, a vertical axis fastened and fixed to the support plate and standing vertically on the support plate; It includes a body, an objective lens, a reticle, an eyepiece, and a telescope barrel, which are axially coupled by a vertical axis and are installed to be rotatable about the vertical axis, and have a pair of supports vertically arranged side by side at a top. The telescope is configured to be supported by the pair of supports, and both sides of the telescope are coupled to a pair of hinge axes positioned in a horizontal direction in a horizontal direction in the space between the pair of supports, respectively, to center the hinge axis. Installed to enable the hinge movement and the hinge axis and the telescope Both points are composed of a telescope and a length adjusting means for connecting the two connecting members and the two connecting members, characterized in that located on the horizontal line passing through the center of the objective lens and the right and left ends of the objective lens. As the inclination angle adjusting means, one end of the inclination angle adjusting means is hinged to the body, the other end of the inclination angle adjusting means is hinged to the telescope, and at least one of both ends of the inclination angle adjusting means is coupled to the other part. It is configured to be released and the length of the inclination angle adjusting means is changed by bringing the two connecting members closer to or farther from each other by the length adjusting means includes an inclination angle adjusting means for adjusting the inclination angle of the telescope Multipurpose instrument. The method of claim 4, wherein The length adjusting means is a sleeve having a threaded portion on both inner surfaces thereof, and a threaded portion is formed on an outer circumferential surface of the end connected to the sleeve of each of the two connecting members, so that each of the distal ends having the threaded portions of the two connecting members is the sleeve. Is inserted into both ends of the screw is coupled, the thread formed on both ends of the sleeve is characterized in that the direction of the threads are formed to be opposite to each other. delete delete

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