KR102501035B1 - Road-embedded control point survey apparatus - Google Patents

Abstract

The present invention relates to a road-embedded dual-structure numeric measuring control point survey apparatus for a digital elevation model. The road-embedded dual-structure numeric measuring control point survey apparatus for a digital elevation model has a dual structure protected by being accommodated on the inner side of a cap and a housing in which a measuring control point performs a function of an outer housing during a repaving work or a repairing work for a road even when the measuring control point is installed on the road. Accordingly, the road-embedded dual-structure numeric measuring control point survey apparatus for a digital elevation model can prevent damage to the measuring control point and stably maintain and perform the function. The road-embedded dual-structure numerical measuring control point survey apparatus for a digital elevation model enables the cap of the housing to be used for an easy process of visually checking the measuring control point after converting the cap of the housing into an open state to the housing when the measuring control point is used. According to the present invention, the road-embedded dual-structure numeric measuring control point survey apparatus for a digital elevation model comprises the control point accommodating housing, the cap, the measuring control point, a power supply unit, an illumination unit (500), a solenoid actuator, a magnifying glass, a user control switch, a first short-distance wireless communication module, and a second short-distance wireless communication module.

Description

Numerical survey reference point device for road-embedded dual structure digital map {Road-embedded control point survey apparatus}

According to the present invention, even if the measurement reference point is installed on the road in the field of numerical map technology, the measurement reference point is accommodated inside the housing and cap that function as an enclosure and is protected during the repavement or renovation work of the road. The datum point is prevented from being damaged, and its function can be stably maintained and demonstrated for a long time. It relates to a digital measurement reference point device for a road-embedded dual structure digital map.

A survey control point or reference point (hereinafter referred to as a “survey control point”) refers to a point marked with a location, elevation, etc., and generally includes triangular points, control points, multi-points, etc. in a narrow sense, and gravity points and magnetic points in a broad sense. In Korea, the National Geographic Information Institute plays a role in installing these survey control points.

If the surveying reference point is further explained based on the triangular point and the standard point, the surveying reference point is divided into a triangular point in which the coordinates of longitude and latitude are observed and recorded, and a reference point in which the height is observed and recorded in advance. A triangular point becomes a standard for observing a position on a plane. These triangular points are usually installed on the top of a mountain with a good view in all directions, and level points are mainly installed on the roadside.

However, if such a datum point is installed on a paved road or sidewalk (hereinafter collectively referred to as 'road'), the datum point may be damaged during the repavement or repair work of the road, resulting in the inconvenience of reinstalling the datum point. and costs may be involved.

Therefore, there is a need for a measurement datum technology that can stably perform its function for a long time while being installed on the road while being safely protected during the repavement or renovation work of the road.

Korean Patent Registration No. 10-1001854 (Announced on December 17, 2010), “Emergency U-turn device for road median with measurement reference point” Korean Patent Publication No. 10-2012-0041007 (published on April 30, 2012), “Underground Facility Indicator and Measurement Control Point Protection Device”

According to the embodiment of the present invention, even if the measurement reference point is installed on the road, the measurement reference point has a dual structure that is accommodated and protected inside the housing and cap that function as an enclosure during the repavement or renovation work of the road, so that the measurement reference point The function can be stably maintained and demonstrated for a long time while preventing damage, and when using the measurement reference point, the cap of the housing is switched to the open state for the housing, and then the measurement reference point can be visually checked. Provided is a digital measurement reference point device for a dual structure digital map.

The digital survey reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention is a hollow structure in which an upper portion is opened and a rim portion is formed in a stepwise manner along an open circumference, and is installed embedded in a road The reference point accommodating housing and the lower circumference of the lower end are mounted on the lower end of the rim (hereinafter referred to as “stepped portion”), and an outward flange portion mounted along the upper surface of the rim chin is formed along the circumference of the upper surface to accommodate the reference point. A cap mounted on the upper portion of the reference point storage housing while blocking the inside of the housing from the outside, the upper surface of which is at the same height as the ground of the road, and a cap stored and installed in the reference point storage housing, the lower portion of which is the inner bottom of the reference point storage housing It includes a support structure fixed to the surface and a reference point mark formed in the center of the upper surface of the support structure, so that the distance between the upper surface of the support structure and the lower surface of the cap is 30 to 40% of the total height of the reference point housing housing. A power supply unit including a measurement reference point, a solar panel installed on the upper surface of the cap, and a secondary battery for charging electrical energy produced by the solar panel, and power is supplied from the secondary battery of the power supply unit, and the reference point mark It may include a lighting unit installed inside the reference point accommodation housing to illuminate the unit.

In addition, the cap is formed with a reference point confirmation hole penetrating in the vertical direction in the central portion, and the reference point confirmation hole is formed in a step shape so that the central cap holding the circumference when the reference point confirmation hole is formed on the horizontal step surface of the reference point confirmation hole is the reference point confirmation hole. It is detachably coupled to open and close the hole, and the lighting unit includes a contact sensor installed on a horizontal stepped surface of the reference point verification hole to detect contact of the central cap with respect to the horizontal stepped surface, and an inner side of the reference point housing housing. It is installed in the light control module for outputting a control signal when the transmission of the touch detection signal from the touch sensor is stopped, and installed to illuminate the reference point mark of the measurement reference point inside the reference point housing housing to illuminate the lighting control module. It may include a lighting module that is turned on according to a control signal.

In addition, at least the reference point accommodation housing among the reference point accommodation housing and the cap may be formed of a stainless material.

In addition, the digital survey reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention is installed on the inner side of the reference point housing housing so as to be located on the upper side from the support structure of the survey reference point, and the operating rod is in the horizontal direction A solenoid actuator installed to operate as, coupled to the front end of the actuating rod of the solenoid actuator, and as the actuating rod moves forward in the inner direction of the reference point housing housing, an arrangement state overlapping the reference point mark of the measurement reference point in the vertical direction A magnifying glass moved to and installed in the cap, a user operation switch for inputting an operating signal to the solenoid actuator so that the magnifying glass and the reference point marker of the surveying reference point are overlapped in the vertical direction, and installed in the cap, A first short-distance wireless communication module for wirelessly transmitting an operating signal of the user-operated switch for the solenoid actuator to a receiving target, and installed in the reference point housing, an operating signal of the user-operated switch from the first short-distance wireless communication module It may further include a second short-distance wireless communication module for receiving and inputting to the solenoid actuator.

According to an embodiment of the present invention, even if the measurement reference point is installed on the road, the measurement reference point has a dual structure that is accommodated and protected inside the housing and cap functioning as an enclosure during the repavement or renovation work of the road, so that the measurement Its function can be stably maintained and demonstrated for a long period of time while preventing damage to the datum point, and when using the datum point, it can be used as an easy process to visually check the datum point after switching the cap of the housing to the open state for the housing. do.

1 is a side cross-sectional view illustrating a digital measurement reference point device for a road-embedded double structure digital map according to an embodiment of the present invention.
2 is a view illustrating a plan view of a reference point storage housing and a bottom view of a cap in a numerical measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention.
3 is a block diagram illustrating an electrical configuration of a numerical measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention.
4 is a side cross-sectional view illustrating an operating state of a magnifying glass in a numerical measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention.

The detailed description of the present invention below refers to the accompanying drawings shown as examples of embodiments in which the present invention can be practiced. These embodiments are described in detail so that those skilled in the art will be able to practice the present invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in one embodiment in another embodiment without departing from the spirit and scope of the invention. Additionally, it should be understood that the location or arrangement of individual components within each described embodiment may be changed without departing from the spirit and scope of the invention.

Accordingly, the detailed description set forth below is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all equivalents as claimed by those claims. Like reference numbers in the drawings indicate the same or similar function throughout the various aspects.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible while considering the functions in the present invention, but these may vary depending on the intention of a person skilled in the art or precedent, the emergence of new technologies, and the like. In addition, in a specific case, there is also a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, not simply the name of the term.

In the invention, when a certain part “includes” a certain component in the whole, this means that it may further include other components, rather than excluding other components, unless otherwise stated. In addition, as described in the specification, "... wealth", "… A term such as “module” refers to a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

Referring to FIGS. 1 to 4, a digital measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention will be described.

1 is a cross-sectional side view illustrating a digital measurement reference point device for a road-embedded double structure digital map according to an embodiment of the present invention, and FIG. 2 is a numerical measurement reference point for a road-embedded dual structure digital map according to an embodiment of the present invention. 3 is a block diagram illustrating the electrical configuration of a digital measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention. 4 is a side cross-sectional view illustrating an operating state of a magnifying glass in a numerical measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention.

As shown, the digital measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention includes a reference point storage housing 100, a cap 200, a measurement reference point 300, a power supply unit 400, and a lighting unit. It is configured to include 500. In addition, the numerical measurement reference point device for a road-embedded dual structure digital map according to an embodiment of the present invention includes a solenoid actuator 600, a magnifying glass 700, a user operation switch 800, a first short-distance wireless communication module 910, and A second short-distance wireless communication module 920 may be further included.

The reference point housing housing 100 has a hollow structure in which an upper portion is opened and at the same time the rim jaw portion 110 is formed in a stepped shape along the open circumference. Also, the reference point housing 100 is buried and installed in the road 10 . Also, the reference point storage housing 100 may be formed of a stainless material to prevent corrosion.

The circumference of the lower surface of the cap 200 is mounted on the lower end (111, hereinafter referred to as "stepped portion") of the rim chin portion 110 of the reference point housing housing 100 and is mounted along the upper surface of the rim chin portion 110. An outward flange portion 210 is formed along the circumference of the upper surface. In addition, the cap 200 is mounted on the top of the reference point storage housing 100 while blocking the inside of the reference point storage housing 100 from the outside, and has a shape in which the upper surface is at the same height as the ground of the road 10. In addition, the cap 200 may be formed of a stainless material to prevent corrosion.

The measurement reference point 300 is accommodated and installed in the reference point accommodating housing 100, and the measurement reference point 300 includes a support structure 310 and a reference point marker 320.

The lower portion of the support structure 310 is fixed to the inner bottom surface of the reference point accommodation housing 100 .

The reference point marker 320 is formed at the center of the upper surface of the support structure 310 , and the reference point marker 320 includes the crosshairs 321 .

In addition, the measurement reference point 300 has a shape in which the distance between the upper surface of the support structure 310 and the lower surface of the cap 200 is 30 to 40% of the total height of the reference point housing housing 100.

The power supply unit 400 includes a solar panel 410 installed on the upper surface of the cap 200 and a secondary battery 420 that charges electrical energy produced by the solar panel 410 .

The lighting unit 500 is supplied with power from the secondary battery 420 of the power supply unit 400, and the lighting unit 500 is installed inside the reference point housing housing 100 to illuminate the reference point marker 320. am.

And the cap 200 is formed with a reference point confirmation hole 220 penetrating in the vertical direction in the central portion, such a reference point confirmation hole 220 is formed in a form having a step, so that the horizontal step surface 221 of the reference point confirmation hole 220 ), the central cap 230 holding the circumference may be detachably coupled to open and close the reference point confirmation hole 220. Here, the detachable coupling configuration for the horizontal stepped surface of the center cap 230 can be implemented in various forms through known technologies, and detailed description and illustration thereof will be omitted in this embodiment. As an example, detachable coupling to the horizontal stepped surface 221 of the central cap 230 may be achieved through an interference fitting method between the coupling protrusion and the coupling groove.

In addition, the lighting unit 500 may include a touch sensor 510 , a lighting control module 520 and a lighting module 530 .

The contact detection sensor 510 is installed on the horizontal stepped surface 221 formed in the reference point verification hole 220 of the cap 200 to detect the contact of the central cap 230 with the horizontal stepped surface 221. carry out

The lighting control module 520 is installed inside the reference point housing 100, and when the transmission of the touch detection signal from the touch detection sensor 510 is stopped, the lighting control module 520 transmits a control signal to the lighting module described later ( 530) performs the function of outputting.

The lighting module 530 is installed to illuminate the reference point marker 320 of the measurement reference point 300 on the inside of the reference point housing housing 100, and this lighting module 530 is the control signal of the lighting control module 520 lights up according to

The solenoid actuator 600 is installed on the inner side of the reference point accommodation housing 100 so as to be positioned upward from the support structure 310 of the measurement reference point 300, and at the same time the operating rod 610 is installed to operate in the horizontal direction.

The magnifying glass 700 is coupled to the front end of the operating rod 610 of the solenoid actuator 600, and the magnifying mirror 700 moves the operating rod 610 of the solenoid actuator 600 forward toward the inside of the reference point housing 100. As it moves, it is moved in an arrangement state overlapping the reference point marker 320 of the surveying point 300 in the vertical direction.

The user-operated switch 800 is installed on the cap 200, and the user-operated switch 800 is a solenoid actuator so that the magnifying glass 700 and the reference point marker 320 of the measurement reference point 300 overlap in the vertical direction. It is used to input an operation signal to 600.

The first short-range wireless communication module 910 is installed in the cab 200, and the first short-range wireless communication module 910 receives the operation signal of the user operation switch 800 for the solenoid actuator 600, again In other words, it performs a function of wireless transmission to the second short-distance wireless communication module 910 to be described later.

The second short-range wireless communication module 920 is installed in the reference point housing 100, and receives an operation signal of the user-operated switch 800 from the first short-range wireless communication module 910 and inputs it to the solenoid actuator 600. perform a function

According to the configuration described above, even if the measurement reference point is installed on the road, the measurement reference point is accommodated and protected inside the reference point housing housing and cap that function as an enclosure during the repavement or renovation work of the road, and at this time, the upper end of the measurement point is By maintaining a predetermined distance apart, the function of the measurement reference point can be stably maintained and exhibited for a long period of time while the protective action inside the reference point housing housing and cap is better exhibited.

In addition, when using such a datum point, it can be used as an easy process of confirming the datum point in the datum point accommodation housing after switching the cap or center cap to an open state with respect to the datum point accommodation housing. In addition, with the help of a lighting unit that automatically illuminates the inside of the reference point housing housing and the reference point marker of the measurement reference point, the corresponding reference point marker can be more easily identified.

In addition, when the lighting function is not smoothly provided due to a failure of the lighting unit providing the lighting function in the reference point housing housing or the reference point marker of the measurement reference point is not visually confirmed due to other circumstances, the user operates the user operation switch Through a switching operation for the control point, a magnifying glass can be placed on the upper part of the reference point marker of the survey control point to enlarge and confirm the reference point marker.

As described above, in the present description, specific details such as specific components and limited embodiments and drawings have been described, but this is only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. No, and those skilled in the art can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments and should not be defined, and all things that have modifications equivalent or equivalent to these claims as well as the claims described below will fall within the scope of the spirit of the present invention.

10: road 100: reference point storage housing
110: rim jaw portion 111: stepped portion
200: cap 210: outward flange portion
220: reference point confirmation hole 221: horizontal step surface
230: central cap 300: measurement reference point
310: support structure 320: reference point marker
321: crosshair 400: power supply unit
410: solar panel 420: secondary battery
500: lighting unit 510: contact detection sensor
520: lighting control module 530: lighting module
600: solenoid actuator 610: operating rod
700: magnifying glass 800: user operation switch
910: first short-range wireless communication module 920: second short-range wireless communication module

Claims (2)

delete A hollow structure in which the upper portion is opened and the rim chin portion 110 is formed in a stepped shape along the open circumference, and the reference point housing housing 100 is buried in the road 10; The circumference of the lower surface is mounted on the lower end (111, hereinafter referred to as “step difference”) of the rim chin portion 110, and the outward flange portion 210 mounted along the upper surface of the rim chin portion 110 is the circumference of the upper surface. It is formed along the reference point accommodation housing 100 while blocking the inside of the reference point accommodation housing 100 from the outside and mounted on the upper portion of the reference point accommodation housing 100, the top surface of the road 10 and the same height as the ground Cap 200; A support structure 310 accommodated and installed in the reference point accommodation housing 100, the lower portion of which is fixed to the inner bottom surface of the reference point accommodation housing 100, and a reference point mark formed in the central portion of the upper surface of the support structure 310 ( 320), wherein the distance between the upper surface of the support structure 310 and the lower surface of the cap 200 is 30 to 40% of the total height of the reference point housing housing 100. A measurement reference point 300; A power supply unit 400 including a solar panel 410 installed on an upper surface of the cap 200 and a secondary battery 420 charging electrical energy produced by the solar panel 410; Power is supplied from the secondary battery 420 of the power supply unit 400, and a road-embedded type including a lighting unit 500 installed inside the reference point accommodating housing 100 to illuminate the reference point marker 320 In the numerical measurement reference point device for the double structure digital map,
The cap 200 is formed with a reference point confirmation hole 220 penetrating in the vertical direction in the central portion, the reference point confirmation hole 220 is formed in a step shape, so that the horizontal step surface of the reference point confirmation hole 220 ( 221), the central cap 230 holding the circumference is detachably coupled to open and close the reference point confirmation hole 220,
The lighting unit 500 is installed on the horizontal stepped surface 221 of the reference point confirmation hole 220 and detects the contact of the central cap 230 with the horizontal stepped surface 221 and a contact detection sensor 510 , the lighting control module 520 installed inside the reference point storage housing 100 and outputting a control signal when the transmission of the touch detection signal from the touch detection sensor 510 is stopped, and the reference point storage housing 100 It includes a lighting module 530 installed to illuminate the reference point marker 320 of the measurement reference point 300 on the inside and turned on according to the control signal of the lighting control module 520,
At least the reference point storage housing 100 of the reference point storage housing 100 and the cap 200 is formed of a stainless material,
A solenoid actuator 600 installed on the inner side of the reference point accommodation housing 100 so as to be located upward from the support structure 310 of the measurement reference point 300 and at the same time installed so that the operating rod 610 operates in a horizontal direction ;
It is coupled to the front end of the operation rod 610 of the solenoid actuator 600, and as the operation rod 610 moves forward in the inner direction of the reference point accommodation housing 100, the reference point mark of the measurement reference point 300 ( 320) and a magnifying glass 700 moved in a vertically overlapping arrangement state;
Installed on the cap 200, a user for inputting an operating signal to the solenoid actuator 600 so that the magnifying glass 700 and the reference point marker 320 of the measurement reference point 300 are overlapped in the vertical direction operation switch 800;
a first short-distance wireless communication module 910 installed on the cab 200 and wirelessly transmitting an operation signal of the user-operated switch 800 for the solenoid actuator 600 to a receiving target;
A second short-range wireless communication module installed in the reference point housing housing 100 and receiving an operation signal of the user operation switch 800 from the first short-range wireless communication module 910 and inputting it to the solenoid actuator 600 Numerical measurement reference point device for road-embedded double structure digital map, characterized in that it further comprises (920).

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