KR20110005744U - Facility survey reference point - Google Patents

Abstract

The present invention solves the problem that the survey control point is distributed and managed by attaching an electronic tag (RFID: Radio Frequency IDentification) to the survey control point and uses it for surveying and calculation. It relates to facility management signs and the following facility survey control points that can be identified and maximize the effect of low installation cost and convenient management.

Facility measurement reference point according to the present invention is a surveying reference point marker, a prism installed on one side of the measurement reference point marker to enable accurate position recording, an integrated circuit chip attached to the prism to record information about the measurement reference point (IC It includes the facility information and the measurement information storage means built-in CHIP).

Survey Reference Points, Electronic Tags, Prisms

Description

Facility baseline measurements

The present invention relates to facility management and surveying reference point, and more specifically, by attaching an RFID to an prism, it is effective for surveying reference point management and utilizes an electronic tag and a prism that do not require a separate prism target during surveying. It is about a facility survey control point.

In general, in performing survey work such as cadastral survey or civil survey, in order to obtain accurate survey results, a reference point that is the basis of the work is required. They are buried and surveyed using them. As the reference point markers, various forms have been conventionally used, and in the past, the surface of the stone pillars having the form of stone pillars was buried in the ground, but recently, the markers made of synthetic resins are mainly used.

In addition, in the survey cover management using the conventional survey reference point marker as described above, a survey instrument such as a total station (wave deodorite) is used with respect to the survey reference point such as the approach point installed on the ground. After the calculation, it was written by hand on an existing general paper drawing or an outline drawing of the measuring point by a sketching method, and the guidance on the location point was marked by hand in order to manage the measuring point. The data was managed through a separate general ledger.

However, in the case of the conventional survey cover management method as described above, in order to confirm the location of the cover point prior to a full-scale surveying operation, the location of the cover point is visually determined by referring to the features, names, and other situations of the surrounding area. After the rough tracking was performed, the check was performed by a separate ledger. In this case, the error occurred due to the operator's mistake because the work of searching and confirming the mark point was mainly performed by manpower. There was a problem in terms of reliability because there was a possibility to occur, and the process was cumbersome, and the work efficiency was also very deteriorated due to the time required for checking the cover point.

In recent years, digital surveying devices such as GPS and total stations are widely used in the surveying field, and the utilization of GIS (Geographic Information System) as a computer-based tool in collecting, analyzing, and processing geographic information. Is on the rise. However, in the case of the conventional survey cover management method as described above basically follows a handwritten management method by a paper account, it can not be used in real time in connection with such a digital GPS or GIS and other surveying equipment, There was a limit to the difficulty of constructing an automated, comprehensive survey management system in conjunction with such equipment and tools.

In addition, in actual surveying operation, reference coordinates should be input to surveying equipment. In this input operation, the operator has to manually input the coordinate values recorded in the cover point management account, which is not only cumbersome but also less reliable. In addition, it was pointed out that the updating and supplementation of data was quite inconvenient and limited in the processing and management of survey results.

On the other hand, surveying prisms have been used to solve the hassle that the operator must input by hand to know the exact coordinate value as described above.

However, in order to use the prism, a prism target must be separately installed, and there is a problem that it is not easy to check the scale of the position where the reflector of the prism is installed. In addition, if the installation state of the pole is unstable, there is a problem that is provided as an incorrect result in the recording equipment.

Therefore, there is a need for a technology that enables the operator to know the exact location and information of various facilities, etc. remotely without having to check each one directly.

An object of the present invention is to provide a facility measurement reference point that is easy to measure and calculate by solving the problem that the measurement reference point is distributed and managed by attaching a radio frequency identification (RFID) to the measurement reference point.

Another object of the present invention is to provide a surveying reference point for attaching a prism to the surveying reference point to make an accurate survey and accurately check the scale.

Another object of the present invention is to provide a facility measurement reference point that can maximize the effect of low installation cost and convenient management.

An object of the present invention described above is a surveying reference point marker, a prism installed on one side of the measurement reference point marker to enable accurate position recording, an integrated circuit chip attached to the prism for recording information about the measurement reference point (IC This is achieved by providing a facility survey reference point comprising a survey information storage means incorporating CHIP).

According to a preferred feature of the present invention, it is achieved by providing a facility measurement reference point that can be attached to the guide plate to display the guidance of the facility on one side of the measurement reference point cover.

According to a preferred feature of the present invention, the survey information storage means is achieved by providing a facility survey reference point using an electronic tag (RFID) chip.

According to a preferred feature of the present invention, the guide plate is achieved by providing a facility measurement reference point formed of at least one or more of metal, stone, wood, plastic, concrete.

According to a preferred feature of the present invention, the measurement reference point marker is achieved by providing a facility measurement reference point that can be shaped and sized to fit the surrounding environment.

By using the facility survey reference point according to the present invention, it is possible to efficiently manage the survey reference point using RFID, and to reduce the cost and waste of administrative personnel.

In addition, by using a prism there is no pole grab at the time of the survey, it is not necessary to prepare a separate prism target can be used conveniently.

In addition, it is possible to fully implement the function while preserving the facility survey reference point for a long time.

Embodiment of the present invention described below is only for explaining in detail enough to be able to easily carry out the invention having ordinary knowledge in the technical field to which the present invention belongs, whereby the scope of protection of the present invention is limited It does not mean that.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

1 is a simplified diagram showing a surveying reference point according to the present invention, Figure 2 is a block diagram of a system on the surveying reference point of the present invention,

The subject innovation is a measurement reference point marker 10, the prism 40 is installed on one side of the measurement reference point marker to enable accurate position recording, mounted in the prism 40 to provide information about the measurement reference point (1) The present invention relates to a facility survey reference point (1) comprising survey information storage means incorporating an integrated circuit chip (IC CHIP) for recording.

More specifically, the survey reference point 1 represents a survey reference point marker 10 provided for the purpose of displaying the reference point 1 of a survey on an indicator in a survey operation such as cadastral survey or civil survey.

Hereinafter, an embodiment of the present invention will be described.

As shown in FIG. 1, a guide plate 20 is formed at the center edge of the measurement reference point marker 10, and a guide phrase is engraved on the guide plate 20.

In addition, one side of the guide plate 20 is attached to the facility symbol mark (30) can see what organization is managed at a glance, the installation reference point (10) at the bottom of the installation year (11), manager (12) The objects to be managed are clearly displayed on the facilities where the survey control points are installed.

In addition, the guide plate 20 may be made of various materials, such as metal, stainless steel, aluminum, Hsinchu, stone, wood, plastic, concrete according to the place or purpose, and may be formed in various shapes and sizes to suit the surrounding environment. .

On the other hand, the prism 40 is installed in a generally circular shape on the upper side of the measurement reference point marker 10, the electronic tag (RFID) 50 is attached to the prism 40.

When the reflector of the reflector in the prism 40 is directed to the recording device of the measurer on the management system 100, the signal output from the recording device is reflected from the reflector and returns back to the recording device. Is done.

In addition, by using the prism 40, there is no need to prepare a separate prism 40 target at the time of surveying can be used conveniently, it is possible to accurately measure and check the scale accurately.

Preferably, the electronic tag (RFID) 50 is attached to the prism 40, or may be separately formed at a separate position.

In addition, the present invention can be installed in a fixed facility, such as elevated bridges, steel towers, electric poles, etc. outside the building is difficult to access the vehicle, there is almost no damage, loss and can permanently save a lot of budget.

In addition, the built-in electronic tag (RFID) 50 is very effective for the management of the survey reference point (1).

In particular, it is also possible to manage the history of the facilities in which the surveying reference point 1 is installed (for example, design drawings of buildings, owners, tenants, etc.).

Preferably, the electronic tag (RFID) 50 is a device that records information related to surveying, and stores the survey related information in a digital format and can be read in a contactless manner by a separate reader (or reader). Should be

The above means may use a smart card or the like including the electronic tag (RFID) (50). In addition, since the smart card or the electronic tag (RFID) 50 as described above supports data reading and writing functions and arithmetic functions, when using the information storage means as described above, it is possible to input post-measurement results and various additional information. Modifications can be made to increase flexibility and effectiveness in the management of survey labels.

Therefore, the present invention had a problem such as requesting protection by indicating the importance of important national facilities by making and installing a separate guide plate to inform the surveying reference point 1 as a national important facility. ) And the installation of the control reference point (1) attached to the prism 40 in the facility can solve the above problems, and by installing the measurement reference point (1) of the present invention, the measurement reference point (1) is perfectly preserved and managed And can be implemented.

On the other hand, as shown in Figure 2 the location and various information embedded in the prism 40 and the electronic tag (RFID) 50 of the measurement reference point 1 is connected to the management system 100 to inform the administrator of the location and various information By knowing the history of the survey control point (1) management and facilities together, it is possible to save a lot of budget.

The above embodiments are for explaining the present invention, and the scope of the present invention is not limited to the embodiments, and may be modified or modified by those skilled in the art within the scope of the present invention defined by the appended claims.

For example, the shape and structure of each component specifically shown in the embodiment of the present invention can be modified.

1 is a simplified view showing a measurement reference point according to the present invention,

2 is a block diagram of a system on a surveying reference point of the present invention.

Explanation of symbols on main parts of the drawings

1: Facility surveying reference point 10: Surveying reference point marker

20: information board 30: facility symbol mark

40: prism 50: RFID chip

Claims (5)

Survey control point markers; A prism installed at one side of the measurement reference point marker to enable accurate position recording; And And surveying information storage means having an integrated circuit chip (IC CHIP) attached to the prism for recording information on the surveying reference point. The method of claim 1, The surveying information storage means is a facility survey reference point, characterized in that using an electronic tag (RFID) chip. The method of claim 1, Facility measurement reference point, characterized in that the guide plate can be attached to one side of the measurement reference point marker port to display the guidance of the facility. The method of claim 3, The guide plate is a facility measurement reference point, characterized in that formed of at least one or more of the metal, stone, wood, plastic, concrete material, The method of claim 1, The measurement reference point marker is a facility measurement reference point, characterized in that the shape and size can be formed to fit the surrounding environment.

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