KR102469500B1 - Survey staff with improved identification - Google Patents

Abstract

The present invention relates to a staff device for a survey with an improved identification function. More specifically, a transverse staff and a longitudinal staff crossing each other in a cross shape can be easily and simply fixated to and separated from each other, have simple structures to be easily manufactured, enhance surface contamination prevention and scratch resistance to extend lives thereof, and more specifically, easily and accurately check dimensions during survey of the staff.

Description

Survey staff with improved identification}

The present invention relates to a surveying staff device with improved identification function in the field of geodetic surveying technology, and more particularly, can easily and conveniently fix and separate a horizontal staff and a vertical staff crossed in the form of a cross, and has a simple structure. It is easy to manufacture, and it is possible to achieve longevity by strengthening surface contamination prevention and scratch resistance, as well as a staff device for surveying with improved identification function that allows easy and accurate checking of numerical values, especially when surveying staff. It is about.

In general, geodetic surveying must be performed first for various civil engineering and architectural design.

Geodetic surveying refers to various activities that measure horizontal distance, height difference, and direction to determine the mutual position of each measurement point, display it in a drawing or numerical value, and stakeout in the field.

In recent years, due to the increase in the activity of spatial information, interest in the accuracy and up-to-dateness of data has emerged. In particular, recently, the up-to-dateness of data has been secured through actual measurement of DB updates that occurred when new water and sewerage facilities were laid and old pipes were replaced.

Here, the actual measurement of underground facilities refers to direct measurement (separation distance and depth measurement) in a state that can be confirmed with the naked eye at the time of construction before the construction is completed.

As such conventional inspection equipment, there is Korean Utility Model Registration No. 20-0408374, and a plurality of staffs are installed through the first and second coupling members to measure the width and depth of the excavated upper end and lower end at once. It can be done quite easily.

However, in the prior art, the staffs are coupled to the first and second coupling members, respectively. At this time, when the staff is moved horizontally or vertically, the staff is easily scratched and damaged by the first and second coupling members, and this process There was a serious problem in that the scale of the staff was damaged, and in order to solve this problem, there is a fundamental problem that it is difficult to secure an accurate measurement when it is loosely coupled.

In addition, when the staff is to be coupled to the first and second coupling members, one end of the long staff must be inserted from the beginning, so installation is quite cumbersome, and only staffs having a certain standard can be installed, so there is a problem of poor versatility.

Furthermore, since the first and second coupling members have a structure in which a 'c'-shaped grip is rotatably coupled via a rivet, manufacturing is inconvenient and difficult, so there is a problem that is not easy.

Republic of Korea Patent Registration No. 10-1477729 (2014.12.23.) Staff fixing device for surveying underground facilities

The present invention was created to solve these problems in view of the various problems in the prior art as described above, and it is possible to easily and conveniently fix and separate the horizontal staff and the vertical staff crossed in the form of a cross, and the structure is simple to manufacture It is easy, and it is possible to achieve longevity by strengthening surface contamination prevention and scratch resistance, as well as providing a surveying staff device with improved identification function, which enables easy and accurate checking of numerical values, especially when surveying staff. It has its main purpose.

The present invention is a means for achieving the above object, a plate-shaped fastening part 11, a pair of horizontal parts 12 horizontally extending in parallel from both sides of the upper end of the fastening part 11, a fastening part 11 and A bracket 10 including a support part 13 extending vertically downward from the end of each horizontal part 12 facing each other and a link part 14 connecting the horizontal parts 12 to each other but providing a flat horizontal surface; A fastener comprising a bolt 21 movably fastened to the fastening part 11, a handle 22 fixed to one end of the bolt 21, and a pressing part 23 fixed to the other end of the bolt 21. (20); In the surveying staff device including; a center indicator (30) fixed to the bracket (10) and providing a reference to read the scale by matching the scale of the adjacently arranged staff; On one side of the horizontal part 12, a wireless communication module for short-distance wireless communication with the mobile terminal 200 and a controller 100 equipped with a battery are further installed; A front camera 120 is installed at the center of the length of the link part 14 to capture a scale of the longitudinal staff 2 disposed in the front; The center mark 30 includes a plate-shaped base 31, a surface needle portion 32 protruding in a direction orthogonal to the fastening portion 11 from the center of the length of the base 31, and the base 31 includes bent ends 33 vertically bent at both ends; The base 31 further includes a pair of rear cameras 130 installed at an equal distance apart on both sides of the surface needle 32 and electrically connected to and controlled by the controller 100; The portable terminal 200 includes a receiving antenna 300 that receives image information transmitted by the controller 100 and a wireless communication unit 220 that outputs a radio signal received from the receiving antenna 300 to the controller 210. And, a memory unit 230 for storing the image information received according to the control signal of the control unit 210, and the image information stored in the memory unit 230 according to the control signal of the control unit 210 is loaded into the image An image reading unit 240 that reads the scales of the included horizontal staff 1 and vertical staff 2, and the information read by the image reading unit 240 according to the control signal of the control unit 210 It provides a staff device for surveying with improved identification function, characterized in that it includes a display unit 250 outputting to the screen.

At this time, at the lower end of the support part 13, a holding part 15 is further formed that is vertically bent toward the fastening part 11 and then extended to a certain length; The control unit 210 is also characterized in that an arithmetic processing unit 260 for correcting an error as much as the width of the horizontal staff 1 is connected and installed.

According to the present invention, horizontal and vertical staffs crossed in a cross shape can be easily and conveniently fixed and separated, the structure is simple, so manufacturing is easy, and surface contamination prevention and scratch resistance are strengthened to increase lifespan. Not only can it be achieved, but it can also achieve the effect of enabling easy and accurate confirmation of numerical values, especially when surveying staff.

1 is an exemplary cross-sectional view of a staff device according to the present invention.
2 is an exemplary perspective view of a staff device according to the present invention.
3 is an exemplary view showing an example of use of the staff device according to the present invention.
Figure 4 is an exemplary view of the bracket and the center display area constituting the staff device according to the present invention.
5 is a block diagram of a portable terminal constituting a staff device according to the present invention.
6 is an exemplary view of a receiving antenna constituting a portable terminal according to the present invention.
FIG. 7 is an exemplary view of a pattern antenna constituting the receiving antenna of FIG. 6 .

Hereinafter, preferred embodiments according to the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structural or functional descriptions are only exemplified for the purpose of explaining embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can have various changes and various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific disclosed form, and should be understood to include all modifications, equivalents or substitutes included in the spirit and scope of the present invention.

As shown in FIGS. 1 and 2, the staff device according to the present invention is a fastener for holding a bracket 10, a horizontal staff 1 and a vertical staff 2 inserted into the bracket 10 (20) and a center mark (30) that is fixed to the bracket (10) and provides a reference so that the scale can be read by matching the scale of the adjacently arranged staff.

At this time, the bracket 10 is a member forming a 'c' shape as a whole, and is hung on the horizontal staff (1) and vertical staff (2) crossed in a cross shape to cross the horizontal staff (1) and the vertical staff (2). ) has a functional feature of restraining them from slipping by bringing them into close contact with each other.

In addition, the bracket 10 includes a fastening portion 11 on a plate; A pair of horizontal parts 12 extending horizontally in parallel from both sides of the upper end of the fastening part 11; A support portion 13 extending vertically downward from the end of each horizontal portion 12 to face the fastening portion 11; and a link portion 14 (see FIG. 4) connecting the horizontal portions 12 to each other and providing a flat horizontal surface.

In addition, the fastener 20 is a bolt 21 screwed through the fastening part 11, a handle 22 fixed to one end of the bolt 21, and the other end of the bolt 21 It includes a pressing part 23 made of rubber material to press the rear surface of the vertical staff 2 and a retaining bolt 24 fixing the pressing part 23 to the bolt 21.

Thus, the fastener 20 is installed in the fastening part 11 of the bracket 10 and presses the horizontal staff 1 to come into close contact with the support part 13 via the vertical staff 2. do.

In addition, by installing the center indicator 30 on the support part 13 of the bracket 10, the center position can be grasped at a glance without checking the pipe separately, making the work convenient and reducing the working time. There are benefits you can do.

At the center of the center display sphere 30, a surface needle 32 is formed so that the center point can be accurately displayed.

Such a staff device can be used as shown in the example of FIG. 3. First, the horizontal staff (1) and the vertical staff (1) are crossed by brackets (10) on the cross-shaped horizontal staff (1) and vertical staff (2). When the fastener 20 is intermittently tightened while holding the staff 2, the vertical staff 2 is pushed forward by the fastener 20, and the horizontal staff 1 is supported by the (13).

In this way, the intermittently coupled horizontal staff (1) and vertical staff (2) are inserted into the excavated ground (G) through the bracket 10 and the fastener 20.

At this time, the horizontal staff (1) is placed on the upper surface of the ground (G) to level it and at the same time adjust the tip to the reference point, and the vertical staff (2) is buried in the ground (G) Conduit (P) place it on top of

When the setting is completed in this way, the clamp 20 is used to strongly tighten the horizontal staff 1 and the vertical staff 2 so that the set state is not released.

In addition, the operator can measure and record the separation distance and depth using a leveler. The separation distance can be read from the horizontal staff (1) from the reference point formed on the ground to the center of the conduit (P), and the depth is the conduit The distance from the upper surface of (P) to the lower end of the horizontal staff (1) can be read from the vertical staff (2).

In this case, the guide needle 32 provides an accurate distance reference point.

In addition, in the present invention, as in the examples of FIGS. 4 and 5 in order to further improve the identification function, the bracket 10 and the center display sphere 30 are deformed and designed.

For example, as shown, the controller 100 is further installed on one side of the horizontal portion 12 of the bracket 10 .

The controller 100 is a type of microcomputer equipped with a battery and a wireless communication module, and is configured to transmit a specific signal to a portable terminal 200 possessed by a user through a transmission antenna 110 connected to the wireless communication module.

Here, the portable terminal 200, as a dedicated terminal, is configured to operate according to a short-distance wireless communication signal transmitted by the controller 100, and has a special structure to increase reception sensitivity (300, see FIG. 6). includes

In addition, a front camera 120 is installed at the center of the length of the link unit 14 to capture a scale of the vertical staff 2 disposed in the front.

At this time, the front camera 120 is configured to be controlled by being electrically connected to the controller 100 as a miniature CCD camera.

In addition, the center display sphere 30 includes the surface needle portion 32 as described above, but the surface needle portion 32 is installed in the middle of the length of the plate-shaped base 31 having a 'c' shape.

In particular, unlike the example of FIG. 2, the surface needle portion 32 is an example in which a point protruding in a direction perpendicular to the fastening portion 11 is formed.

In addition, the base 31 is further formed with bent ends 33 at both ends to be detachably assembled to the support part 13 so that the base 31 is spaced apart from the surface of the horizontal staff 1 by a certain distance. allows you to

In addition, a hole is formed in the base 31 below the surface needle part 32, and a rear camera 130 is installed in the hole, and the rear camera 130 is also electrically connected to the controller 100. It is configured so that it can be driven and controlled.

In this case, the rear camera 130 is also a compact CCD camera like the front camera 120, and operates to capture an image of a scale engraved on the surface of the horizontal staff 1 through the base 31.

In addition, at the lower end of the support part 13, a holding part 15 is further formed that is vertically bent toward the fastening part 11 and then extended to a certain length. It is to provide the accuracy of measurement when measuring using the horizontal staff (1) by holding the horizontality when inserting and installing.

On the other hand, the portable terminal 200 stores the wireless communication unit 220 that outputs the radio signal received from the reception antenna 300 to the control unit 210 and the image information received according to the control signal of the control unit 210. According to the control signal of the memory unit 230 and the control unit 210, the image information stored in the memory unit 230 is read and the scales of the horizontal staff 1 and the vertical staff 2 included in the image are read. It includes an image reading unit 240 that reads, and a display unit 250 that outputs the information read by the image reading unit 240 to a screen according to a control signal from the controller 210.

At this time, it is preferable that the image reading unit 240 is configured to enable accurate reading within a short time by having a reading function by learning using artificial intelligence of a deep learning technique.

In particular, since the front camera 120 is installed on the upper surface of the link part 14, when reading the horizontal staff 1 and the vertical staff 2 scale at the overlapping part, the error is as much as the width of the horizontal staff 1. occurs. That is, since the depth must be read as shown in FIG. 3, the point where the front camera 120 captures the image is as high as the width of the post staff 1, so the operation processing unit 260 processed according to the control signal of the control unit 210 It is more preferable that the depth to be measured can be accurately displayed by outputting it to the display unit 250 in a corrected state by the amount.

In other words, depth measurement should read the scale of the vertical staff (2) at the point overlapping the bottom of the horizontal staff (1), but the front camera 120 of the present invention is the top of the horizontal staff (1) and the overlapping point. Because it reads the scale of the vertical staff (2), an error occurs as much as the width of the horizontal staff (1). Therefore, in the present invention, the arithmetic processing unit 260 processes to correct this error.

On the other hand, the receiving antenna 300 has the same structure as the example of FIGS. 6 and 7 and is implemented in a small size to constitute the antenna unit of the portable terminal 200 .

To this end, the reception antenna 300 includes a first dielectric housing 3112 having a rectangular cylinder shape with an open top and a closed bottom, and a second dielectric housing 3114 having the same structure as the first dielectric housing 3112. ) is seated on the top of the first dielectric housing 3112.

Also, a 'TT'-shaped transmission terminal 3116 is fixed to the lower surface of the first dielectric housing 3112, and the transmission terminal 3116 is connected to the wireless communication unit 220 through a transmission line.

In addition, the first and second dielectric housings 3112 and 3114 are composed of dielectric materials to reduce propagation loss, and 25 parts by weight of dimethylpolysiloxane, 10 parts by weight of barium titanate (BaTiO ₃ ), 4 parts by weight based on 100 parts by weight of epoxy resin. - It is prepared by mixing 5 parts by weight of 4-Diazodiphenylamine sulfate, 10 parts by weight of silicon dioxide, and 5 parts by weight of toluene diisocyanate and molding it into a square frame shape.

At this time, the epoxy resin is a base resin for implementing a non-conductive dielectric so as not to hinder antenna gain loss, dimethylpolysiloxane is added to increase antenna efficiency by interaction of electromagnetic waves occurring in the microstructure, and barium titanate is It is added to secure and maintain a high permittivity.

And, 4-Diazodiphenylamine sulfate is a substance corresponding to CAS number 4477-28-5, and it enhances corrosion resistance, heat resistance, and fatigue limit by strengthening chemical resistance and chemical resistance while preventing discoloration. maintain longevity through

In addition, silicon dioxide is added to increase antenna gain by reducing radio interference, and toluene diisocyanate is added to increase surface gloss and prevent contamination and deterioration.

In addition, a subminiature lifting motor 3118 is fixed to the inner bottom surface of the first dielectric housing 3112, and a ball screw 3120 is connected to the rotating shaft of the lifting motor 3118, and the ball screw 3120 ) are vertically arranged penetrating the inner bottom surface of the second dielectric housing 3114.

Here, a screw bush 3122 is insert-molded at the center of the inner bottom surface of the second dielectric housing 3114, and the ball screw 3120 is screwed through the screw bush 3122.

In particular, the upper end of the ball screw 3120 occupies a position raised to about 1/2 of the upper and lower length of the second dielectric housing 3114, and the stopper 3124 is fixed to the upper end, so that the second dielectric housing (3114) is designed to limit the lift height.

In addition, lower pattern antennas 3200 having different shapes are fixed around four surfaces of the first dielectric housing 3112, and sliding grooves 3210 are formed inside the lower pattern antenna 3200.

In this case, the sliding groove 3210 has a shape in which an upper end is open and a lower end is blocked.

In addition, the lower pattern antenna 3200 has a structure in which a conductive metal is plated on the surface of an injection-molded body made of ABS resin in order to increase design freedom and facilitate installation position and operation.

At this time, the plating may be copper, silver, etc., and if the injection body is three-dimensional, all surfaces are plated.

In addition, the lower pattern antenna 3200 may have various shapes such as 'I' type, 'ㄹ' type, 'C' type, and 'ㅁ' type in order to increase reception sensitivity. It took this good shape.

In addition, the upper pattern antenna 3300 corresponding to the lower pattern antenna 3200 is fixed around the four surfaces of the second dielectric housing 3114, but has different lengths, and the upper pattern antenna 3300 Sliders 3310 inserted into the sliding grooves 3210 are integrally formed at the lower end of each.

In this case, all of their contact surfaces must be plated with a conductor so that the contact state can be maintained even during the sliding process so that current can always be maintained.

Accordingly, the second dielectric housing 3114 rises according to the rotation of the lifting motor 3118. At this time, the second dielectric housing 3114 does not rotate because of the pattern antennas and only rises in the vertical direction.

At this time, since the upper pattern antenna 3300 also rises, the slider part 3310 also rises, and the reception efficiency, that is, the antenna gain, is increased due to various height differences of the pattern antenna, thereby enabling stable communication.

This lift motor 3118 is connected to the wireless communication unit 220 to be described later, and operation is controlled by the wireless communication unit 220 so that the lift motor 3118 moves up and down when reception sensitivity drops according to its control signal.

Accordingly, since the reception sensitivity is improved, two staffs are positioned at the measuring point for measurement, and when accurately set at the measuring point, the front camera 120 and the rear camera 130 are respectively operated according to the control signal of the controller 100. After taking an image of the scale of the staff, it is transmitted to the portable terminal 200, and the portable terminal 200 reads and corrects the received image information and displays it on the screen of the portable terminal 200 in real time, so that the measurement value is not checked individually. It is possible to know immediately by looking at the screen of the mobile terminal 200 without having to do it, so the identification function is remarkably improved.

1: Garostaf 2: Serostaf
10: bracket 20: fastener
30: center mark

Claims (2)

A plate-shaped fastening part 11, a pair of horizontal parts 12 extending horizontally in parallel from both sides of the upper end of the fastening part 11, perpendicular to each other from the end of each horizontal part 12 facing each other with the fastening part 11 A bracket 10 including a support part 13 extending downwardly and a link part 14 connecting the horizontal part 12 to each other but providing a flat horizontal surface; A fastener comprising a bolt 21 movably fastened to the fastening part 11, a handle 22 fixed to one end of the bolt 21, and a pressing part 23 fixed to the other end of the bolt 21. (20); In the surveying staff device including; a center indicator (30) fixed to the bracket (10) and providing a reference to read the scale by matching the scale of the adjacently arranged staff;
On one side of the horizontal part 12, a wireless communication module for short-distance wireless communication with the mobile terminal 200 and a controller 100 equipped with a battery are further installed;
A front camera 120 is installed at the center of the length of the link part 14 to capture a scale of the longitudinal staff 2 disposed in the front;
The center mark 30 includes a plate-shaped base 31, a surface needle portion 32 protruding in a direction orthogonal to the fastening portion 11 from the center of the length of the base 31, and the base 31 includes bent ends 33 vertically bent at both ends;
The base 31 further includes a pair of rear cameras 130 installed at the same distance apart on both sides of the surface needle 32 and electrically connected to and controlled by the controller 100;
The portable terminal 200 includes a reception antenna 300 that receives image information transmitted by the controller 100 and a wireless communication unit 220 that outputs a radio signal received from the reception antenna 300 to the controller 210. And, the memory unit 230 for storing the image information received according to the control signal of the control unit 210, and the image information stored in the memory unit 230 according to the control signal of the control unit 210 is called to the image An image reading unit 240 that reads the scales of the included horizontal staff 1 and vertical staff 2, and the information read by the image reading unit 240 according to the control signal of the control unit 210 Staff device for surveying with improved identification function, characterized in that it comprises a display unit 250 for outputting to the screen.
According to claim 1,
At the lower end of the support part 13, a holding part 15 is further formed that is vertically bent toward the fastening part 11 and then extended to a certain length;
A surveying staff device with improved identification function, characterized in that an arithmetic processing unit 260 for correcting an error by the width of the horizontal staff 1 is further connected to the control unit 210.

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