KR101208591B1 - Facility surveying of reflector for collimating at night - Google Patents

Abstract

PURPOSE: A facility surveying reflector for collimating at night is provided to emit light to a prism by an LED lamp, thereby easily collimating even in a dark place or at night by changing a position of the reflector. CONSTITUTION: A facility surveying reflector for collimating at night comprises a supporting stand(110), a reflector(120), a light(130), and a power source unit(140). The supporting stand is formed into a rectangular shape and fixed on the ground. The reflector is comprised in the upper part of the supporting stand, thereby transmitting light being emitted from an LED lamp(131) from a surveying device for collimating. The light comprises the LED lamp being comprised in a rear surface of the reflector, thereby emitting light to the reflector. The power source unit is connected to the light, thereby supplying power.

Description

FACILITY SURVEYING OF REFLECTOR FOR COLLIMATING AT NIGHT}

The present invention relates to a reflector for surveying facilities for night collimation, and more particularly, to add a lighting device to a reflector of a surveying instrument used in surveying the location of various facilities such as civil engineering sites, terrain surveying, ground facilities and underground facilities. The present invention relates to a technology for easily finding a position of a reflector at night or in a dark place.

In general, surveying a location using an instrument is to determine the location (coordinate, height) of a feature or a specific point by measuring angle and distance, and install the instrument at a point where the position value is already known. The target (reflector) will be installed.

In this case, the position of the new point is measured by measuring the horizontal and vertical angles from the point where the position value is already known to the point to be known and measuring the exact distance. This method is used for the installation of a survey reference point made of a T / S (total station) method or for surveying the status of various feature representation methods, and is used as a method for determining the location of various facilities on the ground and underground.

On the other hand, the reflector for surveying is a surveying instrument that is settled at an unknown point at the time of surveying and serves as a reference for measuring angles and distances. Is shown and consists of a prism which reflects the emitted light wave and measures a distance.

However, in this case, when the reflector is collimated from the instrument, the position of the prism and the crosshairs of the horizontal and vertical crosshairs must be accurately identified. When surveying, when the work is performed in a dark underground space, it is difficult to identify the position of the reflector.

In addition, the worker should prepare a separate lighting fixture when working in a dark place, which can be cumbersome in difficult working environment, and additional workforce is required, such that work efficiency is reduced in work time and cost. have.

In addition, the conventional T / S surveying has been made mainly during the day in accordance with the characteristics of the field work, the weather conditions in the field work is also affected a lot. For this reason, work becomes difficult except for the daytime. However, the site conditions are diverse, and in the case of complex urban areas, there are many vehicles and people moving, and numerous facilities are concentrated, which is often a major obstacle to T / S surveying.

In order to improve this problem, various research and development is being made in the industry, and a number of prior documents are disclosed in addition to Korean Patent Registration No. 10-0648410 (a staff for surveying digital maps that can be easily collimated at night).

As shown in FIG. 1, the prior document has a convex lens that is curved at a predetermined curvature on the entire front surface of the staff, and the body of the staff includes a light emitting lamp at predetermined intervals, and a rear surface (plane) of the convex lens. The insertion groove is formed at a position corresponding to the light emitting lamp on the side to insert and combine the light emitting lamp, so that the measurement can be performed even after sunset, and the scale and the dimension are printed on the back (plane) side of the convex lens, but the dimension is intaglio It is formed by painting with paint of a predetermined color.

However, the unnecessary cost is incurred due to the need to provide light emitting lamps at predetermined intervals in the body of the staff, and the worker's fatigue is increased during the night surveying due to the surveying operation only dependent on the light emitted by the light emitting lamps. There is a problem.

Recently, the frequency of current surveying in the ground is increasing, and the dark work is frequently generated during construction surveys such as tunnels, so that a reflector for surveying is required to improve the efficiency of the surveying work at night.

The present invention has been made to solve the above problems, by attaching a lighting facility to the surveying reflector, by measuring the correct light source at the position collimated by the instrument to accurately measure the angle and distance, and provides a more convenient survey work at night work Has its purpose.

Reflector for surveying facilities for night collimation to achieve the technical problem, the support 110 is configured in a rectangular shape fixed to the ground; A reflector 120 provided above the support 110 to transmit a light source irradiated from the LED lamp for collimation from the instrument; A light 130 provided at a rear surface of the reflector 120 and having an LED lamp 131 that emits a light source to the reflector 120; And a power supply unit 140 connected to the light 130 to supply power.

In addition, the support 110, the center bar 111 is configured in a rectangular shape and fixed to the ground; A first auxiliary rod 112 configured to have a rectangular shape and having one side thereof foldable so as to have a diagonal from the center of the center rod 111, and the other side of which is fixed to one side of the ground to support the center rod 111; And a second auxiliary bar 113 configured to have a rectangular shape, one side of which is foldable so as to have a diagonal from the center of the center bar 111, and the other side of which is fixed to the other side of the ground to support the center bar 111. Including, but the lower three points of each of the center bar 111, the first auxiliary bar 112 and the second auxiliary bar 113 is characterized in that it is configured to support the ground.

In addition, the reflector 120 is fixed to the upper side of the center bar 111 of the support 110 to pass through the light source irradiated from the LED lamp of the light 130, it is coupled to the upper side of the center bar 111 in the form of a screw, It is characterized by consisting of a prism for reflecting the light source emitted from the light (130).

In addition, the light 130 is provided on the rear surface of the reflector 120 to supply power applied from the power supply unit 140 to the LED lamp 131, characterized in that for controlling the light source divergence of the LED lamp 131.

In addition, the power supply unit 140 is provided at the rear of the light 130 to supply the power charged in the battery 142 to the light 130 according to the on / off of the power switch 141, the battery 142 is detachable It is characterized by consisting of a battery possible.

Then, the power supply unit 140 adjusts the brightness of the LED lamp 131 so that there is no problem in visual collimation from the instrument 10 to the reflector 120, and the LED lamp (not to cause an error in the reflected wave from the reflector 120). And a light source control dial 143 that varies the amount of power supplied to the light 130 to adjust the brightness of the light source 130 so as to adjust the brightness of the reflector 120 with the surrounding conditions.

According to the present invention as described above, a surveying reflector made of a prism material for measuring the distance by reflecting light waves as a reference for angular measurement, which is collimated from a survey instrument erected at a known point when surveying the location of civil works, terrain surveying, underground facilities, etc. By providing the light on the back of the prism, which is the material of the reflector, the light is emitted from the back to the prism, thereby providing an easy collimation by changing the position of the reflector even in a dark environment and at night.

In addition, according to the present invention, by supplying power through a battery provided on the back of the LED lamp, there is an effect of facilitating the power supply to the LED lamp.

In addition, according to the present invention, the T / S survey mainly made during the day through the reflector for measuring the distance by reflecting the light waves to measure the distance in the dark tunnel, caves, underground facilities, etc. By enabling the operation, the position of the reflector can be quickly and easily found even in the absence of light by the back light on the survey reflector, and the effect of providing accurate collimation of the reflector from the instrument is provided.

In addition, according to the present invention, the reflector for measuring the distance by reflecting the light waves to improve the accuracy at night surveying, and to the T / S surveying at night to select a better viewing environment to reflect the distance to the reflector By providing lighting, it is possible to reduce the number of obstacles that can occur during the day for special situations and to increase observation accuracy.

1 is a view showing a staff for a digital map making surveying easily collimated even in the conventional night.
Figure 2 is a block diagram showing a reflector for facility surveying for night collimation.
Figure 3 is an example of night observation using a reflector for facility surveying for night collimation.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

Hereinafter, referring to FIG. 2, the surface of the reflector 100 for surveying facilities for night collimation according to the present invention is as follows.

As shown in FIG. 2, the reflector 100 for surveying facilities for night collimation according to the present invention is configured in a rectangular shape and is provided on a support 110 fixed to the ground and a support 110 above to collimate from the instrument. Is connected to a light 130 and a light 130 provided with a reflector 120 for transmitting a light source irradiated from the LED lamp and an LED lamp for emitting a light source to the reflector 120. It is configured to include a power supply 140 for supplying.

Specifically, the support 110 is formed in a rectangular shape and the center bar 111 is fixed to the ground, and is formed in a rectangular shape is formed in a foldable structure so that one side has a diagonal from the center of the center bar 111 and the other side The first auxiliary bar 112 and the rectangular shape is fixed to one side of the ground to support the center bar 111 and is formed in a foldable structure so that one side has a diagonal from the center of the center bar 111, the other side is the ground The second auxiliary bar 113 is fixed to the other side to support the center bar 111.

That is, the support 110 is configured to support three ground points at the lower end of each of the center bar 111, the first auxiliary bar 112, and the second auxiliary bar 113.

In addition, the reflector 120 is fixed above the center bar 111 of the support 110 to transmit a light source irradiated from the LED lamp of the light 130. In this case, the reflector 120 is coupled to the upper side of the center bar 111 in the form of a screw, it may be composed of a prism for reflecting the light source emitted from the light (130).

In addition, as shown in FIG. 3, the prism displays a reference line of a horizontal line and a vertical line from the center to the periphery so that accurate collimation is made from the measuring instrument 10 provided at a predetermined distance from the reflector 120. ) Is configured to receive a light source reflected by the reflector 120 composed of a prism to measure the distance to the reflector 120.

On the other hand, the light 130 is provided on the rear of the reflector 120 to supply the power supplied from the power supply unit 140 to the LED lamp 131 to control the light source divergence of the LED lamp 131.

In addition, the power supply unit 140 is provided at the rear of the light 130 and supplies the power charged in the battery 142 to the light 130 according to the on / off of the power switch 141. In this case, the battery 142 of the power supply unit 140 may be configured as a removable battery.

In addition, the power supply unit 140 includes a light source control dial 143 on the rear thereof to control the light source intensity of the light 130 by varying the power supply amount to the light 130, and the power supply amount by the light source control dial 143. By adjusting the collimation from the instrument 10 to the reflector 120 to be made smoothly with the surrounding environment.

In addition, the light source control dial 143 of the power supply unit 140 adjusts the brightness of the LED lamp 131 so that there is no problem in visual collimation from the instrument 10 to the reflector 120, and an error in the reflected wave from the reflector 120 is caused. The brightness of the LED lamp 131 is adjusted so that the contrast with the surrounding conditions of the reflector 120 may be controlled so as not to occur.

In addition, the reflector 120 according to the present invention may be detachable by removing a screw coupled with the upper side of the center bar 111 of the support 110, and the light 130 is fitted to the rear surface of the reflector 120 to be detachable. This is possible, the power supply unit 140 is fitted to the rear of the light 130-is configured to be detachable.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100: reflector for facility surveying for night sighting
110: support 111: center bar
112: first auxiliary bar 113: second auxiliary bar
120: reflector 130: light
131: LED lamp 140: power supply
141: power switch 142: battery
143: light control dial 10: instrument

Claims (6)

In the reflector for facility surveying for night collimation,
A support 110 which is configured in a rectangular shape and fixed to the ground;
A reflector 120 provided above the support 110 to transmit a light source irradiated from the LED lamp for collimation from the instrument;
A light 130 provided at a rear surface of the reflector 120 and having an LED lamp 131 for emitting a light source to the reflector 120; And
And a power supply unit 140 connected to the light 130 to supply power.
The support 110,
A center bar 111 formed in a rectangular shape and fixed to the ground; A first auxiliary rod 112 configured to have a rectangular shape, one side of which is foldable so as to have a diagonal from the center of the center rod 111, and the other side of which is fixed to one side of the ground to support the center rod 111; And a second auxiliary rod 113 configured to have a rectangular shape, one side of which is foldable so as to have a diagonal from the center of the center rod 111, and the other side of which is fixed to the other side of the ground to support the center rod 111. Including; but, the lower three points of each of the center bar 111, the first auxiliary bar 112 and the second auxiliary bar 113 is configured to support the ground,
The reflector 120,
It is fixed to the upper side of the center bar 111 of the support 110 is transmitted through the light source irradiated from the LED lamp of the light 130, is coupled to the upper side of the center bar 111 in the form of a screw, the light 130 Consists of a prism for reflecting the light source emitted from the, it is possible to attach and detach by removing the screw coupled with the upper side of the center bar 111 of the support 110,
In the prism, a reference line of a horizontal line and a vertical line is displayed from the center to the periphery so that accurate collimation is made from the instrument 10 provided at a predetermined distance from the reflector 120, and the reflector 120 includes the prism 10. Is configured to receive a light source reflected by) and measure a distance from the reflector 120,
The light 130,
It is provided on the rear surface of the reflector 120 to supply power applied from the power supply unit 140 to the LED lamp 131 to control the light source divergence of the LED lamp 131, it is fitted to the rear surface of the reflector 120 is coupled and detachable Is possible,
The power supply unit 140,
It is provided on the back of the light 130 to supply power to the light 130 charged to the battery 142 according to the on / off of the power switch 141, the battery 142 is composed of a removable battery, Fitted to the rear of the light 130 is coupled to be configured to be removable,
The brightness of the LED lamp 131 is adjusted so that there is no problem in visual collimation from the instrument 10 to the reflector 120, and the reflection of the LED lamp 131 is prevented so that an error does not occur in the reflected wave from the reflector 120. A light source control dial 143 for varying the amount of power supplied to the light 130 so as to adjust the brightness to adjust the contrast with the ambient conditions of the reflector 120; facility surveying for night collimation further comprises a Dragon reflector. delete delete delete delete delete

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