KR102038404B1 - Laser leveling equipment for ceiling - Google Patents

Abstract

The present invention relates to a laser leveling apparatus for a ceiling and, more specifically, to a laser leveling apparatus for a ceiling which automatically measures a ceiling height, emits a center line to a ceiling, and automatically adjusts a lens angle in accordance with a horizontal line separation distance value and a vertical line separation distance value inputted by a worker to emit lines at regular intervals. The laser leveling apparatus for a ceiling comprises: a main body frame placed on a floor surface; a distance measurement device which is arranged on an upper end of a center of the main body frame, and automatically measures a ceiling height by detecting a wave body before reflection after emitting the wave body to a ceiling; a center line laser arranged to be separated in an x-axis direction and a y-axis direction with respect to a position of the distance measurement device, and emits a center line of a cross shape to the ceiling; a horizontal line forming body including one or more horizontal line lasers arranged to be horizontally separated in the x-axis direction of the center line laser, and rotating by a set angle to emit horizontal lines to the ceiling; a vertical line forming body including one or more vertical line lasers arranged to be vertically separated in the y-axis direction of the center line laser, and rotating by a set angle to emit vertical lines to the ceiling; an input panel arranged at a set position, on which a horizontal line separation distance value and a vertical line separation distance value are set; and a controller to receive the horizontal line and the vertical line separation distance value to calculate a rotation angle value to control the horizontal line forming body and the vertical line forming body to rotate.

Description

Laser leveling equipment for ceiling

The present invention relates to a laser level device for ceiling, and more particularly, to automatically measure the ceiling height, irradiating the center line to the ceiling, the lens according to the horizontal line separation distance value and vertical line separation distance value input by the operator. It relates to a ceiling laser level device that the angle is automatically adjusted to irradiate the ceiling at regular intervals.

The construction of the building horizontally and vertically is one of important conditions in performance and durability of these structures.

Therefore, accurate setting of horizontal and vertical positions in the space is one of the important tasks in various fields such as architecture, civil engineering, and interior.

This vertical and horizontal setting method is a method of measuring by hanging a string artificially on the ceiling, which is difficult and dangerous, and it is difficult to expect an accurate setting due to the shaking of the string, and the inconvenience of measuring from top to bottom Of course, there are problems such as lack of speed and accuracy to work from place to place from time to time.

In addition, there was a difficulty in measuring and marking the lighting installation position with a tape measure before installing the ceiling lighting during indoor lighting installation work. In particular, when working, the worker is a pair of two people to form a grid pattern on the ceiling, the interval between the lights manually measured by hand, using a ladder to repeatedly go up and down there was a problem that takes a long time work .

In order to solve such a problem, the Republic of Korea Patent Publication No. 10-1682518 "lattice display laser level irradiation apparatus" has been posted. In order to install various lighting equipments on the ceiling during construction of the building, the laser beam is irradiated to the ceiling in a grid form. There is a problem in that the lens to be manually adjusted. Therefore, the lens is manipulated by hand by the operator, which lowers the precision and degrades workability and efficiency.

Republic of Korea Patent Publication No. 10-1682518

The present invention has been made to solve the above problems, by automatically measuring the ceiling height from the main body frame placed on the floor, the rotation angle value of the horizontal line forming body and vertical line forming body according to the input separation distance value The purpose is to calculate and to automatically rotate the horizontal line forming body and the vertical line forming body according to the rotation angle value.

In addition, the center line laser can be marked long and clear by the center line laser, and the horizontal line and the vertical line based on the center line has a different purpose to automatically irradiate the ceiling at regular intervals.

In order to achieve the above object, the present invention provides a body frame placed on the bottom surface; A distance measuring device disposed on an upper center of the main body frame and configured to automatically measure a ceiling height by detecting a wave body before reflection after irradiating a wave body to a ceiling; A centerline laser disposed to be spaced apart from each other in the x-axis direction and the y-axis direction based on the position of the distance meter, and irradiating a cross-shaped center line to the ceiling; A horizontal line composed of one or more horizontal line lasers spaced from the left and right in the x-axis direction of the center line laser, and rotated at a set angle to irradiate the horizontal line at a predetermined interval symmetrically with respect to the center line on the ceiling Formation; The vertical line consists of one or more vertical line lasers spaced vertically spaced apart in the y-axis direction of the center line laser, and rotates at a set angle to irradiate vertical lines at regular intervals vertically and symmetrically with respect to the center line on the ceiling. Formation; An input panel disposed at a setting position and configured to set a horizontal line separation distance value and a vertical line separation distance value; And a controller configured to control the horizontal line forming body and the vertical line forming body to rotate by receiving the horizontal line and the vertical line separation distance values, and to control the horizontal line forming body and the vertical line forming body. The analog input unit may be switched to the manual mode when the ON (ON) setting, the manual switch for switching to the automatic mode when the OFF (OFF) setting; A horizontal line rotation direction setting switch for rotating the horizontal line laser in the selected rotation direction; A vertical line rotation direction setting switch for rotating the vertical line laser in the selected rotation direction; And a fine rotation control knob switch for adjusting an interval between the horizontal line and the vertical line by finely adjusting the rotation angle of the horizontal line laser or the vertical line laser.

The controller may further include a manual automatic mode switching mode for switching to a manual mode when the manual switching mode is set to ON and switching to an automatic mode when setting the OFF mode; A horizontal line rotation direction setting mode to perform rotation of the horizontal line laser in a selected rotation direction when the manual switching mode is set on; A vertical line rotation direction setting mode for rotating the vertical line laser in a selected rotation direction when the manual automatic switching switch is set on; Fine adjustment of the rotation angle to perform the rotation of the horizontal line laser and the vertical line laser in accordance with the setting value of the fine rotation control knob switch in the rotation direction transmitted in the horizontal line rotation direction setting mode or vertical line rotation direction setting mode Mode; characterized by operating in.

In addition, the horizontal line forming body is formed in a plurality of pairs symmetrically in the x-axis direction of the center line laser, characterized in that the rotation angle value of each pair is calculated separately according to the horizontal line separation distance value.

In addition, the vertical line forming body is formed in a plurality of pairs up and down symmetrical in the y-axis direction of the center line laser, characterized in that the rotation angle value of each pair is calculated separately according to the vertical line separation distance value.

In addition, the horizontal line forming body and the vertical line forming body, the light source for irradiating light; A light diffusion lens surrounding the light source body and having a horizontal line forming groove or a vertical line forming groove formed thereon; And a lens rotation actuator connected to the light diffusing lens and rotating the light diffusing lens by receiving a rotation angle value from the controller.

The ceiling laser level device according to the present invention by the means for solving the above problems can automatically measure the height of the ceiling without the operator climbing on the ladder, it can be used by a single operator by simple operation is excellent in workability and convenience.

In addition, the center line laser is marked by the center line perpendicular to the ceiling from the center of the device long and clear, it can be used in a large space has the advantage that the usability is improved.

In addition, the horizontal line forming body and the vertical line forming body are automatically rotated based on the center line according to the separation distance value input by the operator, thereby uniformly irradiating the ceiling, thereby reducing work time.

1 is an embodiment of a ceiling laser level apparatus according to the present invention.
2 is a plan view of the laser level device for a ceiling according to the present invention.
3 is a conceptual view illustrating a horizontal line laser and a vertical line laser of the laser level device for ceiling according to the present invention.
Figure 4 shows the state irradiated to the ceiling using the laser level device for ceilings according to the present invention.
5 is a horizontal line laser and vertical line laser configuration of the ceiling laser level apparatus according to the present invention.
6 is a controller block diagram of the ceiling laser level apparatus according to the present invention.
7 is a controller flowchart of the ceiling laser level apparatus according to the present invention.
Figure 8 shows the direction irradiated to the ceiling using the laser level device for ceilings according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description of the present invention, a description of a known function or configuration will be omitted to clarify the gist of the present invention.

In addition, in describing the present invention, terms indicating directions are described to enable those skilled in the art to clearly understand the present invention and indicate relative directions, and thus, the scope of rights is not limited thereto.

1 and 2 and 7, the ceiling laser level apparatus according to an embodiment of the present invention is the main frame 100, the distance measuring device 200, the center line laser 300, the horizontal line forming body (400a), It consists of a configuration including a vertical line forming body 400b, the input panel 500, the controller 700.

The body frame 100 is placed on the bottom surface and provides an installation space in which other components can be installed. In addition, the horizontal holder 800 is further installed in the lower portion of the main body frame 100 to maintain the level of the ceiling laser level device. Here, the horizontal support 800 is supported on the bottom surface as shown in Figure 1, is installed in the lower portion of the main frame 100, a plurality of support 801 is adjustable in length so that the level is maintained at a set point It is preferable to make.

In addition, the horizontal support 800 is made of a configuration further comprising a cradle 810, a horizontal display 820, the length adjustment lever 830. At this time, the mounting hole 810 is provided with a coupling protrusion on the top so that the main body frame 100 is mounted, a screw thread is formed on the outer circumferential surface is screwed to the lower surface of the main body frame 100. As shown in FIG. 2, the horizontal indicator 820 is disposed at the upper end of the main body frame 100, and is provided with a circular marker so that the horizontal position of the main body frame 100 can be identified. And the length control lever 830 is provided in the lower portion of the plurality of support 801, respectively, it is possible to adjust the length of the support 801 individually, thereby maintaining the horizontal of the body frame 100.

Referring to FIG. 2, the distance measurer 200 is disposed at the top of the center of the main body frame 100, and after detecting the wave body on the ceiling, detects the wave body before reflection and automatically measures the ceiling height. The distance measuring device 200 may automatically measure the ceiling height by detecting the reflected laser after irradiating the laser to the ceiling using a laser tape measure. In addition, the wave body may measure the distance by using ultrasonic waves, light, sound waves, etc. in addition to the laser.

The center line laser 300 is disposed to be spaced apart in the x-axis direction and the y-axis direction based on the position of the distance measurer 200, and irradiates a cross-shaped center line 301 on the ceiling. At this time, the center line laser 300 is preferably arranged in all directions on the basis of the position of the distance measurer 200, and thus the center line 301 is irradiated to the ceiling long and clearly, so that the center line laser 300 can be used in a wide space. Is improved.

The horizontal line forming body 400a is composed of one or more horizontal line lasers 410a which are spaced apart from left and right in the x-axis direction of the center line laser 300, and the horizontal lines 401a are rotated at a set angle. Investigate to form. In particular, the horizontal line forming member 400a is installed in a plurality of pairs in a horizontally symmetrical direction in the x-axis direction of the center line laser 300, and the horizontal lines 401a at a predetermined interval symmetrically with respect to the center line 301. It is desirable to allow this to be formed. Referring to FIG. 8, the pair of rotation angle values 701 is individually calculated by the controller 700 according to the horizontal line separation distance value 501a input to the input panel 500. And rotate. That is, the rotation angle value 701 is calculated by Pythagorean theorem with the horizontal line separation distance value 501a input to the input panel 500 and the ceiling height automatically measured.

In this case, the horizontal line laser 410a includes a light source body 411, a light diffusing lens 412, and a lens rotating actuator 413. The light source body 411 irradiates light, and a laser is mainly used. Referring to FIG. 3, the light diffusing lens 412 may be formed in a hemispherical shape surrounding the light source body 411. In addition, the horizontal line forming grooves 412a or the vertical line forming grooves 412b as shown in FIG. 3- (b) are provided at the top, as shown in FIG. In this case, the light diffusing lens 412 allows the light source body 411 to be irradiated to the ceiling through the horizontal line forming groove 412a or the vertical line forming groove 412b to form a line. The lens rotation actuator 413 is connected to the light diffusing lens 412 to receive the rotation angle value 701 of the horizontal line forming unit 400a and the vertical line forming unit 400b from the controller 700. The diffusion lens 412 is rotated.

As shown in Figures 2 and 4, an embodiment of the arrangement and rotation direction when four light diffusing lenses 412 of the horizontal line laser 410a is installed will be described.

First, the light diffusing lens 412 includes a first horizontal lens, a second horizontal lens, a third horizontal lens, and a fourth horizontal lens.

The first horizontal lens is disposed on the left side of the center line, and rotates upward based on the first rotation angle value calculated by the controller 700 by the input horizontal line separation distance value 501a.

The second horizontal lens is disposed on the left side of the first horizontal lens, and rotates to the image side according to the second rotation angle value calculated by the controller 700.

The third horizontal lens is disposed on the right side of the center line 301 and rotates downward by a first rotation angle value that is the same angle as the first horizontal lens.

The fourth horizontal lens is disposed on the right side of the third horizontal lens and rotates downward by a second rotation angle value that is the same angle as the second horizontal lens.

The vertical line forming body 400b is composed of one or more vertical line lasers 410b which are spaced vertically apart from each other in the y-axis direction of the center line laser 300 and rotates at a set angle to form a vertical line 401b on the ceiling. Investigate. In particular, the vertical line forming member 400b is installed in a plurality of pairs up and down symmetrically in the y-axis direction of the center line laser 300, and vertical lines 401b at regular intervals up and down symmetrically with respect to the center line 301. It is desirable to allow this to be formed. Referring to FIG. 8, the pair of rotation angle values 701 is calculated by the controller 700 according to the vertical line separation distance value 501b input to the input panel 500. And rotate. That is, the rotation angle value 701 is calculated by Pythagorean theorem with the vertical line separation distance value 501b input to the input panel 500 and the ceiling height automatically measured.

In addition, since the vertical line laser 410b is configured to include a light source body 411 such as the horizontal line laser 410a, a light diffusing lens 412, and a lens rotation actuator 413, the description of each configuration will be described. Will be omitted.

An embodiment of the arrangement and rotation direction when four light diffusing lenses 412 of the vertical line laser 410b are installed will be described.

First, the light diffusing lens 412 includes a first vertical lens, a second vertical lens, a third vertical lens, and a fourth vertical lens.

The first vertical lens is disposed on the image side of the center line 301 and rotates to the left according to the third rotation angle value calculated by the controller by the input vertical line separation distance value 501b.

The second vertical lens is disposed on the image side of the first vertical lens, and rotates to the left according to the fourth rotation angle value calculated by the controller 700.

The third vertical lens is disposed below the center line and rotates to the right at a third rotation angle value that is the same angle as the first vertical lens.

The fourth vertical lens is disposed on the right side of the third vertical lens and rotates to the right at the fourth rotation angle value which is the same angle as the second horizontal lens.

The input panel 500 is disposed at a setting position, and the horizontal line separation distance value 501a and the vertical line separation distance value 501b are set by the operator. The input panel 500 may be formed of a control panel 501 mounted on a ceiling laser level device or a remote control 502 connected to the outside.

In particular, the input unit selected by the operator is classified into an analog input unit 510 and a digital input unit 520, and the digital input unit 520 may be formed of a keypad 521 or a touch pad 522.

As shown in Figure 1 and 6, in one embodiment of the present invention may be provided with an analog input unit 510 in the body frame 100. In this case, the analog input unit 510 may further include a manual mode switching device for manually adjusting the rotation angles of the horizontal line forming body 400a and the vertical line forming body 400b by an operator.

The analog input unit 510 includes a manual automatic switching switch 511, a horizontal line rotation direction setting switch 512, a vertical line rotation direction setting switch 513, and a rotation angle fine adjustment knob switch 514. Can be.

The manual automatic switching switch 511 is switched to the manual mode when the ON (ON) setting, and is switched to the automatic mode when the OFF (OFF) setting.

The horizontal line rotation direction setting switch 512 causes the horizontal line laser 410a to rotate in the selected rotation direction.

The vertical line rotation direction setting switch 513 causes the vertical line laser 410b to rotate in the selected rotation direction.

The rotation angle fine adjustment knob switch 514 may adjust the interval between the horizontal line 401a and the vertical line 401b by finely adjusting the rotation angle of the horizontal line laser 410a or the vertical line laser 410b.

The controller 700 receives the horizontal line separation distance value 501a and the vertical line separation distance value 501b from the digital input unit 520 of the input panel 500 to calculate the rotation angle value 701 and to form a horizontal line. The sieve 400a and the vertical line forming body 400b are controlled to rotate.

In addition, the controller 700 according to the setting of the analog input unit 510 manual mode switching mode 511a, horizontal line rotation direction setting mode 512a, vertical line rotation direction setting mode 513a, fine adjustment of the rotation angle Operate mode 514a.

The manual automatic mode switching mode 511a is switched to the manual mode when the manual automatic switching switch 511 is set to ON, and is switched to the automatic mode when the OFF is set.

The horizontal line rotation direction setting mode 512a allows the horizontal line laser 410a to be rotated in the selected rotation direction when the manual automatic switching switch 511 is set ON.

The vertical line rotation direction setting mode 513a allows the rotation of the vertical line laser 410b to be performed in the selected rotation direction when the manual automatic switching switch 511 is set ON.

The rotation angle fine adjustment mode 514a is a horizontal line according to the setting value of the rotation angle fine adjustment knob switch 514 in the rotation direction transmitted from the horizontal line rotation direction setting mode 512a or the vertical line rotation direction setting mode 513a. Rotation of the laser 410a and the vertical line laser 410b is performed.

As described above, the basic technical idea of the present invention is to automatically measure the ceiling height, irradiate the center line to the ceiling, and automatically adjust the lens angle according to the horizontal line separation distance value and the vertical line separation distance value input by the operator. It can be seen that to provide a laser level device for the ceiling irradiated at a predetermined interval.

Of course, various modifications are possible by those skilled in the art within the basic technical scope of the present invention, and therefore, the scope of the present invention should be interpreted within the claims made to include various modifications. will be.

1: ceiling 100: main frame
200: distance measuring instrument 300: center line laser
301: center line 400a: horizontal line forming body
400b: vertical line forming body 401a: horizontal line
401b: vertical line 410a: horizontal line laser
410b: vertical line laser 411: light source
412: light diffusing lens 412a: horizontal line forming groove
412b: vertical line forming groove 413: lens rotation actuator
500: input panel 501a: horizontal line separation distance value
501b: Vertical line separation distance value 501: Control panel
502: remote control 510: analog input
511: manual switching mode 511a: manual mode switching mode
512: Horizontal line rotation direction setting switch 512a: Horizontal line rotation direction setting mode
513: vertical line rotation direction setting switch 513a: vertical line rotation direction setting mode
514: rotation angle fine adjustment knob switch 514a: rotation angle fine adjustment mode
520: digital input unit 521: keypad
522: touch pad 700: controller
701: rotation angle value 800: horizontal support
801: support 810: holder
820: horizontal indicator 830: length adjustment lever

Claims (5)

Body frame placed on the bottom surface;
A distance measuring device disposed on an upper center of the main body frame and configured to automatically measure a ceiling height by detecting a wave body before reflection after irradiating a wave body to a ceiling;
A centerline laser disposed to be spaced apart from each other in the x-axis direction and the y-axis direction based on the position of the distance meter, and irradiating a cross-shaped center line to the ceiling;
A horizontal line consisting of one or more horizontal line laser spaced apart from side to side in the x-axis direction of the center line laser, the horizontal line rotates at a predetermined angle and irradiates the horizontal line at a predetermined interval symmetrically with respect to the center line on the ceiling Formation;
The vertical line consists of one or more vertical line lasers spaced up and down spaced in the y-axis direction of the center line laser, and rotates at a set angle to irradiate vertical lines at regular intervals vertically and symmetrically with respect to the center line on the ceiling. Formation;
An input panel disposed at a setting position and configured to set a horizontal line separation distance value and a vertical line separation distance value;
And a controller configured to control the horizontal line forming body and the vertical line forming body to rotate by receiving the horizontal line and the vertical line separation distance values and calculating a rotation angle value.
The main body frame is further provided with an analog input unit,
The analog input unit,
A manual switching mode to switch to manual mode when ON is set and to switch to automatic mode when OFF is set;
A horizontal line rotation direction setting switch for rotating the horizontal line laser in the selected rotation direction;
A vertical line rotation direction setting switch for rotating the vertical line laser in the selected rotation direction;
And a rotation angle fine adjustment knob switch for adjusting a distance between the horizontal line and the vertical line by finely adjusting the rotation angle of the horizontal line laser or the vertical line laser. The method of claim 1,
The controller,
A manual mode switching mode to switch to a manual mode when the manual switch is set to ON and to switch to an automatic mode when the switch is set to OFF;
A horizontal line rotation direction setting mode to perform rotation of the horizontal line laser in a selected rotation direction when the manual switching mode is set on;
A vertical line rotation direction setting mode to perform rotation of the vertical line laser in a selected rotation direction when the manual switching mode is set on;
Fine adjustment of the rotation angle to perform the rotation of the horizontal line laser and the vertical line laser in accordance with the set value of the rotation angle fine adjustment knob switch in the rotation direction transmitted in the horizontal line rotation direction setting mode or vertical line rotation direction setting mode Ceiling laser level device characterized in that it is operated in mode. The method of claim 2,
The horizontal line forming body,
And a plurality of pairs of left and right symmetrically symmetrical directions in the x-axis direction of the center line laser, and each pair of rotation angle values are individually calculated according to a horizontal line separation distance value. The method of claim 2,
The vertical line forming body,
And a plurality of pairs of upper and lower symmetrical pairs in the y-axis direction of the center line laser, and each pair of rotation angle values are calculated separately according to the vertical line separation distance value. The method of claim 1,
The horizontal line forming body and the vertical line forming body,
A light source body for irradiating light;
A light diffusion lens surrounding the light source body and having a horizontal line forming groove or a vertical line forming groove formed thereon;
And a lens rotation actuator connected to the light diffusing lens and configured to rotate the light diffusing lens by receiving a rotation angle value from the controller.

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