KR200176792Y1 - A laser leveler with bracket - Google Patents

Abstract

The present invention relates to a laser leveler combined with a bracket for measuring the horizontal degree of laser light by coupling the bracket to a laser leveler having a pendulum structure for measuring the vertical degree of the laser light.

The constitution of the present invention comprises: a laser diode which is arranged with the instrument central axis of the internal unit as the horizontal central axis, and generates a primary beam through laser emission by flowing a large forward current to the PN junction of the diode by an input signal of a button; A lens unit arranged along a horizontal center axis and focusing the primary beam output from the laser diode; A prism arranged along a horizontal center axis and reflecting laser light focused by the lens unit to output a secondary beam; A motor arranged along a horizontal center axis to rotate the prism; It is attached to the first end and the second end of the horizontal center axis is made of a bracket for measuring the vertical degree by adjusting the horizontal degree.

The effect of this design is to use a simple bracket on the pendulum-level laser leveler for horizontal accuracy measurement, to increase the accuracy by reducing the machining and assembly errors, to reduce the power of the laser, and to separate systems By not using it, it is possible to provide a laser leveler incorporating a bracket that can improve economics.

Description

Laser Leveler with Bracket

Article 1 is an internal configuration diagram of a conventional laser leveler,

Figure 2 shows a laser laser leveler coupled to the bracket according to an embodiment of the present invention,

Figure 3 (a) shows the left side of the bracket according to an embodiment of the present invention,

Figure 3 (b) shows the internal structure of the bracket according to an embodiment of the present invention,

Figure 3 (c) shows the right side of the bracket according to an embodiment of the present invention,

4 shows a laser leveler incorporating a bracket comprising a bubble tube and a knob according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10. 30: laser leveler body 40: bracket

11, 31: laser diode 12, 32: lens unit

14, 33: prism 15, 34: motor

42: leveling knob 44: bubble tube

The present invention relates to a laser leveler in which a bracket is coupled. In particular, a bracket is coupled to a laser leveler having a pendulum structure that measures the horizontal level of the laser light, thereby measuring the vertical degree of the laser light. The bracket relates to a laser leveler coupled.

Hereinafter, a conventional laser leveler will be described with reference to the accompanying drawings.

1 is an internal configuration diagram of a conventional laser leveler.

As shown in FIG. 1, the configuration of a conventional laser leveler is

A laser diode 11 for generating a primary beam through laser emission by flowing a large forward current through the PN junction of the diode by the input signal of the button;

A lens unit 12 for focusing the primary beam 16 output from the laser diode 11;

A first prism 14 for outputting the secondary beam 16 by reflecting the laser light focused by the lens unit 12;

A first motor 15 for rotating the first prism 14;

A second prism 21 which receives the secondary beam 16 output from the first prism 14 and reflects the secondary beam 16 to output the tertiary beam 23;

It consists of a second motor 22 for rotating the second prism 21.

The operation of the conventional laser leveler by the above configuration is as follows.

Leveler refers to a level surveying instrument that measures horizontal and vertical accuracy. The vertical and horizontal levels are measured at the construction site by using a weight, and the horizontal and vertical levels are measured using a bubble tube. Measuring the accuracy is called a laser leveler.

In the case of the conventional laser leveler for measuring the horizontal degree, it is common to obtain the desired horizontal level by adjusting the horizontal level of the base surface in a state where the parts are assembled on the base plate.

In this case, to measure the vertical degree, the secondary beam is rotated again using a separate prism and a motor to obtain a desired tertiary beam.

In FIG. 1, when the laser diode 11 flows a large forward current to the PN junction of the diode by the input signal of the button to generate the primary beam through laser light emission, the lens unit 12 causes the laser diode 11 to be described above. Focusing the primary beam 16 output from the, and the first prism 14 reflects the laser light focused by the lens unit 12 to output the secondary beam (16).

At this time, the first motor 15 rotates the first prism 14, and the second prism 21 receives the secondary beam 16 output from the first prism 14 and reflects it. The third beam 23 is output, and the second motor 22 rotates the second prism 21.

Therefore, the horizontal and vertical degrees are measured by the secondary beam and the tertiary beam. Here, the second prism 21, the second motor 22, and the tertiary beam 23 are separate systems as auxiliary devices 20 for vertical use, and are attached to the laser leveler main body 10 to measure vertical accuracy. Done.

However, the above-described conventional laser leveler has a possibility of processing and assembly errors due to the manufacture and use of a separate system, the accuracy is lowered, the power of the laser is lowered by using a third beam through the prism, and also There is a problem in that a lot of parts are required to manufacture the system and the price increases.

Therefore, the object of the present invention is to solve the above-mentioned problems, and by using the bracket to measure the vertical degree, increase the accuracy by reducing the machining and assembly error, and do not use the third beam does not drop the laser power. To provide a laser leveler combined with a bracket that can improve economics by not using a separate system.

As a means for achieving the above object, the constitution of the present invention is

A laser diode which is arranged with the instrument center axis of the internal unit as a horizontal center axis and generates a primary beam through laser emission by flowing a large forward current to the PN junction of the diode by an input signal of a button;

A lens unit arranged along the horizontal center axis and focusing the primary beam output from the laser diode;

A prism arranged along the horizontal center axis and reflecting the laser light focused by the lens unit to output a secondary beam;

A motor arranged along the horizontal center axis to rotate the prism;

It is attached to the first end and the second end of the horizontal center axis is made of a bracket for measuring the vertical degree by adjusting the horizontal degree.

Referring to the accompanying drawings, the most preferred embodiment which can easily implement this invention by the above configuration is as follows.

2 shows a laser coupled laser leveler with a bracket according to an embodiment of the present invention,

Figure 3 (a) shows the left side of the bracket according to an embodiment of the present invention,

Figure 3 (b) shows the internal structure of the bracket according to an embodiment of the present invention,

Figure 3 (c) shows the right side of the bracket according to an embodiment of the present invention,

4 shows a laser leveler incorporating a bracket comprising a bubble tube and a knob according to an embodiment of the present invention.

As shown in the accompanying Figure 4, the configuration of the laser leveler coupled to the bracket according to an embodiment of the present invention,

A laser diode 31 arranged with the instrument center axis 41 of the internal unit as a horizontal center axis and generating a primary beam through laser emission by flowing a large forward current to the PN junction of the diode by an input signal of a button;

A lens unit 32 arranged along the horizontal center axis and focusing the primary beam 35 output from the laser diode 31;

A prism 33 arranged along the horizontal center axis and reflecting the laser light focused by the lens unit 32 to output a secondary beam 36;

A motor 34 arranged along the horizontal center axis to rotate the prism 33;

A bracket (40) attached to the first end (AA) and the second end (BB) of the horizontal center axis to measure the vertical degree by adjusting the horizontal degree;

A horizontal adjustment knob 42 placed on the lower left side of the bracket 40 to finely adjust the movement of the bracket, thereby adjusting the horizontal degree;

Located on the base surface 43 of the bracket 40, and consists of a bubble tube 44 for measuring the horizontal degree.

The operation of the laser leveler coupled to the bracket according to the embodiment of the present invention by the above configuration is as follows.

In FIG. 2, a clock weight structure is employed to measure the horizontal accuracy, and a separate simple bracket 40 is used to measure the vertical accuracy. The watch structure maintains the vertical degree by the weight of the internal unit, and the secondary beam 36 reflected from the prism 33 maintains the horizontal degree.

Therefore, the mechanical central axis 41 of the inner unit is basically aligned with the optical axis. By using the above properties to install the bracket 40 to maintain the parallel to the internal unit to adjust the horizontal degree of the bracket in this state the secondary beam 36 reflected through the prism to maintain the vertical degree.

In addition, as shown in FIG. 3 (b), by making a bracket in which the horizontal axis and the base surface are parallel and providing a bubble tube 44 capable of measuring the horizontal degree on the base surface, horizontal adjustment is possible. The left side of the bracket is shown, and FIG. 3 (c) shows the right side of the bracket, and a horizontal adjusting knob 42 is attached to the lower end.

Accordingly, when the bracket 40 is coupled to the main body 30 of the laser leveler as shown in FIG. 4, the base surface of the bracket 40 is parallel to the optical axis, which is a horizontal center axis, and is reflected by a prism. Is perpendicular to the base plane. At this time, by adjusting the horizontal degree of the bracket base surface it is possible to measure the desired vertical degree.

At this time, the first end AA of the bracket 40 is fixed to the right side of the horizontal center axis 41, and the second end BB is of the laser level through the lower hole CC of the laser leveler main body 30. It will be coupled to the left side of the body. As a result, the vertical degree can be measured by laying down the central axis of the layer leveler of the clock structure for measuring the horizontal degree.

In other words, in the laser leveler in which the bracket is coupled with reference to FIG. 4, the laser diode 31 is arranged with the instrument center axis 41 of the internal unit as the horizontal center axis, and the input signal of the diode A large forward current flows through the PN junction to generate a primary beam through laser emission, and the lens unit 32 is arranged along the horizontal center axis, and collects the primary beam 35 output from the laser diode 31. Belongs.

The prism 33 is arranged along the horizontal center axis, and reflects the laser light focused by the lens unit 32 to output the secondary beam 36. At this time, the motor 34 is arranged along the horizontal center axis, and rotates the prism 33.

The bracket 40 is attached to the first end AA and the second end BB of the horizontal center axis, and includes a horizontal adjusting knob 42 and a bubble tube 44, and adjusts the horizontal degree to a vertical degree. Will be measured. At this time, the horizontal adjustment knob 42 is placed on the lower left of the bracket 40, by finely adjusting the movement of the bracket, to adjust the horizontal degree, the bubble tube 44 is the base of the bracket 40 Located on the surface 43, the horizontal degree is measured.

As a result, the bracket 40 may adjust the horizontal degree through the bubble tube 44 and the horizontal adjusting knob 42 and limit the dispersion angle of the laser light while measuring the vertical degree of the secondary beam 36.

Therefore, the effect of this design, which operates as described above, uses a simple bracket on the pendulum laser leveler for measuring horizontal accuracy, measures the vertical accuracy, increases accuracy by reducing processing and assembly errors, and reduces the power of the laser. In addition, it is possible to provide a laser leveler combined with a bracket that can improve economics by not using a separate system.

Claims (5)

In the laser leveler, The laser diode is arranged with the instrument center axis of the internal unit as the horizontal center axis and generates a primary beam through laser emission by flowing a large forward current to the PN junction of the diode by the input signal of the button. A lens unit arranged along the horizontal center axis and focusing the primary beam output from the laser diode; A prism arranged along the horizontal center axis and reflecting the laser light focused by the lens unit to output a secondary beam; A motor arranged along the horizontal center axis to rotate the prism; The bracket is coupled to the laser beam leveler, characterized in that the bracket is attached to the first end and the second end of the horizontal center axis, the horizontal degree is adjusted to measure the vertical degree. The method of claim 1, wherein the bracket is The bracket is coupled laser leveler, characterized in that it further comprises a horizontal adjustment knob for adjusting the level of movement by finely adjusting the movement of the bracket. The method of claim 2, wherein the knob, The laser leveler is coupled to the bracket, characterized in that placed on the lower left of the bracket. The method of claim 1, wherein the bracket is The bracket is coupled laser leveler, characterized in that it further comprises a bubble tube for measuring the horizontal degree. According to claim 4, wherein the bubble tube, The bracket is coupled to the laser leveler, characterized in that attached to the base surface of the bracket.