JP2008107130A - Laser head for laser marker - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a laser marker capable of showing a rail-square on a ceiling, and allowing a laser point appearing on a laser line to appear on a periphery of the height of a worker's eye on a wall surface. <P>SOLUTION: In a laser head 40 having a rod lens 20 for allowing laser light from a semiconductor laser 14 to pass, and irradiating an object with the laser line; and a space 26 provided adjacently to the rod lens 20, for irradiating the object with the laser point with the laser light from the semiconductor laser 14, a mirror 42 for changing a traveling direction of the laser light for radiating the laser point 44 is provided in the space 26. Hereby, the laser point 44 can be irradiated at a desired height of the object. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a laser head for a laser marking device that irradiates a laser line and a laser point.

  2. Description of the Related Art Conventionally, a laser marking device that projects a horizontal laser line or a vertical laser line using a laser beam onto a wall surface, a ceiling, or the like during construction work of a house or the like has been used. The laser marking device is installed at a predetermined position inside and outside, irradiates a wall surface with a laser line, and performs marking as a mark on the wall surface based on the laser line.

  When the distance from the installation position of the laser marking device to the wall surface that irradiates the laser line is short, the laser line irradiated on the wall surface can be surely seen, so the marking work on the wall surface can be done easily. it can. However, on a bright wall surface at a distance of, for example, 10 meters or more from the installation position of the laser marking device, the irradiated laser line cannot be seen. For this reason, the present applicant has filed an invention for irradiating one spot on the laser line with a focused laser point (Patent Document 1). By irradiating one point on the laser line with a focused laser point, if the laser point can be seen even if the laser line is not visible, it can be seen that the laser line passes through the position of the laser point. If a laser beam receiver that detects the laser line is used depending on the position of the laser point, the position of the laser line can be easily recognized, and the wall surface or the like can be marked as a mark.

  Here, the technique of patent document 1 which irradiates a laser point on a wall surface with a laser line is demonstrated based on FIG. The laser marking device 10 is equipped with one or more horizontal laser heads 12 and one or more vertical laser heads 12 as necessary. The laser head 12 has the same configuration as that for the horizontal direction and that for the vertical direction. The laser head 12 linearly irradiates a wall surface or the like with a semiconductor laser 14 as a light source, a lens unit 18 that is made up of a plurality of lenses 16a, 16b, and 16c, and a laser beam from the semiconductor laser 14. A rod lens 20 serving as a laser line generating means, a first housing 22 for holding the semiconductor laser 14 and the lens unit 18, and a second housing 24 for holding the rod lens 20.

  In the conventional laser head 12, the laser light that has passed through the lens unit 18 from the semiconductor laser 14 goes out of the laser head 12 only through the rod lens 20 and irradiates the target wall surface with a laser line. Met. The technique of Patent Document 1 that irradiates a laser point in addition to the laser line forms a slit or space 26 as a laser point generating means at a position adjacent to the rod lens 20 in the second housing 24 (FIGS. 3 and 4). ). Laser light that has passed through the lens unit 18 from the semiconductor laser 14 passes through the rod lens 20 and the space 26, passes through the rod lens 20 and becomes a straight line, and a laser point 30 that passes through the space 26 and becomes a point. (FIG. 3). If the distance from the laser marking device 10 to the wall surface 32 is long or the vicinity of the wall surface 32 is a bright place, the straight laser line 28 may not be reflected on the wall surface 32. Even when such a laser line 28 is not reflected on the wall surface 32, the laser point 30 where the light is concentrated can appear on the wall surface 32.

JP 2000-28359 A

  A laser head 12 for emitting a laser beam in the vertical direction is attached to the laser marking device 10 at an elevation angle that is approximately 35 degrees above the horizontal plane. The laser line 28 irradiated from the laser head 12 attached to the laser marking device 10 at an elevation angle of about 35 degrees irradiates the laser line across the wall surface and ceiling at an expansion angle of about 140 degrees.

  Generally, two or more vertical laser heads 12 are attached to the laser marking device 10. The reason why the laser marking device 10 includes two vertical laser heads 12 is as shown in FIG. 5, for example, from the first vertical laser head 12 (not shown in FIG. 5). The wall surface 32a is irradiated with the first laser line 28a, the second laser line 12b is irradiated from the second vertical laser head 12 to the right wall surface 32b, and the first laser line 28a and the second laser line are irradiated on the ceiling 34. This is because it is necessary to make an intersection (Ogane) 36 that intersects 28b. This large rectangle 36 is located directly above the laser marking device 10. The mounting positions of the two laser heads 12 for the vertical direction to the laser marking device 10 so that the crossing angle between the first laser line 28a and the second laser line 28b at the position of the large rectangle 36 is a right angle. Set.

  As described above, the laser head 12 for emitting the laser beam in the vertical direction is attached to the laser marking device 10 at an elevation angle of about 35 degrees. For this reason, in FIG. 5, when the distance from the laser marking device 10 to the front wall surface 32a or the right wall surface 32b is increased, the laser point 30 formed on the first laser line 28a is located on the front wall surface 32a. It appears above or on the ceiling 34. Similarly, the laser point 30 formed on the second laser line 28b appears above or on the ceiling of the right wall surface 32b. When the laser point 30 appears above the wall surfaces 32a and 32b or on the ceiling 34, it is difficult to find the position of the laser point 30, and furthermore, it is difficult to find the laser lines 28a and 28b using the laser receiver. There is a problem that it is difficult to perform the marking operation on the marks 32a and 32b.

  If the position of the laser point 30 appearing on the front wall surface 32a and the right wall surface 32b can be lowered downward, the operation of searching for the laser lines 28a, 28b and the operation of marking the wall surfaces 32a, 32b can be easily performed. Therefore, in order to lower the position of the laser point 30, it is conceivable to lower the elevation angle of the laser head 12 that emits the laser beam in the vertical direction from 35 degrees to, for example, about 8 degrees. However, when the elevation angle of the laser head 12 is reduced, the intersection (large rectangle) 36 where the first laser line 28a and the second laser line 28b intersect at the ceiling becomes very dark and cannot be seen.

  The present invention provides a laser marking device that ensures that a large rectangle on the ceiling can be produced and that a laser point appearing on the laser line appears in the vicinity of the eye level of the worker on the wall surface. It is for the purpose. Another object of the present invention is to facilitate adjustment of the laser point to be aligned with the laser line when the laser point is shifted from the laser line.

  A laser marking device laser head according to the present invention is provided in a laser marking device, and includes a housing, a light source, a lens unit, and a laser beam passing through the lens unit from the light source and passing through the object. A laser line generating means for irradiating a laser line to the laser line, and a laser point that is provided adjacent to the laser line generating means, and passes a laser beam that has passed through the lens unit from the light source, and places a laser point on an object. In the laser head having the laser point generating means for irradiating, the reflecting means for changing the traveling direction of the laser light passing through the laser point generating means is attached to the housing. The present invention is characterized in that the laser point generating means is a space formed in the housing adjacent to the laser line generating means, and the reflecting means is provided in the space. The present invention is characterized in that the laser line generating means is displaceably held in the housing, and two adjusting means for displacing the position of the laser line generating means are attached to the housing. . The present invention is characterized in that holding means for holding the laser line generating means in the housing so as to be displaceable is fixed to the housing, and the holding means is formed of a material that is displaced by an external force. The present invention is characterized in that a female screw is formed in the housing, and the adjusting means is a male screw that is screwed into the female screw.

  In the present invention, in the vertical laser head, the traveling angle of the laser beam for emitting the laser point is changed by the reflecting means so that the laser point is lowered. For example, it becomes possible to emit a laser point at a desired height (for example, a height of about 1.5 meters) on the wall surface about 10 meters away from the laser marking device. As a result, the laser point can appear at almost the eye level of the wall surface, the laser point can be easily found, and the time for marking the wall surface can be greatly reduced as compared with the conventional case.

  Since the direction of the laser point is changed by the reflecting means, the laser point may be shifted from the laser line, and adjustment to match the laser point with the laser line is necessary. Therefore, the reflecting means is fixed to the housing, the laser line generating means is movably held in the housing, and the position and angle of the laser line generating means with respect to the housing are finely adjusted by the two adjusting means. Thereby, the laser point can be easily matched with the laser line in a short time.

  Next, the present invention will be described with reference to the drawings. FIG. 1 is a sectional view of a laser head for a laser marking device according to the present invention. In FIG. 1, the same reference numerals as those in FIG. Two or more vertical laser heads 40 according to the present invention are attached to the laser marking device 10. Although a laser head for horizontal direction is also attached to the laser marking device 10, the description thereof is omitted here. The laser head 40 linearly irradiates a wall surface or the like with a semiconductor laser 14 as a light source, a lens unit 18 for condensing light by using a plurality of lenses 16a, 16b, and 16c, and a laser beam from the semiconductor laser 14. A rod lens 20 as a laser line generating means, a first housing 22 for holding the semiconductor laser 14 and the lens unit 18, a second housing 24 for holding the rod lens 20, and a second housing 24 1 is formed adjacent to the rod lens 20 and comprises a slit or space 26 as laser point generating means for irradiating the wall surface or the like with laser light from the semiconductor laser 14 in a dot-like manner. The slit or space 26 may be provided with transparent glass in order to prevent dust from entering. The configuration of the laser head 40 so far is the same as the configuration of the laser head 12 shown in FIG.

  In the laser head 40 of the present invention, the space 26 is provided with a mirror 42 as a reflection means for changing the angle of the laser light passing through the space 26. The mirror 42 has the same incident angle and reflection angle with respect to the normal, and the incident angle and reflection angle are 90 degrees or less. The angle of the laser beam that emits the laser point is changed by the mirror 42, and the height of the laser point 44 irradiated to the wall surface 32 can be lowered by changing the angle.

Even when the distance from the laser marking device 50 to the front wall surface 32a and the right wall surface 32b is increased, the vertical first laser line 28a is adjusted by adjusting the position and angle of the mirror 42 as shown in FIG. The laser point 44 formed above and the laser point 44 formed on the second laser line 28b in the vertical perpendicular direction can appear sufficiently lower than the laser point 30 shown in the conventional laser head 12. . By adjusting the position and angle of the mirror 42, the worker can operate on the front wall surface 32 a and the right wall surface 32 b which are about 10 meters away from the laser marking device 10 (this distance can be set as appropriate). It can appear near the eye level (about 1.5 meters high). As described above, the laser point 44 formed on the vertical laser line can be shown at the eye level of the wall surface, so that the position of the laser point 44 can be easily searched even if the laser line is not visible. It is possible to find a laser line using a laser receiver and easily perform the inking operation.

In the above description, the mirror 42 is used as the reflection means for changing the reflection angle of the laser point 44 irradiated to the wall surface 32. However, a prism may be used as the reflection means instead of the mirror 42. Even when the refraction by the prism is used, the laser point 44 formed on the vertical laser line 28 can appear near the eye level of the operator on the front wall surface 32a and the right wall surface 32b. Become. In the present invention, it is assumed that a prism is included in the reflecting means, and that “reflecting light by the prism” is included in “light reflection”.

The traveling direction of the laser light emitted from the laser point 44 is changed by the mirror 42 in the middle of the laser head 40 of the present invention. For this reason, the laser point 44 may not coincide with the laser line 28. When the laser point 44 is not on the laser line 28 and the distance from the laser marking device 10 to the wall surface 32 is short, the laser point 44 appears to be on the laser line 28, but As the distance to 32 becomes longer, the laser point 44 is clearly off the laser line 28. If the laser point 44 is not on the laser line 28, the laser line 28 cannot be easily found using a laser receiver.

Since the angle of the laser beam that emits the laser point 44 varies depending on the mirror 42, the mounting angle of the mirror 42 with respect to the second housing 24 is adjusted, and then the mirror 42 is fixed to the second housing 24 with an adhesive. However, even when the mirror 42 is fixed to the second housing 24 with an adhesive, the mounting angle of the mirror 42 with respect to the second housing 24 changes, causing a problem that the laser point 44 does not coincide with the laser line 28.

In order to eliminate this problem, the angle of the rod lens 20 with respect to the second housing 24 is adjusted instead of adjusting the angle of the mirror 42. As shown in FIGS. 1 and 2, both ends of the rod lens 20 in the longitudinal direction are clamped by a receiving member 46 and a pressing member 48 as holding means. At least one of the receiving member 46 and the pressing member 48 as the holding means is formed of a flexible material that is displaced by an external force. Two holes 50 reaching the side surface of the rod lens 20 are formed in the second housing 24, and a female screw 52 is formed on the inner wall of the hole 50. A male screw 54 as an adjusting means is screwed into the female screw 52, and at least one of the two male screws 54 is pressed against the rod lens 20 to adjust the angle of the rod lens 20 with respect to the second housing 24. To do. By forming the tip of the male screw 54 in a rounded conical shape, the angle of the rod lens 20 can be easily finely adjusted and the rod lens 20 can be prevented from being damaged.

The traveling axis directions (Y) of the two male screws 54 are parallel to each other, and are set so as to be offset from the axial direction (Z) of the rod lens 20. Thus, the position and angle of the rod lens 20 with respect to the second housing 24 can be finely adjusted with the two male screws 54, and the laser point and the laser line can be easily matched.

It is sectional drawing of the laser head for laser marking devices which concerns on this invention. It is a perspective view which shows the angle adjustment mechanism of a rod lens. It is sectional drawing of the laser head for the conventional laser marking device. It is a figure which shows the positional relationship of the rod lens and space seen from the A direction of FIG. It is a perspective view which shows the laser line and laser point which are irradiated with a laser marking device.

Explanation of symbols

10 Laser Marker 14 Semiconductor Laser 18 Lens Unit 20 Rod Lens 22 First Housing 24 Second Housing 26 Space 28 Laser Line 28a First Laser Line 28b Second Laser Line 32 Wall 40 Laser Head 42 Mirror 44 Laser Point 46 Support Member 48 Holding member 52 Female screw 54 Male screw

Claims (5)

Laser line generating means for irradiating an object with a laser line passing through the lens unit from a light source, a housing, a light source, a lens unit, and a housing And a laser point generating means that is provided adjacent to the laser line generating means, and passes the laser light that has passed through the lens unit from the light source to irradiate the object with the laser point. A laser head for a laser marking device, characterized in that in the head, reflecting means for changing a traveling direction of laser light passing through the laser point generating means is attached to the housing. 2. The laser head for a laser marking device according to claim 1, wherein the laser point generating means is a space formed in the housing adjacent to the laser line generating means, and the reflecting means is provided in the space. 2. The laser ink according to claim 1, wherein the laser line generating means is movably held in the housing, and two adjusting means for displacing the position of the laser line generating means are attached to the housing. Laser head for unloader. 4. The laser ink according to claim 3, wherein holding means for holding the laser line generating means in the housing so as to be displaceable is fixed to the housing, and the holding means is formed of a flexible material that is displaced by an external force. Laser head for unloader. 4. A laser head for a laser marking device according to claim 3, wherein a female screw is formed in the housing, and the adjusting means is a male screw screwed into the female screw.

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