BG64477B1 - Device for the orientation of working tools and/or parts - Google Patents

Abstract

The device can find application in hand-operated drilling machines and for performing different assembly operations demanding the orientation of parts having cylindrical or plane surfaces. It has simple optical system, is transportable and lightweight, ensuring the potential for controlling a machining tool and/or part during operation and after its completion. The device comprises a source of a light beam (1), semi-transparent screen (2) and light-reflecting plane (3). The light beam source is laser type and is fitted either in parallel or perpendicularly towards a base axis or plane of the tool, (5) subject to orientation, and/or part (6). The semi-transparent screen (2) is fixed and at a specified distance from the source of the light beam (1). The light-reflecting plane (3) is oriented towards a base axis or plane of the machined part (6), so that at the desired orienting of the machining tool (5) and/or part towards the base axis or plane of the part, the reflected ray falls in a section of the semi-transparent screen (2) which is transparent for it.

Description

(54) ORIENTATION OF WORKING TOOLS AND / OR DETAILS

Technical field

The present invention relates to a device for orienting work tools and / or workpieces for use in hand-held drilling machines and for performing various assembly operations requiring the orientation of workpieces with cylindrical or planar surfaces.

BACKGROUND OF THE INVENTION

A device for monitoring (controlling) the accuracy of a machined profile and, accordingly, a method for performing this control is known from publication DE 3038204 A1. The device is made of a workbench with a fixed optical system consisting of a light source and optical lenses. They are arranged in such a way that the light source focuses a light beam on the workpiece. The reflected beam is deflected by deflection with a mirror to a screen with markers for obtaining an optical picture, the workpiece is positioned in a certain coordinate system, the workpiece mounted on the table is driven by two motors, and the optical picture is monitored as to whether it is obtained. deviation of the processed profile from the desired profile. By means of a typewriter connected to the control unit and an optical-to-electrical converter, the result of the control is reflected.

The known device is stationary and controls only the workpiece, while controlling only the focal planes of the workpiece. It has a sophisticated optical system and the need for software to control parts and process signals and information.

SUMMARY OF THE INVENTION

The object of the invention is to provide a device for orienting work tools and / or workpieces, which is light, portable, with simple optics and without the need for software, allowing control of work tools and / or workpieces through base axes and planes during and after work, without limiting the length of the work tool and / or workpiece, while providing the ability to process and orient large and small workpieces in a common position.

The task is solved by creating a device for orienting tools and / or parts, including a light beam source incident on a reflecting plane. According to the invention, the light source is laser and is fixed parallel or perpendicular to the reference axis or plane of the orientable tool and / or workpiece. The translucent screen is perpendicular to the axis of the beam and is fixed at a fixed distance from the light source. The retro-reflecting plane is oriented towards the reference axis or plane of the workpiece, so that when the desired orientation of the work tool and / or workpiece is relative to the reference axis or plane of the workpiece, the reflected beam falls in an area of the translucent screen that is transparent to it.

The light source and the translucent screen are mounted in a holder.

The movable handle of the drilling machine can also be fitted to the holder.

In one embodiment of the device, the light beam source is mounted such that the light beam is parallel to the axis of the orientable tool and / or workpiece and the reflecting plane is parallel to the base surface of the workpiece.

In another embodiment, the light beam source is mounted such that the light beam is parallel to the axis of the work tool and / or workpiece to be orientated, and the reflecting plane is perpendicular to the base surface of the workpiece.

Alternatively, the reflecting plane is parallel to the second reference plane of the workpiece perpendicular to the first reference plane.

In another embodiment, the light beam source is fixed to the orientable plane such that the light beam is parallel to that plane and the reflecting plane is parallel to the reference plane.

In another embodiment, the light beam source is secured to an orientable plane such that the light beam is perpendicular to that plane and the reflecting plane is perpendicular to the reference plane.

In another embodiment, the light beam source is fixed to the orientable plane such that the light beam is parallel to that plane and the reflecting plane is perpendicular to the reference plane.

In another embodiment, the light beam source is secured to an orientable plane such that the light beam is perpendicular to that plane and the reflecting plane is parallel to the reference plane.

In another embodiment, the light beam source is secured to the orientable tool such that the light beam is parallel to the axis of the instrument and the reflecting plane is perpendicular to the axis of the reference cylindrical surface.

In another embodiment, the light beam source is secured to an orientable cylindrical surface such that the light beam is perpendicular to the axis of the cylindrical surface and the reflecting plane is parallel to the reference cylindrical surface.

In another embodiment, the light beam source is secured to the orientable cylindrical surface such that the light beam is perpendicular to the axis of the cylindrical surface and the reflecting plane is located perpendicular to the axis of the base cylindrical surface.

In another embodiment, the light beam source is secured to the orientable cylindrical surface so that the light beam is parallel to the axis of the cylindrical surface and the reflecting plane is parallel to the axis of the base cylindrical surface.

It is appropriate that the reflecting plane is a mirror plane.

It is particularly appropriate for the reflecting plane to be mounted in a support capable of changing the angular position of the reflecting plane relative to the reference axis or plane.

The support may be provided with an angle gauge.

It is also possible that the reflecting plane is mounted on a support, which is a part with parallel walls.

The light source can be a laser diode.

The advantages of the device are as follows.

In addition to surfaces, it also controls the position of the axis relative to the axis, plane to axis and axis to plane, parallel, perpendicular and at any angle.

In addition to exercising control according to the invention, it is possible to orient the tools and / or parts during the machining or assembly process.

The optical system of the device is simplified, with no software required.

Also, the device is easily portable and applicable to small and large parts in common position.

Explanation of the annexed figures

Figure 1 is a schematic diagram of an orientation tool for a working tool according to the invention.

Figure 2 illustrates the mechanism of action of the device of Figure 1.

Figures 3 and 3 show embodiments of the device for perpendicular orientation of two planes relative to each other.

Figures 4 and 4a show embodiments of the device for orienting two planes relative to each other.

Figures 5,5a and 56 show an embodiment of the device for orienting cylindrical parts parallel to one another.

Figures 6a and 66 show embodiments of the device for orienting cylindrical parts perpendicular to each other.

Figure 7 illustrates an embodiment of an axis and plane orientation device parallel to one another.

Figure 7a illustrates an embodiment of an axis orientation device parallel to one plane and perpendicular to another.

Figure 8 shows an embodiment of the device useful for orienting a plurality of planes parallel to each other.

Figure 9 shows an embodiment of the device with a common holder for the movable handle of the drilling machine and the light source and the screen.

Figures 10 and 10a illustrate an embodiment of the device capable of angular rotation of the light beam source and the light reflecting plane.

Examples of carrying out the invention

The orientation tool of the work tool shown in Figure 1 consists of a light beam source 1, a translucent screen 2, and a reflecting plane 3. The light source source 1 and the screen 2 are mounted on a manual electric drilling machine so that the axis of the workpiece tool (such as a drill) 5 parallel to the light beam. The retro-reflecting plane 3, which is most suitable to be a mirror, is mounted on a reference plane of the workpiece 6 so that it is parallel to that plane.

In this embodiment, the device acts as follows. The incident beam from source 1 passes through the translucent screen 2 (for example, through a special hole punched in the screen 2) and is reflected in the mirror 3. The reflected beam is projected on the screen 2 as a point. This point moves depending on the position of the drilling machine relative to the reference plane of the workpiece 6. When the projection point of the reflected beam coincides with the opening in the screen 2, the axis of the tool is perpendicular to the reference plane 6. This position is illustrated in FIG. 2.

In the embodiment shown in FIG. 3, the light beam source and the screen 2 are housed in a holder 7 allowing them to be mounted to a plane. The axis of the light beam is parallel to the plane g. For the base plane, h, parallel to which mirror 3 is mounted, is used. In this embodiment, the device is used to orient the plane g (orientable plane) perpendicular to plane h (base plane). This type of device can be used in heavy machinery and construction.

In FIG. A way of perpendicular orientation or control of perpendicularity between planes is illustrated. Here, the axis of the light beam source 1 is perpendicular to plane h and the mirror plane 3 is mounted in a support 8 that is oriented perpendicular to plane g.

In the embodiment of the device shown in Figure 4, the holder 7 of the light beam source 1 and of the screen 2 is the same as in FIG. For. The mirror-reflecting plane 3 is mounted in a support 8 so that it is perpendicular to h. By this embodiment of the device, parallel alignment of the plane g with the plane h is achieved. It is suitable for controlling the parallelism between planes when the distance between them is short. The embodiment of the device shown in FIG. 4a is suitable for controlling the parallelism of planes that are spaced a long distance from each other. In this case, the axis of the light beam is perpendicular to the plane g and the mirror plane 3 lies in the plane h.

In the control of axis parallelism or parallel axis orientation, the embodiment of the device illustrated in FIG. 5.5a and 56. In the construction of FIG. 5, the mirror plane 3 is mounted in a support 8, orienting the mirror plane 3 perpendicular to the axis of the cylindrical surface 9. The light beam source 1 together with the screen 2 is positioned by a holder 7 such that the axis of the light beam is parallel to the axis of the light beam. the cylindrical surface 10. Similar to the arrangement of the elements of the device in the embodiment shown in FIG. 5a, the holder 15 being constructed in such a way that it can be mounted parallel to the axis of the drilling machine. In the construction of the device shown in FIG. 56, the holder 7 is secured to a cylindrical surface 10 so that the axis of the light beam is perpendicular to the axis of the cylindrical surface 10 and the mirror plane 3 is mounted in a support 11 parallel to the axis of the cylindrical surface 9. This embodiment of the device enables for parallel orientation of axes located at a great distance from each other.

The structures of FIG. 6a and 66 are used to orient the axes perpendicular to each other.

In FIG. 7 shows the use of the device for orienting and controlling the parallelism between an axis and a plane. The mirror plane 3 is perpendicular to plane g and the axis of the light beam source 1 is parallel to the axis of the tool 5. In the case of the planes g and h being perpendicular, with a slight change in the structure of the support 8 so that the mirror is positioned parallel to plane h and perpendicular to plane g, parallel to plane g and perpendicular to plane h, as shown in FIG. 7a.

In FIG. 8 shows an example of the use of the device in shipbuilding. The execution, in this figure, is relevant for all cases where the task is to arrange a large number of planes in parallel.

In FIG. 9 shows an example of mounting a light beam source 1 and a screen 2 to a drilling machine's replaceable handle 12. The handle 12 and the aforementioned elements of the device must be mounted with the possibility of changing their relative position in order to provide greater convenience for the worker.

In all embodiments of the device described above, specially designed supports 13 for the mirror 3 may be used to allow the angular orientation of the mirror 3 to be changed in relation to the workpiece 6, as shown in Figure 10. In these supports may have a built-in angle gauge.

Another way of orienting the angular plane 3 with respect to the workpiece 6 at an angle other than 0 degrees or 90 degrees is by mounting the mirror plane 3 in a support 14 with non-parallel walls, as shown in Figure 10a.

In the above described embodiments of the device in its various applications, the light source source 1 may be any suitable light source capable of producing a directional light beam. Very good results with respect to the positioning accuracy of tools and / or workpieces relative to one another are obtained when the light beam source 1 is a laser diode.

Claims (19)

Claims A device for orienting work tools and / or parts, including a light beam source incident on a reflecting plane, characterized in that the light beam source (1) is laser and is fixed parallel or perpendicular to the reference axis or plane the orientable tool (5) and / or workpiece (6), wherein the translucent screen (2) is mounted fixedly and at a certain distance from the light beam source (1) and the reflecting plane (3) is oriented to the reference axis or a plane of detail la (6) such that, with the desired orientation of the work tool (5) and / or workpiece relative to the base axis or plane of the workpiece (6), the reflected beam falls into an area of the translucent screen (2) that is transparent to it. Device according to claim 1, characterized in that the light source (1) and the translucent screen (2) are mounted in a holder (15,7). Device according to claim 2, characterized in that a movable handle (12) of the drilling machine is mounted on the holding (15). Device according to claim 1,2 or 3, characterized in that the light beam source (1) is mounted so that the light beam is parallel to the axis of the work tool (5) to be oriented and the reflecting plane (3) ) is parallel to the base surface of the workpiece (6). Device according to claim 1,2 or 3, characterized in that the light source (1) is mounted so that the light beam is parallel to the axis of the work tool (5) to be oriented and the reflecting plane (3) ) is perpendicular to the base surface of the workpiece (6). Apparatus according to claim 5, characterized in that the retro-reflecting plane (3) is parallel to the second base plane (h) of the workpiece (6) perpendicular to the first base plane (g). Device according to claim 1 or 2, characterized in that the light source (1) is fixed to the plane to be oriented (g) such that the light beam is parallel to that plane and the reflecting plane (3) is parallel to the reference plane (h). A device according to claim 1 or 2, characterized in that the light source (1) is fixed to an orientable plane (g) such that the light beam is perpendicular to that plane and the reflecting plane (3) is perpendicular to the reference plane (h). Apparatus according to claim 1 or 2, characterized in that the light source (1) is fixed to an orientable plane (g) such that the light beam is parallel to that plane and the reflecting plane (3) is perpendicular to the reference plane (h). Apparatus according to claim 1 or 2, characterized in that the light source (1) is fixed to an orientable plane (g) such that the light beam is perpendicular to that plane and the reflecting plane (3) is parallel to the reference plane (h). Device according to claim 1 or 2, characterized in that the light beam source (1) is attached to an orientable tool (5) such that the light beam is parallel to the axis of the tool (5) and the reflecting plane (3) is perpendicular to the axis of the base cylindrical surface (9). A device according to claim 1 or 2, characterized in that the light beam source (1) is fixed to an orientable cylindrical surface (10) such that the light beam is perpendicular to the axis of the cylindrical surface (10), and the reflecting plane (3) is parallel to the reference cylindrical surface (9). A device according to claim 1 or 2, characterized in that the light beam source (1) is fixed to an orientable cylindrical surface (10) such that the light beam is perpendicular to the axis of the cylindrical surface (10), and the retro-reflecting plane (3) is perpendicular to the axis of the reference cylindrical surface (9). A device according to claim 1 or 2, characterized in that the light beam source (1) is fixed to an orientable cylindrical surface (10) such that the light beam is parallel to the axis of the cylindrical surface (10) and the reflecting plane (3) is located parallel to the axis of the base cylin 5 of the drill surface (9). Apparatus according to one of Claims 1 to 14, characterized in that the reflecting plane (3) is a mirror plane. Device according to one of Claims 10 to 1, characterized in that the retro-reflecting plane (3) is mounted in a support (13) with the possibility of changing the angular position of the retro-reflecting plane (3) relative to the reference axis or plane. 15 A device according to claim 16, characterized in that the support (13) is provided with an angle gauge. Device according to one of Claims 1 to 15, characterized in that the reflecting plane (3) is mounted on a support (14) with non-parallel walls. Device according to one of the preceding claims, characterized in that the light source (1) is a laser diode.