DE202016003907U1 - Round hole theory - Google Patents

Abstract

Round-hole gauge having in a frame 1, a first rotatable disc 2, which has an eccentrically adjustable receiving device for a cutting tool 5, as preferably a further rotatable smaller diameter second disc 3, which has a receiving device for a cutting tool 5 in the form of a recess , wherein this further smaller second disc 3 is arranged eccentrically in the first disc 2, wherein preferably this second disc 3 at least one receiving device for a cutting tool 5 in the form of a recess which can be arranged through the center or directly to the center of the first disc 2 or the second disc 3 may also be formed as a virtual disc and thus be an integral part of the first disc 2 and on this any number of recesses, so as many as to find space to accommodate a cutting tool 5, preferably circular, or be arranged first turn bare disc has an oval recess 6 (downwardly open or closed) from the center to the edge of the first disc, wherein the oval recess 6 has an adjustable along the oval recess 6 receiving device for a cutting tool 7.

Description

The invention relates to a round hole gauge, or Rundlochschneidelehre.

Hole saws are known which are used in wood, insulation, plasterboard or plastic holes to install. The disadvantage is that for each hole a separate saw blade is necessary and because the saw blades are not available in any size, not every hole of any diameter can be made. It is particularly difficult to attach larger diameter holes in metal with hole saws, since a conventional drill is no longer sufficient and the saw blades must also be of special quality.

It is an object of the invention to provide a device that improves the state of the art and in particular allows already existing cutting tools, such as milling, drills, jigsaws, angle grinders to make holes of any diameter.

The invention relates to a round hole gauge having a first rotatable disc in a frame having an eccentrically adjustable receiving device for a cutting tool, as preferably a further rotatable smaller diameter second disc having a receiving device for a cutting tool in the form of a recess wherein this smaller second disc is arranged eccentrically in the first disc, wherein preferably this second disc at least one receiving device for a cutting tool in the form of a recess which can be arranged through the center or directly to the center of the first disc or the second disc is firmer Part of the first disc and on this preferably marked as a circle having a plurality of receiving devices for a cutting tool in the form of preferably circularly arranged recesses or the first rotatable disc has an oval recess (down offe n or closed) from the midpoint to the edge of the first disc, wherein the oval recess has an adjustable receiving device for a cutting tool arranged along the oval recess.

The round hole gauge according to the invention has a frame whose base can have any desired shape, which is preferably rectangular, but can also be circular or polygonal. The frame is preferably made of glass, such as quartz glass, wood, plastic or metal. The frame is so large that it can accommodate the first disc almost positively, but so that there is still enough play, so that the first disc, which is preferably circular, can still be rotated. In the edge of the frame are still preferably integrated rolling bearings, which are installed in the frame so that they run in an axis which is perpendicular to the surface of the frame and are integrated into the frame, that only a small surface of the outside of the bearing with the first disc comes into contact, so the rolling bearing runs with its inner sliding surface, so the sliding surface with the smaller diameter inside the frame, wherein the axis of rotation is perpendicular to the surface of the frame and the outer surface of the rolling bearing protrudes just so far from the scope of the frame out, in which the first disc runs, so that the first disc is supported by the preferably 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 rolling bearings, so that the first disc runs smoothly, without slowed down and runs around and thus has only one degree of freedom, namely the rotation about the axis of the first disc.

It is also possible that in the frame along the circumference, which receives the first larger disc, balls are arranged, which are supported on the disc, so that virtually a ball bearing is formed in the frame in which the first larger disc is recorded or vice versa Balls are arranged on the edge of the first disc, so that the balls are supported on the frame.

Furthermore, the first disc can also run in a rail, similar to a curtain rail. In this case, the rail is formed in a U-shaped frame, wherein the first disc has at its edge a plurality of rollers mounted in axes, which are fixed to the disc so that they can roll in the rail in the frame, preferably, these rollers are mounted in that they are pressed into the rail by spring pressure, thus preferably wheels which can run around an axis mounted on the first disk such that the wheels can rotate with the first disk in the rail on the frame. These axes are preferably mounted perpendicular to the axis of rotation of the first disc at its edge. The first disc still preferably has a handle with which it can be rotated. This may preferably be a spherical knob, which is rotatable about its own mounting axis, so that this knob rotates in itself, that rotates about its mounting axis, when the first larger disc is rotated by means of this knob.

The round hole gauge according to the invention is attached to the cutting of a round hole on the workpiece into which a round hole is to be cut. The attachment of the round hole gauge is preferably carried out by means of screw clamps, vacuum cups, nails, screws, adhesives, such as adhesive compounds, which are preferably detachable again, it may also be adhesive tape, or Glue dots, which can be detached again from the carrier object, preferably it can also be Velcro fasteners, which are fastened in preferably sensitive carrier objects by means of belts, straps, ropes.

The first disc has an eccentrically adjustable receiving device for a cutting tool, that is, that the recording device for a cutting tool on a straight line from the center of the first disc is adjustable to the outer edge or the center of the eccentrically adjustable recording device for a cutting tool in a semicircle , or in a circle, preferably at most the center of the first disc with the at the outer edge, so the circumference, this semicircle, or this circle, arranged center of the eccentrically adjustable receiving device for a cutting tool cuts, preferably with the proviso that this circle itself does not extend over more than half or over more than a quarter of the area of the first pane.

This first rotatable disc preferably has a further rotatable smaller diameter second disc, which has a receiving device for a cutting tool in the form of a recess, said smaller second disc is arranged eccentrically in the first disc, preferably this second disc at least one receiving device for a cutting tool in the form of a recess which can be arranged through the center or directly to the center of the first disc, ie the center of the recess, which is preferably arranged on the edge of the second disc, preferably intersects the center of the first disc, that is the center of the first larger disk may preferably be congruent with the center of the recess of the second smaller disk (in this case, the round hole to be cut out is as large as the diameter of the preferably used cutter) or the center of the Aussp Arung the second smaller disc is preferably immediately below the center of the first larger disc, ie closer to the edge of the first disc. Depending on where the recess for receiving a cutting tool in the second disc is arranged, which is arranged in the first disc, wherein this adjustment of the ausschnechnenden diameter by rotating the second disc in the first disc is then by turning the first Disc which entrains the second disc, which is detected in the first disc and thus rotated with the first disc with; since arranged in the first disc; Then, the circumference of the round hole is described, which is to be cut, so the round hole to be cut, the larger, the farther the recess for receiving a cutting tool from the center of the first disc is removed, so if the recess for receiving a Cutting tool is located directly in the center of the first disc, the round hole that is to be cut, the smallest, when the recess for receiving a cutting tool farthest from the center of the first disc is removed, ie directly on the outer diameter of the first disc, ie Edge of the first disc is arranged, the round hole, which is to be cut out, has the largest diameter. The second smaller, eccentrically arranged in the first larger disc second disc can be adjusted by turning this second disc by preferably a gear drive, preferably with worm drive, continuously to any desired diameter of a round hole to be cut out. It is also possible to adjust the receiving device for a cutting tool preferably at defined intervals, via a ratchet wheel in conjunction with a pawl or a ring gear, rack, with a supported against a spring pin engages in a ring gear, rack, so forms a kind of ratchet drive.

The second disc may also be formed as a virtual disc and thus be an integral part of the first disc and on this any number of recesses, so as many as to find space to accommodate a cutting tool, preferably circular, be arranged, preferably with the proviso, that they are arranged eccentrically to the center of the first disc or on the first disc are distributed over the entire disc recesses for receiving a cutting tool, each describe a different orbit to the center of the first disc, so to speak give a different diameter, preferably with the proviso that no recess can be mirrored by a mirror axis passing through the center of the first disc to a lying on the other side of the playing axis recess. Thus, in contrast to the embodiment described above, the diameter of a round hole which is to be cut out can not be steplessly adjusted to any desired diameter, but only in the diameter resulting from the arrangement of the recess for receiving a cutting tool in the first pane.

In a preferred embodiment, this second rotatable disc can also have, in addition to the other recess, an oval recess (open or closed downwards) from the center to the edge of the disc, the oval recess being arranged along the oval recess having adjustable receiving device for a cutting tool. This adjustable pick-up device for a cutting tool may be a circular or rectangular carrier in which a cutting tool can be guided. This carrier, in which a cutting tool can be guided, can be adjusted continuously within a rail. It is also possible to continuously adjust the carrier in which a cutting tool can be guided by a gear drive, preferably with a worm wheel. It is also possible to adjust the receiving device for a cutting tool, preferably at defined intervals, via a ratchet wheel in conjunction with a pawl or a ring gear, rack, with a bolt supported against a spring in a sprocket, rack engages, so forms a kind of ratchet drive. By arranging this support, the diameter of a round hole to be cut out is determined, that is, the farther the support in the oval recess is located from the center of the second disk, the larger the diameter of a round hole to be cut out. By turning the first disc in its frame, the diameter of a round hole to be cut out is then cut out, so preferably a cutter is placed in the carrier and the desired diameter is obtained by sliding the carrier with recess for receiving a cutting tool in the oval recess set. After the mill has been put into operation, the first disc is rotated 360 ° to cut out a round hole of the desired diameter. This recess in the first disc can preferably have a measuring scale with which the diameter can be set, which is desired by a mark is present on the carrier, in which a cutting tool can be guided, which coincides with a mark on the measuring scale on the disc, with the desired diameter, bring cover. Cutting tools are preferably a milling cutter, a drill, a saw, such as preferably a jigsaw, an angle grinder, with a milling cutter being preferred. With this arrangement, it is easier to cut a countersunk hole or blind hole, so a sinking. This is done, for example, in that the outer diameter of the counterbore is adjusted by turning the second disc to the smallest diameter of the counterbore, so the center of the center is congruent with the center with the recess for receiving a cutting tool disposed at the edge of the second disc is and the oval recess is provided with a stop which forms the outer diameter of the desired counterbore. Then, the cutting tool can be in the oval recess from the center of the first disc, which also forms the center of the diameter of the desired counterbore, work from the smaller diameter to the stop, which forms the outer diameter, namely step by step by moving in the mill out the oval recess from the inside to the outside and the countersunk hole evenly at the desired depth.

The first rotatable disc may also have an oval recess (downwardly open or closed) from the midpoint to the edge of the first disc, the oval recess having an adjustable receptacle for a cutting tool disposed along the oval recess. This adjustable pick-up device for a cutting tool may be a circular or rectangular carrier in which a cutting tool can be guided. This carrier, in which a cutting tool can be guided, can be adjusted continuously within a rail. It is also possible to continuously adjust the carrier in which a cutting tool can be guided by a gear drive, preferably with a worm wheel. It is also possible to adjust the receiving device for a cutting tool, preferably at defined intervals, via a ratchet wheel in conjunction with a pawl or a ring gear, rack, with a bolt supported against a spring in a sprocket, rack engages, so forms a kind of ratchet drive. By arranging this support, the diameter of a round hole to be cut out is determined, that is, the farther the support in the oval recess is located from the center of the first disk, the larger the diameter of a round hole which is to be cut out. By rotating the first disc in its frame, the diameter of a round hole to be cut out is then cut out, so preferably a cutter is placed in the carrier and the desired diameter is made by sliding the carrier with recess for receiving a cutting tool in the oval recess set. After the mill has been put into operation, the first disc is rotated 360 ° to cut out a round hole of the desired diameter. This recess in the first disc can preferably have a measuring scale with which the diameter can be set, which is desired by a mark is present on the carrier, in which a cutting tool can be guided, which coincides with a mark on the measuring scale , with the desired diameter, bring to cover. Cutting tools are preferably a milling cutter, a drill, a saw, such as preferably a jigsaw, angle grinders, with a milling cutter being preferred.

In this first larger disc with the oval recess so even the second smaller disc described above may only have the oval recess or the oval recess and additionally the recess at the edge of the second smaller disc.

In a preferred embodiment, the whole round hole gauge may be wholly or partly, but preferably the first, large disk of a material that is transparent, such as preferably mineral glass, plastic, such as Plexiglas. This makes it possible to precisely align the round hole gauge on a support object into which a round hole is to be cut.

If the round hole gauge is not transparent, a transparent sheet, a marking sheet, preferably made of transparent plastic can be inserted in the round hole gauge, which has a plurality of circles with different diameters, the size of which is indicated and a cross in the middle to the center To mark the circles, so that the round hole gauge is aligned with the firmly inserted marker sheet exactly on the spot, ie the center of the desired round hole, on the object in which the desired round hole is to be cut.

In a preferred embodiment, the round hole gauge preferably has a measuring scale for arranging the round hole gauge and preferably a measuring scale on the first larger disc along the circumference which describes the second smaller disc on which the size of the diameter is indicated when the cutting tool is arranged at this point is made by a mark on the first disc with a mark on the second disc is made to coincide.

characters

Fig. 1

1 shows the round hole gauge according to the invention the frame 1 and the first bigger disc 2 in the frame 1 is rotatably mounted and ball bearings 4 with the first larger disc 2 is rotatable, being in this first larger disc 2 a second smaller disc 3 is arranged eccentrically, which is a receiving device for a cutting tool 5 has and is rotatable.

Fig. 2

2 shows the round hole gauge according to the invention the frame 1 and the first bigger disc 2 in the frame 1 is rotatably mounted and ball bearings 4 with the first larger disc 2 is rotatable, being in this first larger disc 2 any number of picking devices for a cutting tool 5 eccentric to the center of the first larger disc 1 has circular.

Fig. 3

3 shows the round hole gauge according to the invention with the frame 1 and the first larger disc 2 in the frame 1 is rotatably mounted and ball bearings 4 with the first larger disc 2 is rotatable and a twist grip 8th to the first larger disc 2 to turn, an eccentrically arranged (in the first disc 2 rotatable) smaller disc 3 which has an oval recess 6 (open or closed down) above the pivot point of the second smaller disc 3 up to the outer edge of this has. Also in this first larger disc 2 can be an oval recess 6 (open or closed down) above the midpoint to the edge of the first disc 2 are located, with the oval recess 6 a arranged along the oval recess adjustable receiving device 7 for a cutting tool. This adjustable picking device for a cutting tool may be a circular or rectangular carrier 7 be in which can be a cutting tool lead. This oval recess 6 can be as shown here, only in the smaller disc 3 (The here still additionally a receiving device for a cutting tool 5 whose center is exactly with the pivot point of the larger disc 2 covers) or even in the first larger disc 2 are located.

Fig. 4

4 shows the round hole gauge according to the invention the frame 1 and the first bigger disc 2 in the first frame 1 is rotatably mounted, and ball bearings 4 with which the first larger disc 1 is rotatable, a second smaller disc 3 which has an oval recess 6 (open or closed down) from the center of the first larger disc 2 or from the edge of the second smaller disc 3 to over the pivot point of the second smaller disc 3 having. In the oval recess 6 is an adjustable cradle 7 arranged in which can be a cutting tool lead. This adjustable picking device for a cutting tool may be a circular or rectangular carrier 7 be. This oval recess 6 can also be added in the first larger disc 2 be arranged, which over the midpoint to the outer edge of the first larger disc 2 leads.

Claims (7)

Round hole gauge, in a frame 1 a first rotatable disc 2 comprising an eccentrically adjustable receiving device for a cutting tool 5 has, as preferably another rotatable smaller diameter second disc 3 comprising a receiving device for a cutting tool 5 in the form of a recess, this further smaller second disc 3 eccentric in the first disc 2 is arranged, preferably this second disc 3 at least one receiving device for a cutting tool 5 in the form of a recess through the center or directly to the center of the first disc 2 is arrangeable or the second disc 3 can also be designed as a virtual disc and thus an integral part of the first disc 2 and on this any number of recesses, so as many as to find space to accommodate a cutting tool 5 , preferably circular, or the first rotatable disc has an oval recess 6 (open or closed downwards) from the center point to the edge of the first disc, with the oval recess 6 one along the oval recess 6 arranged adjustable receiving device for a cutting tool 7 having. Round hole gauge according to claim 1, characterized in that the frame with screw clamps, vacuum cups, nails, screws, adhesives can be fixed. Round hole gauge according to claim 1 or 2, characterized in that the materials wholly or partly, which has the round hole gauge, are transparent. Round hole gauge according to one or more of claims 1 to 3, characterized in that the round hole gauge has a measuring scale for the arrangement of the round hole gauge. Round hole gauge according to one or more of claims 1 to 4, characterized in that the receiving device for a cutting tool 5 in the second rotatable smaller circle 3 or in the oval recess is infinitely adjustable or at defined intervals. Round hole gauge according to one or more of claims 1 to 5, characterized in that the adjustment of the receiving device for a cutting tool 5 infinitely via a gear drive is feasible. Round hole gauge according to one or more of claims 1 to 6, characterized in that the adjustment of the receiving device for a cutting tool 5 via a ratchet wheel in conjunction with a pawl or a sprocket, rack, wherein a bolt supported against a spring in a sprocket, rack is feasible.

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