RU203826U1 - SLOPE DRILLING CONDUCTOR - Google Patents

Abstract

The utility model relates to auxiliary devices used when working with a hand-held power tool, for example, an electric drill. The jig includes a plate with a beam, guides and two tightening devices, and also contains four guiding devices, each of which includes a slider, a guide tube, a bushing and locking elements, while the slider is designed to move longitudinally along the cutout and fix anywhere and contains an inclined hole made in its center. The guide tube is made with a pair of coaxial threaded holes located near each of its ends, has a length greater than the length of the inclined hole and the outer diameter corresponding to the diameter of the inclined hole, and is inserted into the inclined hole of the slide with the possibility of fixing in any position. The sleeve is installed in the upper part of the guide tube and is fixed to it by a pair of screws screwed into a pair of said threaded holes. The slab is made with four open cutouts, each of which has two parallel sides and is directed from the edge of the slab to its center. The beam is made in the form of a square tube, laid along the axis of symmetry of the slab and rigidly connected to it, with a cutout made near each end of the beam in the upper flange, and in the vertical walls near the lower flange - a pair of coaxial holes, the distance between which is greater than the width of the slab. Each bracing device consists of a strap and a lanyard that is installed in and across the beam. The lanyard fastening elements are located outside the beam, and a mating fastening element is installed at each end of the belt. Precise drilling of inclined holes is provided in two large wooden parts at once, located perpendicular to each other. 3 ill.

Description

The utility model relates to auxiliary devices used when working with a hand-held power tool, for example, an electric drill.

Known device for working with a hand-held power tool [1], consisting of a stand, a housing fixed to it, in which a drill is installed, and devices for setting the required drilling depth at various angles by rotating the lower part of the stand relative to its upper part.

It is also known a device [2], consisting of a stand made in the form of a spring-loaded rod with the possibility of its reciprocating movement in the guide bushings, and a device that orientates the drill bit to ensure the accuracy of drilling holes on the curved surfaces of the parts.

The disadvantages of these technical solutions are the depth of drilling limited by the stroke of the rack and the need to remove the drill from the body to replace the drills.

The closest in technical essence of the claimed utility model is a clamping device [3] for drilling inclined holes in parts of insignificant thickness, such as boards or plates, consisting of a body with replaceable guides for different drill diameters and a clamping device. The body of the device has a flat surface adjacent to the part.

The disadvantage of this technical solution is the impossibility of drilling holes in two parts at once, located perpendicular to each other.

The technical result of the claimed utility model is the ability to drill inclined holes in two large wooden parts at once, located perpendicular to each other.

The technical result is achieved by the design of a jig for drilling inclined holes, consisting of a plate, a beam, four guides and two tightening devices.

The slab has four open cutouts, each cutout has two parallel sides and runs from the edge of the slab to its center.

Each guide device includes a slider, a guide tube, a bushing and locking elements.

The slider has the ability to move longitudinally along the cutout with the possibility of fixing anywhere, there is an inclined hole in the center of the slider, while the vertical plane to which the hole axis belongs is parallel to the longitudinal axis of the cutout, the top of the inclined hole is farther from the center of the slab than its bottom.

The outer diameter of the guide tube corresponds to the diameter of the inclined hole, the length of the guide tube is greater than the length of the inclined hole, there are one or more pairs of coaxial holes near each end of the guide tube, the guide tube is inserted into the inclined hole of the slide with the possibility of fixing in any position, in the upper part of the guide tube is installed sleeve and fixed on it with a collapsible joint, the inner diameters of the guide tube and sleeve correspond to the diameters of the drills.

The beam is made in the form of a square tube, laid along the axis of symmetry of the slab and rigidly connected to it, and near each end of the beam in the upper flange there is a cutout, and in the vertical walls near the lower flange - a pair of coaxial holes, the distance between which is greater than the width of the slab, and each tightening device consists of a strap and a lanyard, which is installed inside and across the beam so that

the lanyard rods pass through a pair of said coaxial holes of the beam, and the lanyard fastening elements are located outside the beam, and a counterpart fastening element is installed at each end of the belt, the base of the plate is made with an anti-slip surface.

The essence of the utility model is illustrated by drawings, where Fig. 1 shows a general view of the conductor in isometric; in fig. 2 - a guiding device in an exploded view; in fig. 3 shows an isometric view of the fastening assembly of the tightening device to the beam.

The proposed jig includes a plate 1 and a beam 2, two tightening devices and four guiding devices (devices are not indicated in the figures).

On the plate 1 there are four open cutouts 3 with parallel sides directed from the corners of the plate 1 to its center. Along each side of each cutout 3 there is a group of threaded holes 4 arranged in one row. The base of the slab 1 has an anti-slip surface (the anti-slip surface is not indicated in the figures).

Each guide device consists of a slide 5, a guide tube 6, a bushing 7, a lock nut 8 and four screws 9.

A pair of grooves 10 is made in the slider 5, the distance between which corresponds to the width of the cutout 3, and their height corresponds to the thickness of the plate 1. Above each groove 10 there is a vertical through hole in which a screw 9 is inserted. The distance between the holes corresponds to the distance between parallel groups of threaded holes 4 ...

In the center of each slider 5, an inclined threaded hole 11 is made for installing a guide pipe 6 in it, having an external thread corresponding to the thread diameter of the inclined hole 11. The axis of the hole 11 is in a vertical plane parallel to the longitudinal axis of the cut 3. At the top of the slider 5, perpendicular to the axis of the threaded the hole 11 is made an inclined surface 12

Each slider 5 is inserted by grooves 10 into the corresponding cutout 3 with the possibility of moving along it and fixing with screws 9 into the holes of the groups of threaded holes 4, while the top of the inclined hole 11 is farther from the center of the plate than its bottom.

The length of the guide tube 6 is greater than the thickness of the slide 5. Near each end of the guide tube 6, a pair of coaxial threaded holes 13 are made. The guide tube 6 is screwed into the threaded hole 11. From above, the lock nut 8 is screwed onto it until it stops against the inclined surface 12.

The outer diameter of the sleeve 7 corresponds to the inner diameter of the pipe 6. At the end of the sleeve 7 there is a ring 14 with an outer diameter greater than the inner diameter of the guide pipe 6. Near it, on the outer surface of the sleeve 7, there is a pair of coaxial blind holes 15 equal in diameter to the screws 9. Distance to their axes from the bottom of the ring 14 is equal to the distance from the top of the guide tube 6 to the axes of the holes 13. The length of the sleeve 7 is less than the length of the guide pipe 6. The inner diameters of the pipe 6 and sleeve 7 correspond to the diameters of the drills. The bushing 7 is inserted from above into the guide tube 6 and fixed by a pair of screws 9 screwed into a pair of threaded holes 13 until it stops at the bottom of a pair of blind holes 15.

Beam 2 is a square tube. From below it has a cutout corresponding to the thickness and width of the slab 1. With this cut, it is laid on the slab 1 along the axis of its symmetry and is rigidly attached to it. A cutout is made near each end of the beam 2 in the upper flange, and a pair of coaxial holes 16 is made in the vertical walls near the lower flange, the distance between them is greater than the width of the slab 1.

Each tightening device consists of a lanyard 17 and a belt 18. Lanyard 17 is installed inside and across the beam 2. The fastening elements of the lanyard, for example, in the form of rings, are located outside the beam, and the rods of the lanyard 17 pass through a pair of coaxial holes 16. At each end of the belt 18 a counter attachment element is installed, including a hook 19.

The conductor works as follows.

The jig is in the following state before use. Each guide device is fixed by means of screws 9 screwed into the holes of the corresponding groups of threaded holes 4 closest to the corresponding corner of the plate 1. In each slide 5, a guide tube 6 is screwed into the inclined threaded hole 11, while its lower end does not protrude from it, the lock nut 8 is screwed on until it stops in the inclined surface 12. Bushing 7 is inserted into the guide tube 6 from above and fixed with screws 9 screwed into a pair of threaded holes 13 to the bottom of a pair of blind holes 15. Each turnbuckle 17 is installed in a pair of coaxial holes 16, belts 18 are removed from the rings of turnbuckles 17 ...

For drilling oblique holes in two large wooden parts at once (in the figures, the parts are not indicated), located perpendicular to each other, on the upper part having a cross-section with the upper and lower flat parallel surfaces, and above the lower part adjacent to the bottom surface of the upper part , the jig is installed with the anti-slip surface of the plate 1 down, while the beam 2 is located along the upper part. The upper part is wrapped from below with belts 18, hooks 19 are attached to the rings of lanyards 17 and pulled together, pressing the plate 1 to the upper surface of the upper part.

Next, the position of each guide device is adjusted depending on the cross-sectional dimensions of the upper part by detaching the screws 9 from the holes of the groups of holes 4 closest to the corner of the plate 1, moving the slider 5 in the grooves 10 along the cutout 3 and fixing it in the required position with screws 9 into the holes of the groups of threaded holes 4. The lock nut 8 is unscrewed upwards, the guide tube 6 is screwed down until it touches the upper part and fixed with the lock nut 8.

A cutting tool is inserted into the sleeve 7, for example, a drill with a diameter corresponding to the diameter of the rod of a connecting element, for example a directional screw, and a hole is drilled in the upper and lower parts.

Then the screws 9 are unscrewed from the pair of blind holes 15, and the bushing 7 is removed from the guide tube 6. After that, a cutting tool is inserted into the guide tube 6, for example, a drill with a diameter corresponding to the diameter of the head of the connecting element, for example a track screw, and the hole made earlier is drilled in the upper part to the required depth. Drilling operations are performed sequentially or in parallel on all guides.

At the end of drilling, the turnbuckles 17 are unscrewed, the hooks 19 are disconnected from the rings of the turnbuckles 17 and the conductor is removed from the upper part, after which the upper and lower parts are connected by screwing connecting elements into the holes, for example, track screws.

The application of the claimed technical solution using the above set of features will allow for accurate drilling of inclined holes in large wooden parts located perpendicular to each other, due to the use of the proposed construction of the conductor.

(56) Sources of information

1. USSR author's certificate for invention No. 382478 dated 24.IX.1971 "A device for working with a hand mechanized tool", authors: Solomentsev N.F., Balashov G.G., Sapronov S.P., IPC B23b 45 / fourteen. Published: bul. No. 23 dated 23.V. 1973 g.

2. RF patent for invention RU No. 2358841 "Orientation attachment for portable equipment" dated 20.06.2009, authors: Zakharova EV, Sergeev DI, Mironov KN, Budnik AP, IPC В23В 45/14, B23Q 16/12. Published: bul. No. 17 dated 20.06.2009

3. US patent No. 8029214 B2 В23В 47/28 "Portable clamping device for making blind holes" from 04.10. 2011 r.

Claims (2)

1. A jig for drilling inclined holes, including a plate with a beam, guides and two tightening devices, characterized in that it contains four guiding devices, each of which includes a slider, a guide tube, a bushing and locking elements, while the slider is made with the possibility of longitudinal movement along the cutout and fixing in any place and contains an inclined hole made in its center, located so that the vertical plane in which the axis of the said hole is located is parallel to the longitudinal axis of the cutout, and the top of the inclined hole is located farther from the center of the slab than its bottom, the guide tube is made with a pair of coaxial threaded holes located near each of its ends, has a length greater than the length of the inclined hole and the outer diameter corresponding to the diameter of the inclined hole, and is inserted into the inclined hole of the slide with the possibility of fixing in any position, and the specified sleeve is installed in the upper part guide tube and fixed on it by a pair of screws screwed into a pair of said threaded holes, and the inner diameters of the guide tube and bushing are made corresponding to the diameters of the drills used, while the plate is made with four open cutouts, each of which has two parallel sides and is directed from the edge of the plate to its center , the beam is made in the form of a square tube, laid along the axis of symmetry of the slab and rigidly connected to it, and near each end of the beam in the upper flange there is a cutout, and in the vertical walls near the lower flange - a pair of coaxial holes, the distance between which is greater than the width of the slab, and each tightening device consists of a belt and a lanyard, which is installed inside and across the beam such that the lanyard rods pass through a pair of said coaxial holes in the beam, and the lanyard fastening elements are located outside the beam, with a counterpart fastening element installed at each end of the belt. 2. A jig for drilling inclined holes according to claim 1, characterized in that the base of the plate is made with an anti-slip surface.

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