SU47533A1 - Planer - Google Patents

Description

The proposed planing planer is designed to work with forward and reverse moves of the table.

Already known are planing machines that work in forward reversal of the product or tool and are equipped with a cutting tool, turning 180 ° to set the tool in the working position with each change: the direction of movement.

In other devices, for working with forward and reverse moves, separate incisors are used or located adjacent and having cutting edges directed in opposite directions or arranged one after the other, and their cutting edges are directed in opposite directions or cutters are located inside the box body of the supory. In this case, the cutting edges of the incisors can be directed towards each other.

In other designs, one cutter is used for working in reverse and backward strokes, but with two cutting edges, and the cutter itself is installed in a dipstick.

In the proposed planing planer for working with forward and reverse strokes, an incisor port is used, rotatable by 180 ° during each course of the table.

(353)

According to the invention, in such a planing machine, rotary arcs are used, mounted on the cross-bar of the machine, brought together by the inner ends at the end of each turn of the table and serve to push the cross-ends outward from the socket of the slide before turning it. The incisor caliper itself is suspended from an axis attached to a lever that receives a rotation half a turn from the drive of the machine for moving the suporta to the opposite slot of the cross member.

For the vertical feeding of the supor the latter provides a lead screw carrying the bristle, which is rotated when pushing the supor by engaging with a stationary toothed rack.

In the schematic drawing of FIG. 1 shows the proposed longitudinal cutting machine with a cross-section; FIG. 2-partial side view of the machine; FIG. 3 partial top view of it with a slit; FIG. 4 and 4 — a coupling mechanism in two projections, and FIG. 5 and 5, a device for deactivating rotation of the drive for the vertical feed of the suporta in two projections.

The proposed planing planer, by its design, is similar to the usual similar machine (Fig. 1), B.-. KOTtfpoM vertical stands are replaced by a box-shaped frame /; Inside this frame 7 there is a cross-section 2, moving in a vertical direction and carrying on its guides a slider 3 with a cutting support 4 suspended on the axis 34 in the carriage 5,

The slide 3 with the slide 4 is inside the cross member and receives movement along the horizontal guide.

At the bottom of the caliper 4 there is a turntable for setting the tool holder at an angle.

The support screw of the suporta is connected to the roller 6, which carries the gears 7 and, of which gear 7 (Fig. 4) is loosely mounted on the roller b and has, from the outside to the circumference, teeth that are in engagement with the teeth of the curvilinear rail 9. At the end of the roller 6 there is a protrusion on which the dogs / O, // sit, with shanks / 2, / 3 adjacent to the cone M.-Both dogs, under the action of springs, are separated to the sides and at the same time interlock gears 7 with internal teeth ratchet.

At. moving the cone M along the roller 6i upward the shanks / 2, 13 are moved apart to the sides, and this pulls the dogs 10 and / 7 out of the coupling with the internal teeth of the gear wheel 7. The movement of the cone 14 is performed by the electromagnet T5 (FIG. 2) attracting lever J6, the protrusion at the end of which is coupled with an annular recess of the cone 14. In the case of the suporta 4 there is a through hole through which the roller 17 passes (Fig. 1), which carries bevel gears 18, 19 at the ends. Gear 19 is connected with another bevel gear 20 sitting on the running roller 21, equipped with a stopper 22 ( g 5) allowing yuschim off rotation gear 19. The bevel gear 20 has keyway, but at the end has a recess in which is placed the tail stopper 22 with springs; when this gear 20 engages with gear 19; first when

the misalignment of the tooth with the recess may turn slightly on the roller 21.

The inner side of the lower thickened part of the caliper 4 is placed in the slot of the slide 3.

The horizontal supor feed is made using a split collar coupling. This mechanism has additional gears, giving the opportunity to produce flow after each turn of the table.

The vertical feed of the supor is carried out by means of a rack 9, gear 7 with helical teeth with dogs and then a roller 6.

Manual vertical feed is carried out using the running roller 21, bevel gears 19, 20, roller 17 and bevel gears 8, 18.

To push out the caliper 4 from the slot of the slider 5, the stop 25, located on the side of the table (Fig. 2), is used. This stop 23 acts on the levers 24, 25, which transmit movement by means of a roller 26 and a lever 27 to two arcs 28. The arcs 28 rotate on their axes and are connected to the ends of a chain that passes through the roller 29 and is connected to the end of the lever 27. Movement the caliper from one working position to another is produced from the existing feed mechanism, i.e. the split-coupling coupling with the change that rotation is transmitted from the toothed rack directly and without a pawl. In this case, the restrictive fingers are located between themselves relatively large distances. From this feed mechanism, the movement is transmitted to a vertical roller 30 and a horizontal 31 (Fig. 1). Vertical movement of the crossmember is done by conventional gears.

The change in direction of the table travel is also made by a conventional electric switch using a reversible electromagnetic clutch. The box of speeds, which is available at the machine tool, makes it possible to perform work in the necessary cases both without idling and with idle.

During operation of the machine after the cutter has come off the surface of the workpiece, the stop 23 attached to the side of the table acts on the lever 24 and through the transfer rollers 32 and two pairs of bevel gears rotates the vertical roller 33, which in turn rotates horizontal through a pair of bevel gears a run roller 26 and a lever 27. The lever 27 is connected to a chain thrown over the roller 29 (Fig. 3) and branching out at two ends connected to the ends of the arcs 28. When the lever 27 is rotated, the chain pulls up and carries the ends of the arcs 25, -clot make a semicircle, i.e. they occupy the position shown by the dotted line. At the same time, the end of the left arc pushes the lower part of the supor 4 out of the socket, after which the suporte rotates on the axis 34 of the carriage 5. Simultaneously when the supor 4 rotates, the gear 7 rolls along the rack 9 and shifts upwards, since the arc of the rail 9 is described by the radius from the center of the axis 34 and if the pawls 10 and // have not been separated from the gear teeth of the roller 7 of the roller 6, then the drying is done, the suporport is automatically fed. Dogs 10, 11 can be separated from the internal teeth of the gear 7 by means of an electromagnet / 5 in the case of switching to manual vertical feed.

After pushing the supor 4 out of the socket, the direction of movement of the table changes. The collar, located on the left side of the table, acts on the toothed rack, which through the gears and the horizontal roller turns the vertical roller 30 (Fig. 1), the horizontal roller 31 and then through the gears and the roller 35 (Fig. 2).

The roller 35 with the help of the lever 56 rotates the carriage 5 together with the caliper 4 by 180 °. At the same time, the horizontal feed of the caliper is also produced.

During the reverse course of the table, after turning the supor, the stop 23 meets the protrusion 57 of the lever 24 on the way and sets the latter in the initial position and thus turns the vertical roller 33 in the opposite direction.

The roller 33 itself by means of the roller 26 and the lever 27 separates the arches 28. The support 4 enters the socket and occupies a new working position. For a new transfer of the supor 180 ° in the extreme position of the table during the reverse course of the table 4, the pore 23 acts on the lever 25 associated with the transfer roller 52, transmitting the movement in the same way as described above in the case of meeting the stop 25 with the lever 24.

The subject matter of the invention.

Claims (2)

1. A planing machine, equipped with a 180 ° rotary tool caliper for working in forward and reverse strokes, characterized by using rotary arches 28, 28 mounted on the machine crossbar, which are driven by the inner ends at the end of the stroke and serve to push the outer cross member out of the cross member the ends of the suporta 4, suspended on an axis 34 attached to the lever 56, receive a rotation half a turn from the drive of the machine for shifting the suporta 4 into the opposite slot of the cross member (Fig. 2 and 3). 2. In the machine tool according to claim 1, use of a suport, in which, for the vertical feed of the cutter, serves a screw carrying gear 7, which is rotated when pushing the supor by engaging with a fixed rack 9 (Fig. 2). to the author's certificate of S. A. Kravtsov No. 4753B Fig 5 Fig 5 0 24 37. r: ir--; 5 TRV