CS255224B1 - Device for cutting speed of working and return stroke change on a slotting device - Google Patents

Abstract

The solution concerns engineering technology, especially slotting machines. The facility consists from the working spindle drive in which there is a handle with a rocker, slidingly mounted in the background. The link is fixed to the drive shaft driven by a pulley. The essence lies in that between the backdrop and the working the spindle is inserted on the driven shaft body, adjustable swivel around pin

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to an apparatus for varying the cutting speed of the working and backward stroke on slotting machines, comprising a working spindle drive which houses a crank with a rotatably mounted pulley. is eccentric with respect to the axis of the drive shaft.

A number of mechanisms are known to convert rotational motion to oscillating. These are, for example, crank, sliding, cam mechanisms and the like.

Into the drives of these mechanisms there is inserted another sliding mechanism, which achieves a reduction of the working speed during the cutting process and an increase of the reverse speed, which can be favorably used to increase the production of said machines and to increase the durability of the used tools. The disadvantage of these mechanisms is the fact that the course of the return and working stroke speeds is fixed and cannot be adjusted according to the given technological requirement.

Furthermore, the device according to MS. U.S. Pat. No. 141 423, in which a crank with a rotatably mounted pulley, which is slidably mounted in a link, which is fixedly connected to the drive shaft, is mounted in the working spindle drive. The crank axis is eccentric with respect to the axis of the drive shaft.

This solution allows setting a constant change in the course of the working and reverse stroke speed, but in some cases not entirely according to the actual technological requirements.

According to the invention, the above-mentioned drawbacks are eliminated by a machine for changing the cutting speed of the working and backward stroke on slotting machines, consisting of a working spindle drive which accommodates a crank with rotatably mounted rock. The crank axis is eccentric with respect to the drive shaft axis. Its essence lies in the fact that a shaft is adjustable between the spindle and the working spindle on the driven shaft, which can be pivoted around the pin. According to this embodiment, a rock located on the crankshaft of the driven shaft is rotatably and displaceably mounted in the rocker. According to an alternative embodiment, the rock is rotatably and displaceably mounted on a rock located on the crankshaft of the drive shaft, which is mounted in the housing.

Its basic advantage is that it allows adjustment of the change in the course of the working and back stroke speeds according to real technological requirements. A further advantage is that these courses can be adjusted continuously manually or even automatically during the duty cycle, so that it is not necessary to limit the machine parameters.

The invention is described in greater detail below with reference to the accompanying drawings, in which: FIG. 1 shows the drive of the working spindle; FIG. 2 shows the kinematic position of the gate; FIG. 3 shows an alternative embodiment of FIG. of FIG.

As can be seen in FIG. 1, a pulley 2 is driven by a motor (not shown), from which movement is transmitted to a drive shaft 2 which is fixedly connected to a sliding shaft 5 and supported in a bearing 2. 7 and with the driven shaft j) mounted rotatably in the body 2. The driven shaft is driven by a further crank 13 on which a further stone 14 is rotatably mounted, which is movable in the shaft of the working spindle sleeve 15. The sleeve 15 is axially rigidly coupled to the working spindle 16, to which the oscillating movement is imparted by rotation of the other crank 13. Body 2 passes freely through the shaft body 2 · 2 »fixed using the bolt and, on the part of the periphery a toothing 22» which engages the gear 12, driven by electric motor 12. ^{It is} possible for the bolt 2 on which is mounted a body 2> was placed at infinity. The tool 17 is rigidly connected to the working spindle 12 · The working spindle 16 is provided with additional rotational movement from the separating worm wheel 12 which engages the worm 2®. electronic.

The device shown in FIG. 1 operates in such a way that the working spindle 16 with the tool 17 is given an oscillating movement from the sliding sleeve 15 of the working spindle 16, the crank 13 in dependence on the output angular velocity of the shaft 2 of the device. As can be seen from FIG. 2, the course of the output angular velocity depends on the magnitude and purpose of setting the distance e of the axles of the shafts 2 ^and θ. Of the angle of the shaft 2 of the device, radius r, crank 7 and the input angular velocity of the shaft 2. the general angle of rotation of the link 2 corresponds to the unequivocal crank angle 7. The angles α are measured from the perpendicular to the axis line of the shafts 2 and 2 · the direction of rotation indicated by the arrow corresponds to the pressure relief, i.e. the working speed is directed to the workbench. The setting e is positive in this case, i.e. This setting also corresponds to tensile bending, but the direction of rotation must be changed. If pressure bending is required in the opposite direction of rotation to that indicated, the e value must be set to negative.

FIG. 3 shows an alternative device according to the invention, wherein the pulley 2 drives the drive shaft 2 mounted in the bearing 2. The crank T is fixedly connected to the drive shaft 2, on which the rock 6 is rotatably mounted and movable in the link 5 The sliding link 2 is fixedly connected to a driven shaft 2 which passes through a body 2 attached to the pin 4. The body 2 is provided with a toothing 12 in which a gear 22 driven by an electric motor 12 engages.

As can be seen from FIG. 4, the rock 6 moves in the guide of the gate 2. The function of this alternative embodiment is similar to that of the device according to FIG. 1.

Claims (3)

Apparatus for varying the cutting speed of a working and a back stroke on a slotting machine, comprising a working spindle drive which houses a crank with a rotatably mounted rock slidingly mounted in a link, fixedly coupled to a drive shaft driven by a pulley, where the crank axis is Eccentric with respect to the axis of the drive shaft, characterized in that a body (3) which can be pivoted about the pin (4) is mounted on the driven shaft (8) between the link (5) and the working spindle (16). Device according to claim 1, characterized in that a rock (6) mounted on the crank (7) of the driven shaft (8) is rotatably and slidingly mounted in the link (5). Device according to claim 1, characterized in that a rock (6) mounted on the crank (7) of the drive shaft (2), which is mounted in the housing (3), is rotatably and slidingly mounted in the link (5).