SU1144895A1 - Device for regulating crank double-arm press slide stroke - Google Patents

Abstract

1. DEVICE FOR ADJUSTING THE CROLL CROW OF THE CURVED DOUBLE-PRESSING SYSTEM containing an eccentric bushing with a toothed crown, a clutch BCFfovars.J, a pneumatic clutch, and an actuator; mounted on an eccentric shaft between its crank and supporting necks with the possibility of its teeth interacting with the teeth of the eccentric bushing, characterized in that reduction of overall dimensions, the mechanism of rotation is made in the form of a lever-chain transmission placed on the side of the inner wall of one of the legs of the frame, and the pneumatic control unit is made in the form of an annular disk fixed on the eccentric shaft placed between it and the gear coupling of elastic elements, as well as a power cylinder disengaging a gear clutch.

Description

2. The device according to claim 1, characterized in that it is provided with a lanyon arm articulated with said stand of the bed, one of its shoulders being articulated with a movable element of the power cylinder, and the other with a gear clutch, and the power cylinder is installed in said rack bed.

3. A device according to claim 1, characterized in that the eccentric shaft has a central channel and radial channels connected to it to supply air into the cavity between the eccentric shaft and the gear coupling, the cavity is sealed.

The invention relates to mechanical engineering, in particular, to the construction of devices for adjusting the slide stroke of crank presses. A device is known for adjusting the stroke of a slider of a crank two-press press that contains an eccentric bushing with a ring gear mounted on a crank neck of an eccentric shaft, a ring gear with a gear ring, a pneumatic coupling control unit, as well as an actuator for rotating the eccentric sleeve, with this tooth clip of an eccentric sleeve, with this gear. on the eccentric shaft between its crank and supporting necks with the possibility of its teeth interacting with the teeth of the eccentric bushing 1. The disadvantage is that The device is large in overall dimensions, in particular along the eccentric shaft. The purpose of the invention is to reduce the overall dimensions. This object is achieved in that the device for adjusting the stroke of the slider crank dvustoechnogo press, comprising mounted on the crank neck of the eccentric shaft of the eccentric bushing with a ring gear, a gear clutch, a pneumatic clutch control unit, and also drive the rotation mechanism of the eccentric bushing, the toothed MUF that the clutch is mounted on the eccentric shaft between its crank and supporting necks with the possibility of its teeth interacting with the teeth of the eccentric bushing; The orbit is made in the form of a lever-chain transmission placed on the side of the inner wall of one of the legs of the frame, and the pneumatic control unit is made in the form of an annular disk fixed on the eccentric shaft placed between it and the gear clutch of elastic elements, as well as the power cylinder of the gear clutch disengagement . The device is also equipped with a double-arm lever articulated with the indicated stand of the bed, with one of its shoulders articulated with the movable element of the power cylinder, and the other with a gear clutch, and the power cylinder is installed in the indicated rack. A central channel and radial channels connected to it for supplying air into the cavity between the eccentric shaft and the gear clutch are made in the eccentric shaft from the end face, the cavity being sealed. FIG. 1 shows the device in position with the disengaged gear rims longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2; in fig. 4 is a view of B in FIG. one; in fig. 5 shows an embodiment of the device when compressed air is supplied through the central and radial channels in the eccentric shaft in a position with uncoupled toothed rims. The device for adjusting the stroke of the slider of the crank press comprises an eccentric sleeve 1 with a ring gear 2 mounted on a crank neck 3 of the eccentric shaft 4, the protrusion 5 of which is made longer than the teeth of the ring gear 2, the gear coupling 6 with the gear ring 7, interacting with the gear the crown 2 of the eccentric sleeve 1 and two eccentrically arranged cylindrical holes 8 and 9 of different diameters, the larger of which covers the protrusion 5 of the crank neck 3. The eccentric shaft 4 also has an additional body neck 10 with a smooth cylindrical surface. The neck 10 is coaxially supporting the neck 11 and adjacent to the protrusion 5 of the crank neck 3, and its diameter is made smaller than the diameter of the protrusion 5, but larger than the diameter of the support neck 11. On the neck 10 is mounted an annular disk 12. The device is also equipped with elastic elements 13 placed in the hole x 14 disk 12, fixed by a clamp 15 installed in the annular groove 16, made

on the neck 10, with the hole 9 covering the neck 10 in the area between the disk 12 and the end of the protrusion 5, and the elastic elements 13 are also placed in the holes 17 made in the wall of the coupling housing 5 facing the disk 12.

The device is also equipped with a membrane 18 forcibly bent using compressed air, connected by means of a two-arm lever 20 swinging on the axis 19 to the sleeve 6. The membrane 18 is located on the inside of one of the side press posts 21 in a plane perpendicular to the direction of movement of the sleeve 6 and is tightly connected to the power cylinder 22, while the hole 23 is made in the needle bar for supplying compressed air.

In another embodiment (Fig. 5), in a coupling 6, an annular groove 24 is made concentric with an additional cheek 10, the cylindrical surface 25 of an annular groove 24 mating with the surface of the aperture 8, and in the joints of the protrusion 5 on the crank neck 3 and an additional cheek 10 with the corresponding holes 8 and 9 of the coupling 6, sealing elements 26 and 27 are installed. To supply compressed air into the chamber formed by the groove 24, channels 28 are provided in the eccentric shaft 4 connected via an air inlet head y (not shown) to a source of compressed air.

To rotate the eccentric bushing 1 around the crank cheek 3 there is provided a gearmotor 29 mounted on the press frame, connected via an electromagnetic clutch 30 and a chain transmission mechanism with the eccentric bushing 1.

The chain transfer mechanism consists of a driving branch 31 and a driven branch 32 mounted on sprockets 33, 34 and 35, 36, respectively, with sprockets 34, 35 mounted on one axis 37, sprocket 33 on a roller 38 connected to coupling 30, and the sprocket 36 is fixed on the eccentric bushing 1. The gears also provide levers 39 and 40.

The lever 39 is at one end pivotally articulated with the eccentric sleeve 1, the lever 40 with the roller 38, and the other ends of the said arms are connected to each other by the axis 37.

The device works as follows.

In the initial position, the ring gear 2 of the eccentric bushing 1 is engaged with the ring crown 7 of the coupling 6, the closure of said gear rings is carried out with the help of elastic elements 13, and the eccentric sleeve 8 is fixed against rotation of the crank bristle 3 due to the articulation of the eccentrically located holes 8 and 9 couplings 6, respectively, with a protrusion 5 on the crank neck 3 and an additional neck 10. If it is necessary to change the stroke of the ram of a Krivoschip press, the gear rims 2 and 7 are first released the eccentric bushing 1 and the coupling 6. For this purpose, compressed air is supplied to the cylinder 22 through an opening 23 in its bottom. Due to the tight connection of the membrane 18 with the specified cylinder under the action of compressed air, it moves and the movement is transmitted to the lever 20, which in turn, with its forked part, impacts the housing of the coupling 6, moves it to the right as far as it will go to the disk 12,

While compressing the elastic elements 13. In this case, the clutch 6 remains on the protrusion 5 of the crank neck in the position of disengagement of the gear rims 2 and 7.

After the gear rims 2 and 7 are disengaged, the eccentric bushing 1 is rotated by an amount that provides the desired stroke of the press ram. For this, the electromagnetic clutch 30 is turned on, thereby connecting the roller 38 to the gearmotor 29. When the gearing motor 29 is turned on, movement from it through the roller 38, the driving branch 31, the driven branch 32 of the chain transmission mechanism is transmitted to the eccentric bushing I. After turning the eccentric sleeve 1 at a given angle off electromagnetic clutch 30 and the motor-gear 29,

0 and then stop the supply of compressed air to the cylinder 22. Under the action of the spring, the lever 20 returns to its original position, and the clutch 6 under the action of the elastic elements 13 is displaced to the left, while its toothed crown 7 engages the toothed crown 2 of the eccentric bushing 1. Fixation occurs eccentric sleeve 1 in position to provide a given stroke of the slide. When the press is turned on, the eccentric shaft 4 is rotated, while

The 0 chain transmission does not prevent the eccentric bushing 1 from moving along a closed path due to the movement of the levers 39 and 40.

The operation of the device shown in FIG. 5, is the same as described above. The only difference is that during the disengagement of the 2.7 crown gears, the compressed air is supplied through the channels 28 into the hermetic chamber formed by the annular groove 24 due to the sealing of the gaps

0 in the joints of the protrusion 5 and the additional cheek 10 with the corresponding holes 8 9 of the coupling 6. By means of sealing elements 26 and 27.

The technical and economic effect of the implementation of the invention is provided by

5 reduce overall dimensions, and consequently, metal consumption in comparison with the base object. Type B

Fig L Compressed So3df / 23 22 ZZZZZZ

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Claims (3)

1. DEVICE FOR REGULATING THE CRAWBOARD OF THE CRANKSHAFT DOUBLE-PRESS, containing an eccentric sleeve with a gear ring mounted on the crank neck of the eccentric shaft, a gear coupling Fig. 1 clutch, pneumatic clutch control unit, as well as a drive mechanism for turning the eccentric sleeve, while the clutch gear is mounted on the eccentric shaft between its crank and support journals with the possibility of interaction of their teeth with the teeth of the eccentric sleeve, characterized in that, in order to reduce overall dimensions, the rotation mechanism is made in the form of a chain-link transmission located on the side of the inner wall of one of the racks of the bed, and the pneumatic control unit is made in the form of closed an annular disk mounted on an eccentric shaft, placed between it and a gear clutch of elastic elements, as well as a power cylinder for disconnecting a gear clutch. 2. The device according to π. 1, characterized in that it is equipped with a two-arm lever pivotally articulated with said strut of the bed, one of its shoulders is articulated with a movable element of the power cylinder, and the other with a gear clutch, and the power cylinder is installed in the said frame stand. 3. The device according to π. 1, characterized in that in the eccentric shaft from the side of its end there is a central channel and radial channels connected to it for supplying air into the cavity between the eccentric shaft and the gear clutch, while this cavity is sealed.