RU2003473C1 - Press slider stroke regulating device - Google Patents

Abstract

Usage: in forging and mechanical engineering. Essentially, a device for adjusting the stroke of a press slider comprises an eccentric sleeve with a gear ring mounted on the crank neck of the eccentric shaft, a half coupling with a gear ring interacting with the sleeve crown mounted on the protrusion of the crank neck with a longer tooth length, means for moving means for moving along the said protrusion eliminating tooth decoupling when moving the slide of the press. 8 of this protrusion, a through cylindrical hole is made, which is offset relative to the longitudinal axis of the root neck in the direction of movement of the slider to top dead center by an amount corresponding to the eccentricity of the crank neck. In the coupling half there are two coaxial holes located on the same axis as the through hole and offset relative to the latter in the direction of the eccentric sleeve by the value I. long tooth lengths Means for eliminating tooth decoupling are made in the form of a cylindrical rod mounted in a through hole and controlled by a coupling element. The means for paving the half-coupling are made in the form of two leads, rigidly connected to a cylindrical rod mounted for rotation in coaxial holes. If necessary changes in the stroke of the press slide, the latter is stopped, then the operator, using the handle, inserts the sliding wedge into the groove step The action of the working surface of the wedge with the end face of the coupling element, compressing the spring, comes out of the groove, at the same time the cylindrical rod is unfastened. This operator, turning the handle clockwise НЗ 180 ° synchronously leads in the same direction the leads that retract half-coupling from the eccentric sleeve. Their teeth are disengaged. After that, the operator first sets the required slide stroke by turning the eccentric sleeve relative to the shaft neck by a predetermined angle, and then by turning handles and therefore leashes counterclockwise at an angle of 180 ° drives the half-coupling in the direction of the eccentric sleeve At the end of the turn of the leashes, the tooth mates unobtrusively, and when the wedge is removed from the groove stage, the coupling element disengages from the surface of the wedge and, under the action of the spring, re-engages in the groove level 2 of the cpf-3 or silt 1 MS & S - S s o o s JU-J s

Description

The invention relates to forging and mechanical engineering, and in particular to the construction of a device for adjusting the stroke of a press ram.

A device for adjusting the stroke of a press slider is known, comprising an eccentric sleeve with a wedge-shaped tooth shape of the toothed ring mounted on the mock neck of the eccentric shaft, a half-coupling movable along the crank neck with a wedge-shaped shape of the teeth of the ring gear, interacting with the ring gear of the eccentric sleeve, and shaped grooves located on the side of the coupling half opposite to the crown of the crown, a rotary locking ring with protrusions included in the shaped grooves of the coupling half mounted dy locking ring and the coupling half elastic elements serving for closing teeth toothings coupling half and the eccentric bushing, as well as elements for closing the locking ring.

A disadvantage of the known device is that its design allows the slider to be adjusted only by turning the eccentric sleeve in one direction, which is associated with the use of ring gears with a wedge-shaped tooth shape. And this significantly lengthens the adjustment time and reduces the usability of the device.

A device for adjusting the stroke of a slider is also known, comprising an eccentric sleeve with a gear rim mounted on the crank pin of the eccentric shaft, a half coupling in the form of a segment with a threaded hole and a gear rim interacting with the gear rim of the eccentric bush, mounted on the surface of the flat made on the crank neck, means for moving the half-coupling over the surface of the flat of the crank neck, made in the form of a ring, a cracker with a pZZ mounted on the crank neck, and a screw passed through a groove of a cracker and a segment with a ring gear screwed into a threaded hole (ed. St. N 203482, class B 30 8 15/14).

The disadvantage of this device is the displacement of the connecting rod with the bearing, the rotation relative to the ball bearing and, as a result, the misalignment of the connecting rod and the bearing jamming on the eccentric sleeve during longitudinal movement of the eccentric sleeve that occurs during adjustment.

A lot of effort is required to eliminate jamming, so the parts of the device show scuffing and dents that

is unacceptable since the durability and operational reliability of the device are significantly reduced.

The closest set of features to the invention is a slider adjusting device comprising an eccentric sleeve with a gear ring mounted on a crank neck of an eccentric shaft, a step coupling half with a gear ring. interacting with the gear rim of the eccentric sleeve, two eccentrically arranged cylindrical holes and a threaded hole, interacting with the protrusion of the crank neck, the length of the longer gear rim of the eccentric sleeve, and the root neck of the eccentric shaft, means for moving the coupling half along the protrusion of the crank neck and along the root neck the eccentric shaft, made in the form of a threaded sleeve screwed into the threaded hole of the coupling half, equipped with a collar for fixing it on the main neck of the eccentric shaft from moving along the said neck, a device for eliminating the disengagement of the gear rims of the coupling half and the eccentric sleeve, made in the form of a screw for locking the threaded sleeve interacting with the root neck, the gear shaft located inside the coupling half, coupled to the gear ring eccentric bush 1.

A disadvantage of the known device is that the half-coupling with a gear rim has a significant size and weight due to the need to place a gear shaft and means for moving the half-coupling in the form of a threaded sleeve, the outer diameter of which is larger than the diameter of the main neck, in addition, the design of the device such that the half-coupling with the ring gear performs the function of supporting the root neck of the eccentric shaft and thus perceives the weight of the eccentric shaft, connecting rod, slider with a tool fixed to it, which RUDN operator is conducting operations for moving the coupling halves during press ram stroke adjustment.

The essence of the invention is the creation of a compact design of a device for adjusting the stroke of the press slide while reducing its weight, the effort required to move the coupling half during the release and fixation of the eccentric sleeve to increase ease of use and reduce the time for adjusting the stroke of the slide, increasing the reliability of the operation of the device under peak and impact loads by eliminating the half-coupling function of supporting the main neck of the eccentric shaft.

For this purpose, in the known device for controlling the stroke of the press in the protrusion of the crank neck, there is a through cylindrical hole perpendicular to the root neck of the eccentric shaft, offset relative to its longitudinal axis in the direction of movement of the slider to the top dead center (TDC) by the amount of eccentricity of the crank neck. Two coaxial holes are made in the coupling half, the diameter of which is larger than the diameter of the specified hole in the protrusion of the crank neck, offset from the latter in the direction of the eccentric sleeve by an amount greater than the length of the teeth along the coupling. Means for eliminating tooth decoupling are made in the form of a cylindrical rod mounted in the hole of the protrusion of the crank neck and a controlled coupling element for securing the cylindrical rod. The means for moving the coupling half are made in the form of two leads, rigidly connected to a cylindrical rod mounted to rotate in the holes of the coupling half, moreover, a groove is made in one of the said leads and the controllable coupling element is mounted in the said groove to interact with the coupling half ; one of the leads is made in the form of a removable sleeve mounted on a shank made on a cylindrical rod, the other in the form of the head of a cylindrical rod, and the protrusion of the crank neck is located between the removable sleeve and the head of the cylindrical rod. The groove is stepped and located in the head of a cylindrical rod. The steered hitch element is located in the groove step of a larger width, and in the groove step of a shorter width, a retractable wedge is placed to control the hitch element and rotate the leashes.

In FIG. 1 shows the proposed device, a longitudinal section; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 2.

The device for adjusting the stroke of the press slider comprises an eccentric sleeve 3 mounted on the crank neck 1 of the eccentric shaft 2 with a gear ring 4, a gear coupling 5 with a gear ring 6. interacting with the gear ring 4 of the eccentric sleeve 3. mounted on the protrusion 7 of the crank neck 1 with a longer length teeth of the ring gear 4 of the eccentric sleeve 3, in order to prevent the coupling half 5 from turning around the protrusion 7, the coupling half 5 is connected to the protrusion by means of a splined joint 8. 5 The device is also equipped with

for moving the coupling half 5 along the protrusion 7 of the crank neck 1; as well as means for eliminating the disengagement of the teeth of the ring gears 4, b while moving the press slider 10.

In the protrusion 7 of the crank neck, a through cylindrical hole 9 is made perpendicular to the root neck 10 of the eccentric shaft 2. The through cylindrical hole 5 is offset relative to the longitudinal axis 11 of the root neck 10 in the direction of movement of the slider to the upper center by an amount I corresponding to the eccentricity of the crank neck. In the coupling half 5, two coaxial holes 12, 13 are made, the diameter of each of which is larger than the diameter of the hole 9 in the protrusion 7 of the crank neck. The holes 12, 13 are located on the same axis 14-with the hole 9 and are offset 5 relative to the latter in the direction of the eccentric sleeve 3 by an amount h greater than the length of the teeth of the gear ring 6 of the coupling 5. The means for eliminating the disengagement of the teeth of the ring gears 4 and 6 are made in the form of a cylindrical rod 15 mounted in the hole 9 of the protrusion 7 of the crank neck 1 and a controlled coupling member 16 for securing the cylindrical rod 15 from rotation. 5 The means for moving the coupling half 5 are made in the form of two leads, rigidly connected to the cylindrical rod 15, mounted to rotate in the holes 12, 13 of the coupling half 5, and 0 one of the leads is made in the form of a removable sleeve 17, fixed by a screw 18 on the shank 19, made on a cylindrical rod 15, another leash is made in the form of a head 20 of a cylindrical rod 5 N 15, and the protrusion 7 of the crank neck 1 is located between the removable sleeve 17 and the head 20.

In the leash, which is the head 20. a groove 21 is made, and the steered 0 coupling member 16 is mounted in the groove indicated so that it can interact with the coupling half 5.

The groove 21 is made stepped, consisting of a step 22 and a step 23, wherein the 5 step 22 is made wider than the step 23. The coupling element 16 is made in the form of a finger with a conical end 24 located in the step 22 of greater width. The power circuit of the coupling member 16 and the head 20 is carried out at

using a spring 25 cooperating with the coupling member 16 and the threaded sleeve 26, which serves to adjust the closing force.

In the step 22 of the groove 21 of a smaller width, a retractable wedge 27 is placed to control the coupling member 16 and rotate the leads in the form of a removable sleeve 17 and head 20.

The retractable wedge 27 is rigidly connected to the handle 28.

The device operates as follows. 8, the starting position of the eccentric sleeve 3 is fixed from turning both clockwise and counterclockwise due to the engagement of the teeth of the gear ring 4 of the eccentric sleeve 3 with the teeth of the gear ring 6 half. Ft. 5. while the disengagement of these teeth of the ring gears 4 and b is eliminated due to the impossibility of moving the gear half-coupling 5 relative to the protrusion 7 of the crank neck 1 under the action of the cylindrical rod 15 interacting with the protrusion 7 and the coupling member 16 interacting with the leash in the form of a cylinder head 20 -parameter rod 15 and coupling half 5.

When the press is turned on, the eccentric shaft 2 is rotated and the eccentric sleeve 3 fixed on it, as a result of which the press slide (not shown) is driven through the connecting rod, while the cylindrical rod 15, the coupling member 16 and the leads 17 and 20 rotate movement in conjunction with the coupling half 5 coupled to the eccentric sleeve 3, thereby ensuring the movement of the slide with a predetermined stroke value.

If it is necessary to change its value, the stroke of the press slide is stopped. Then the operator, using the handle 28, inserts the sliding wedge 27 into the step 23 of the groove 21. When the working surface of the wedge 27 interacts with the end of the coupling element 16, the latter, compressing the spring 25, leaves the step 22 of the groove 21, and the cylindrical rod 15 is released. After that, the operator, turning the knob 28 clockwise 180 °, synchronously leads to

in the same direction, the leads 17 and 20, which, interacting with the cylindrical surfaces of the holes 12,13 made in the coupling half 5, divert the latter from the eccentric sleeve 3. Thus, the teeth of the gears 4 and b of the eccentric sleeve 3 and the coupling half 5 are disengaged thereby unlocking the eccentric sleeve 3.

After that, the operator first, by turning the eccentric sleeve 3 relative to the crank neck 1 to a predetermined angle, sets the necessary stroke of the slide, and then by rotating the handle 28 and, therefore, the levers 17 and 20 counterclockwise 180 °, drives the coupling half 5 relative to the protrusion 7 the left neck 1 in the direction of the eccentric sleeve 3.

At the end of the rotation of the said leashes 17 and 20, the tooth of the ring gear 6 of the coupling half 5 seamlessly mates with the teeth of the ring gear 4 of the eccentric sleeve 3, and when the retractable climber 27 is removed from the step 23 of the groove 21, the element 16 comes off the surface of the wedge 27 and under the action of the spring 25 again sinks into the step 22 of the groove 21. Thus, the eccentric sleeve 3 is fixed in a new position, and therefore, the end of the adjustment, the new stroke value of the slide.

Thus, the proposed technical solution provides a compact design of the device for adjusting the stroke of the press slide while reducing its weight, and the coupling half, which serves to fix the eccentric sleeve in the proposed technical solution, does not perform the function of supporting the root collar, which reduces the force required for unlocking and fixing the eccentric sleeve, which, in turn, increases ease of use and reduces the time to adjust the stroke of the slide, increases the reliability of the device conditions, peak, shock and vibration.

(56) Copyright certificate of the USSR N 1038255, cl. B 30 B 15/14, 1983.

Claims (3)

1. DEVICE FOR ADJUSTING THE PRESS SLIDGE STROKE, containing an eccentric sleeve with a gear ring mounted on the crank neck of the eccentric shaft, a coupling half with 55 gear, interacting with the gear of the eccentric sleeve and the protrusion of the crank neck longer than the length of the gear of the eccentric sleeve, a means for moving half couplings along the protrusion of the crank neck, means for eliminating the disengagement of the gear rims of the half coupling and the eccentric sleeve when moving the press slide, characterized in that a protruding cylindrical hole has a through cylindrical hole perpendicular to the root neck of the eccentric shaft, offset relative to its longitudinal axis in the direction of movement the slider to the top dead center by the size of the eccentricity of the crank neck; two coaxial holes are made in the coupling half. the diameter of which is larger than the diameter of the specified hole in the protrusion of the crank neck, offset from the latter in the direction of the eccentric sleeve by an amount greater than the length of the teeth of the coupling half, said means for eliminating uncoupling is made in the form of a cylindrical rod mounted in the hole of the protrusion of the crank neck, and controlled coupling element for securing the cylindrical rod, said means for moving the coupling half are made in the form of two leashes, rigidly connected with the CYLINDER-. a rod mounted rotatably in the holes of the plumuftm, moreover, in one of the said leashes the item is made. and a controlled coupling element is mounted in said slot with the possibility of interacting with the coupling half. 2. A device according to Claim. that one of the leads is made in the form of a removable sleeve mounted on a shank made on a cylindrical rod, the other lead is made in the form of the head of a cylindrical rod, and the crank neck protrusion is located between the removable sleeve and the head of the cylindrical rod. 3. The device according to claims 1 and 2. characterized in that. that the groove is stepped and located in the head of the cylindrical rod, the controlled coupling element is placed in the groove step of a larger width, and a sliding wedge is placed in the groove step of the smaller width to control the coupling element and the rotation of the leads. 1U JL J ± 24 g-i-h Phage 2