CS236703B1 - Automatic pulsator switch for gearing - Google Patents

Abstract

The object of the invention is a device that ensures the automatic derivation of the necessary movement of the gears, in which the gears are inserted into each other, simultaneously with the movement of any of the levers, serving to zaragovanie speed, respectively. gear ratios. The device tightens and accelerates gear shifting, for example, on manually operated machining chucks. The essence of the invention consists in the fact that in the system of coaxial holes in the bodies of coaxially placed radiation levers, a series of push-out bodies equipped with a cone or rounding is permanently stored, while in the drilling, passing through the casing, a spring with a pietic with a rod directed against the contact of the switch is stored.

Description

The invention relates to a device installed in housings of coaxially mounted levers for shifting individual gears in gear boxes with gears, e.g. in machine tools with manual control, which during gear engagement engages the gear shafts in the desired movement. The most widespread way of shifting gears in machine tool transmissions is to manually rotate the spindle while shifting the gears using a hand lever.

The disadvantage of this sort of shifting method is, above all, the necessity of performing two work tasks, which requires more time-consuming loss times. In heavy machine tools, such spindle rotation has been extremely laborious.

Some machine tools, equipped with a main drive reversible motor, allowed the gearbox shafts to move slightly using a clutch lever. Other machines were in turn equipped with pushbuttons to move the main engine for a short period of time, thereby pushing down the gears.

Although these gear shifting methods were not strenuous, the machine operator still needed a lot of time.

Another possibility of shifting the gears was the rotation of the spindle by means of a mechanical clutch, by which the constant speed of the main engine during the gear engagement brought the gearbox shafts into the desired movement.

A negative feature of this type of gear ratio is the time-consuming * of this unproductive, icon, but most of all, it was necessary to move the gearbox into a slight movement by letting the clutch slip, greatly reduced the life of clutch linings. This meant, on the one hand, material losses and, on the other hand, frequent machine decommissioning for the duration of the clutch lining replacement.

These drawbacks are overcome by the automatic pulsator switch of the gear shifting motor according to the invention, consisting of a mechanical part adapted to the limit switch mounted on an adjustable bracket, actuating the motor pulsator, which consists in permanently mounted in the bore assembly of the discharge bodies, wherein a bore with a piston with a rod directed against the contact of the switch is mounted in the bore passing through the housing.

One of the advantages of the solution according to the invention is that the end of the discharge bodies in the form of a rounded cone or a guT surface in cooperation with the spring pressure, which pushes a part of the end of the discharge bodies through the contact surface, respectively. at the same time, the locking levers of the two levers are locked together with respect to the housing or to the housing. gearbox walls.

Another advantage of this solution is that, simultaneously with the rotation of any of the control levers and thereby with the displacement of the dispensing bodies towards the limit switches, an instantaneous corresponding movement of the gear assembly is suitable for smooth engagement of the engaging gears without needing to perform.

The impulse for the movement of the transmission shafts does not pass through the mechanical transmission element assembly, but is performed electrically, which extends the life of the machine.

It is not necessary to have the same number of gears on each lever. Both the lining and the lining can have a detailed number on each lever, it is only important that they lie on the same pitch circle. If bullets are used as extruders, there are no minor inaccuracies in the bore alignment.

Examples of an automatic pulsator switch for gear shifting are shown in the accompanying drawing, where FIG. 1 is a cross-sectional view of the assembly of radiation levers in an assembled state on a machine, two alternative solutions being shown.

On the right side, respectively. the upper half of FIG. 1, a solution is shown by bores parallel to the axis of the shafts of the radiation levers in their flange portions and at the lower half, respectively. On the left side of FIG. 1j shows a solution of bores radial in the cylindrical parts of the radiation levers.

In FIG. 2 is a view of the shifting device in the direction of its axis with the locking positions, respectively. bores for extruders with axes parallel to the shifting axis.

In the recess of the wall 11 is inserted a sleeve 12 which is fastened in the wall 11 by screws 28. The cylindrical parts of the shifting device consisting of the outer lever 13 of the middle lever 14 and the inner lever 15 extend through the central opening of the housing 12. and a lower end face of the flange portion of the outer lever 13 closely adjacent the outer face of the housing 12.

The cylindrical portions of the levers 13, 15, 15 are equally tightly disposed as well as the outer cylindrical surface of the cylindrical portion of the outer lever 13 in the inner cylindrical flat bore of the sleeve 12. The bore 16 in the end portions of the levers 13, 14 15 and the channel thus formed is filled with the conical discharge bodies 18 or rounded discharge bodies 19 and continues in one position in the housing 12.

In the part of the bore 16 passing through the housing 12, in addition to the discharge bodies 18 and 19, a piston 21 and a spring 20 are also mounted. In the radial arrangement of the bore 16, the channel ends with an internal thread in the housing 12 into which the guide 35 is screwed.

Approximately in the axis of the bore 16 passing through the housing 12 there is a contact 30 of the switch 25 screwed to the bracket 24 by fastening nuts 29. The bracket 24 is rotatably mounted on a spindle pin 23 which opens into a cavity 32 covered by a stopper 33. 30 from the piston rod 21 and after adjusting the correct distances, it is secured against release by a lock nut 31. Against slipping of the bracket 24 from the spindle pin 23, the hub of the bracket 24 is secured by a snap ring 34.

The entire bracket 24 is secured against rotation about the spindle axis 23 by a pin 22.

The so-called wires are connected to the contacts of the switch 25. the inlet 26 and the outlet 27. When the gear is engaged, the piston 21 is moved away from the contact 30 of the switch 25 and the spring 20 pushes the discharge bodies 18, 19 into the recess 17 by means of the piston 21. the edges of the bores 16 between the front and rear bores, respectively. by the cylindrical surfaces of the levers, by pressure on the conical or rounded part of the discharge bodies 18, respectively. 19, push the column of the dispensing bodies 18, 12, including the piston 21 against the spring pressure 20. The plastic rod presses the contact g0 of the switch g5 ^θ , the supply circuit 26 connects with the outlet 27, which impulses the movement of the respective gears.

The object of the invention finds application mainly in machine tools, but also everywhere where gear boxes with multiple stages of manually operated gears are used.

Claims (5)

236703 4 SUBJECT OF THE INVENTION 1. An automatic pulse pulsator switch for shifting gears, comprising a mechanical part formed by coaxially mounted pawls and an end switch indicating the operation of the pulsator pulsator, characterized in that bores are provided in the bodies of the levers (13, 14, 15) co-located therein. 16) a permanently mounted displacement body, wherein a sleeve (12) extending through the sleeve (16) is provided with a spring (20) with a piston (21) and directed towards the contact (30) of the switch (25). An automatic switch according to claim 1, characterized in that the conical bodies (18) are mounted in a bore (16) of the lever (13, 14, 15) parallel to the axis of the rotary levers. 3. Automatic switch according to claim 1, characterized in that the rounded displacement bodies (19) are inserted in the lever (16) of the lever (13, 14, 15), which is perpendicular to the axis of the rotary levers. 4. A gearing pulsator automatic switch for gearing according to claim 1, characterized in that the dimension of the displacement body (18, 19 'in the direction of the bore axis (16) jerks the thickness of the lever body portion (13, 14) at the point of penetration of the bore (16). 5. A gearing pulsator automatic switch of the gearing according to claim 1, characterized in that the dimension of the displacement body (18, 19) in the direction of the axis of the bore (16) is a portion of the ridge portion of the lever body (13, 14) in place. drilling penetration (16). 1 drawing