DE738417C - Coal pressure regulator - Google Patents

Description

Coal pressure regulator The invention relates to a coal pressure regulator for Drives with oscillating shaft actuation in which the oscillating shaft movement (rotation) converted into its rectilinear movement acting on the carbon plate columns will. Field of application for coal pressure regulators according to the invention are any drives Kinds in which starting or speed control of an engine by means of a rocking lever actuated close to or remotely from the coal pressure regulator should be, which the provided on the coal pressure regulator oscillating shaft in different Brings rotational positions. The following are examples of application: coal pressure regulator for Sewing machine drives, machine tools, household machines and the like.

There are coal pressure regulators with lever actuation known in which on Coal pressure regulator itself converted the control lever movement into a swinging bulging mowing is activated by means of its eccentric or nosepiece or a simple pressure lever, with or without elastic intermediate means (such as bent leaf springs and the like) between the pressure body moved perpendicular to the axis of the carbon plate columns and the carbon platelets. The connection of a not directly to the coal pressure regulator by the governor lever 'actuated rocking shaft is in these known arrangements not possible. Also not the "use of the same construction principle for Arrangements with oscillation shaft axes in different directions, based on the pressure direction the carbon plate columns, as @es especially with carbon pressure regulators for sewing machine drives is required for the purpose of versatile use in practice and by the invention should be made possible.

The coal pressure regulators according to the invention are now characterized that the respective position of the oscillating shaft means the mutual distance between two clamping jaws intended for a leaf spring compressed by the spa cheeks from its ends, the bending of which causes the compression of the carbon plate columns. The one Oscillating wave movement corresponding deflection changes in the leaf spring are according to the invention by moving one or both clamping jaw plates in the direction achieved perpendicular to the deflection of the leaf spring. One or both jaw plates can thereby according to the invention äP> with engagement projections or depressions for a the drive ax of the Schivingwelie that sets the respective clamping jaw spacing be. According to the invention, the axis of the oscillating shaft with the axis of the guide pin, which transfers the deflections of the leaf spring to the carbon plate columns, coincide or form an angle, in particular a right angle, with it.

Some embodiments of regulators according to the invention are in FIGS. i to 8 are shown schematically, of which FIGS. i to 3 and 6 to 8 Show controllers where the axis of the oscillating shaft coincides with the axis of the controller. 4 and 5, however, relate to a controller in which the axis of the Oscillating shaft at an angle, e.g. B. at a right angle to the axis of the controller stands.

The coal flow regulator consists of the two coal columns i and 2 in a housing 3. The carbon columns are supported against end pieces 4 and 5, which are electrically with the connection lugs 6 and 7 are connected. For compressing the carbon platelets i and 2 serve the transverse spring 8 and the crosshead 9, which both, on a bolt i o are arranged. The spring 8 presses against the projection i i of the bolt io. The guide rod 12 has a head i3 for limiting the stroke of the guide rod 12 in direction 1 ¢ and to short-circuit the carbon pressure regulator by bridging the projections 15 and 16 of the two contacts 4 and 5. The spring 17 presses the guide rod 12 in direction 14, so that the carbon plate columns i and 2 are relieved and the bolt io lies against the drive spring i8. This is easy towards the i9 bent and held by the claws 20 and 21, which by bending corresponding Tabs of the sheets 22 and 23 (Fig. 3) are made. The sheets 22, 23 have approaches 24 and z5, which engage behind the extension 26 of the oscillating shaft 27. The sheets 22 and 23 are laterally guided through the walls 28 on both sides. When rotating the Oscillating shaft 27 in direction 29, the two sheets 22 and 23 are towards each other emotional; the spring 18 is thereby bent more, in the way it is dotted line 36 in Fig. i indicates, for example. This will make the bolt i o propelled forward in direction i 9, and the charcoal piättchensäulen are through the spring 8 or the head 9 compressed. When going back the Schivingivelle The spring i 8 relaxes in the starting point and thereby pulls the two Sheet 22 and 23 apart. With this arrangement, the axes of the oscillating shaft fall and the controller together.

In the arrangement according to FIGS. 4 and 5, the axis 3 i of the oscillating shaft 32 perpendicular to the axis 33 of the controller. This arrangement is made possible by that the drive for compressing the spring is rotated 9o ". The two The ends of the spring are in turn in the bent-over tabs 2o and 21 of the metal sheets 22 and 23 guided by the upwardly bent sheet metal parts having slots 34 and 35, through which the ends of the spring 18 are inserted.

In Figs. 6, 7 and 8 is. inclined an arrangement in which the Spring 18 is supported with its end 35 against a fixed claw 36. Only the claw37 is Movable in direction 38. The movement is brought about by the fact that in the vibration wave a pin 39 and an elongated hole 4 i is arranged in the claw plate 4o. In the Rotation of the oscillating shaft in the direction 42 is caused by the pin 39, the claw plate Shifted 4o to the right. The claw plate is still through an elongated hole 43 and the Screw 44. guided.

With 45 and 46 stops are designated, which the path of the $ leche Mark 22, 23 and 40.

Claims (5)

PATENT CLAIMS: i. Carbon pressure regulator for drives with oscillating shaft actuation, in which the oscillation wave movement in one acting on the carbon plate columns rectilinear movement is converted, in particular for sewing machine drives, thereby characterized in that the respective position of the tension shaft (27) corresponds to the mutual Distance between two clamping jaws (20, 21) for one of their ends from the clamping jaws Compressed leaf spring (18) determines the deflection (3o) of which the compression the carbon platelet columns (1, _ 2) causes. 2. Coal pressure regulator according to claim i, characterized in that the deflection changes of the leaf spring (18) corresponding to an oscillating wave movement (29) by displacement of one or both clamping jaw plates (22, 23) in the direction. are achieved perpendicular to the deflection of the leaf spring. 3: coal pressure regulator according to claims i and 2, characterized. that one or both clamping jaw plates (22, 2-3) with engagement projections (2.1, 25) or depressions (4r) for a setting of the respective clamping jaw spacing Drive part (26, 39) of the oscillating shaft (27) are provided. 4. Coal pressure regulator according to claims r to 3, characterized in that the axis of the oscillating shaft (27) coincides with the axis of the guide pin (12), which the sagging the leaf spring (i8) transfers to the carbon_plate columns (t, 2). 5. Coal pressure regulator according to claims t to 3, characterized in that da.G is the axis of the oscillating shaft (27) is at an angle to the axis of the guide pin (i2) (Fig. 4 and 5).