DE621468C - Coal pressure regulator - Google Patents

Description

Carbon pressure regulator With Köhl @ pressure regulators is at every point of the stroke between idle and full load to ensure that the prescribed load Tension equilibrium exists between the force exerted by the tension Control organ, such as a magnet, is practiced at home, your back pressure of the coal column, the force of springs present in the regulator mechanism and, if applicable, the individual gravity Regulated Re.

The back pressure of the coal column changes from these forces with increasing compression it becomes very strong, while the other forces are not so are highly changeable. One must therefore achieve the balance of forces through special measures restore with increasing compression. It eats known balance to achieve that the lever arm of a return spring attached to the controlling Magnetm is made changeable by placing the point of application of the spring on a matching shaped curve moves. It is also known to shift the points of attack-his To bring about a spring or a weight by roller levers. However, this is not the case a special adjustment force @ is always required for the magnet.

The use of the Alagneten itself as a Versroellkraft is thereby allows the pressure on the column of coal from the movable part of the control member .aus by means of a toggle lever supported at one end on the coal column is transmitted in such a way that. the back pressure of the coal column one in the direction of the Verstelllcraft has a lying component that changes with the stroke in such a way that it increases with increasing Back pressure increases less. If the arrangement is made in a known manner, that the other end of the toggle lever is articulated in a fixed point, this results in the disadvantage that the articulation point at which the adjusting force is located attacks,; moves on a circle, so that when using a solenoid:, as Control organ whose core edges and therefore an additional friction occurs, which adversely affects the accuracy of the controller. To avoid this edging another joint would have to be provided on the drive linkage.

According to the invention, this disadvantage is avoided in that the other end of the knee joint is also supported on a second symmetrically arranged carbon column. As a result of the symmetrical arrangement, the knee joint then moves on a straight line. The use of several coal columns at the same time has the advantage that different control ranges can be established through series or parallel connection can. In order to increase the setting areas can. according to. the other: Er- finding two symmetrically arranged groups pen from several carbon columns arranged to which the toggle lever can be accessed by means of a pendulum bridges pushes. Instead of having an immediate effect, the knee lift! also via double-armed intermediate levers press on the charcoal pillars; thereby becomes the fastening of the symmetrically arranged There were coal columns on either side of one lying in the symmetry bee wall rröglch t and will also be movable and possibly @adjustable parts of the I liked the controller to be more accessible. Res, the knee lever according to the further invention so @ to shape that - its parts on both sides .in Top bearings are dxuc @ kstelzen; this keeps the friction sticky and consequently the accuracy of the, regulator elevated. The adjustability of the bearings as well as the stilts themselves in terms of their length also contribute to increasing the accuracy at. In Fig. i is the principle arrangement according to: the invention, whereby the Control unit of the regulator z. B.: a Sölenold io with a linear moving Iron core ii is. The coal columns are with 12- and 12b. Between the coal Pillars and then. Core i 1 of the solenoid the pressure stilts 1,3 arranged, -the in tips- bearing of the Diruck plate 14 and a run of the Extension 15 of the core ii seated. Rin- Ges 16 intervene. The by means of the pressure , 13 stilts transmitted pressure disintegrates into the horizontal component a ,, -that of the; another- whose stilt is lifted, and into the vertical component b coming from. the 'on Iron core 1 i acting gravity @ must be brought. Now pulls the heavy force the iron core when the voltage drops ii down, then over the stilts 13, whose base located at the core is towards' is moved, one with increasing down, growing movement increasing pressure on Tdie Columns of coal exercised. There, but that of the stilt and: the pressure force component ö formed angle a becomes larger, changes the compression force component b only in @einlem to such a degree that she was still force can be applied. , In order to reduce the adjustment force press, the pressure of the columns of coal to properly adapt to the circumstances is that of the stele and the pressure component formed angle a. adjustable. The setting the angle is done by moving the Ring 16 on the extension 15 of the So> - ' lenoidkern @ e @ i ... Dler,.: Went 16 will be in 'his respective position held by means of a screw 18 on the extension 15. Since the distance between the bearing points of the stilt changes as the stilt angle a changes, the length of the stilt can be adjusted. For this purpose, the stilts 13 steal from the two parts i9 and 2o, which are screwed into a sleeve 21, with right and left threads.

In Figure 2, an embodiment for a coal pressure regulator with symmetrically arranged coal columns is shown. The Köhlesäulen i 2a and J 2b are in pure in the Symmetr'eehene of the controller. lying wind on the base plate 22 vertically arranged wall 23. The solenoid io is arranged below the carbon columns and a linen air-damping pump 24 is arranged above the carbon columns, the piston 25 of which is connected to the extension 15 of the solenoid core ii. 26 and 27 are two double-armed levers rotatably mounted on the base plate 22, with which from the core ii. worse the pressure stilts .i 3a and 13b the pressure is transferred to the coal columns. The pressure stilts i3a and 13b are held by means of the springs 28 and 29 in the point bearings in the ring 16 and on the double-armed levers. The point bearings on the double-arm levers 26 and 27 are located in the heads of screws-3o around 31, which are more or less unscrewed when adjusting the stilt angle, -to adjust the distance between the point bearings to the length of the stilts.

As FIG. 3 shows, the symmetrically arranged coal columns 12a and 12b each consist of a pair of columns. This repeated subdivision has the advantage that the control range can be changed by connecting the individual column parts in parallel, in series or in series-parallel connection. So that the pressure; on the columns of each column pair evenly. is exercised, resiliently suspended pendulum bridges 32, 33 are provided on the base plate 22, the ends of which rest against the pillars, while the D; oppelhlebe126 and 27. press on the center of the pendulum bridges. i

Claims (1)

PATEN TANSPRTIC73E: i. Coal pressure regulator where the Pressure on the coal column from the moving union part of the tax body from means one with its lower end on the coal Column supported toggle lever in such a way will bear that the back pressure of the Coal column, line in the direction of the .'kraft -liegiende5 `xmt, derm, .Hüb: so'ver = Everybody’s component has that one increases less sharply with increasing back pressure, characterized in that:, @ that; the other end of this toggle lever is also supported on a second symmetrically arranged carbon column. z. Koehler pressure regulator according to claim i, characterized by two symmetrically arranged groups of several coal columns, on which the toggle lever presses by means of pendulum bridges. 3. coal pressure regulator according to claim i, characterized in that the symmetrically arranged coal columns on both sides of its fixed wall lying in the plane of symmetry, rest and, the Knivehebiel presses on double-armed levers on the coal columns. q .. Coal pressure regulator according to claim 1, 2 or 3, characterized in that the parts of the toggle lever are pressure stilts mounted on both sides in toe bearings. 5. coal pressure regulator according to claim q., Characterized. characterized in that the bearings of the pressure stilts are adjustable -arranged. 6. coal pressure regulator according to claim ¢, characterized in that the stilts are adjustable in length.