DE220399C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JV * 220399 CLASS 14 d. GROUP

Patented in the German Empire on April 19, 1907.

The present invention relates to a controller for direct-acting steam compressors Regulation of breaks in operation. The novelty is that one to open the inlet control member serving for the drive means. Force element, for example a spring, such influenced by the pressure changes in the pressure vessel fed by the compressor is that through the force element, the inlet control organ for regulating the breaks in operation is opened earlier, later or not at all between the individual piston strokes.

An example embodiment of the compressor according to the invention is shown in FIG Drawing shown.

Fig. Ι illustrates a longitudinal section through the compressor, while FIG. 2 shows a cross section along line BB of FIG. FIG. 3 shows a section along line CC of FIG. 1, while FIG. 4 illustrates the theoretical working curves.

The piston α is arranged in the cylinder b in such a way that two cylindrical steam expansion spaces c and two annular compression spaces d are created, into which the air is sucked through the openings e, f and the annular suction valves g . The two suction valves g are firmly connected to one another by rods h in such a way that they always move simultaneously at the beginning of each stroke, so that one valve is closed as soon as the other opens. The automatic, annular and provided with resilient seats outlet valves i for the compressed air establish the connection with a container, not shown.

The two outlet valves j of the two expansion spaces c, which are provided at the ends of the piston α , are rigidly connected to one another by the rod k , so that one opens when the other closes. They are moved in that the valve to be closed strikes against the end wall of the cylinder at the end of the exhaust stroke. The exhaust occurs through the cavity of the piston α and the holes I, m. The steam enters the spaces c from the chambers n- through annular slides 0 a. In the middle of the piston α , a toothed rack p is attached to it, which engages in the helical gear q. During the reciprocating movement of the piston, the toothed rack p moves the wheel q , and this also causes the gear wheels r, r to move with the arm s attached to the latter (FIG. 3). Loosely on the axis of this arm and parallel to the wheel r thumb disks t are provided, the peripheral surfaces of which are in contact with levers u for moving the inlet valves 0. Springs v, the tension of which can be changed by means of screws w , open the inlet valves. Two attachments x, y are attached to each of the thumb disks t , with which the arms s can come into engagement in order to thereby set these thumb disks in intermittent rotation. In the position illustrated in Fig. 1, the piston α has completed its stroke to the right due to the expansion of the steam in the left chamber c, while here the air in the right compression chamber d is compressed and in the aforementioned loading

. container has been pushed through valve i . The expansion and compression have taken place here approximately according to the curves i, 2 of FIG. 4, while the curves 3 and 4 represent the kinetic energy and the speed of the piston. From this it can be seen that the piston not only serves as a wall for separating the air from the steam, but also has the purpose of collecting energy during the first part of the stroke and transferring it to the air while at the same time overcoming its resistance to compression.

The right arm s comes to a standstill after it has brought the thumb disk t by attacking the shoulder χ in the direction of the arrow in the position Fig. 1, namely at the end of each stroke, which also happens to all other parts of the compressor . The lower end of the lever u rests on the eccentric part of the loose thumb disk t during this pause. If the spring ν has sufficient tension, a torque is created which acts on the loose thumb disk t , causing the latter, lever u and the inlet slide to move

. emotional. While the latter is opening, the thumb disk t continues its rotation in the direction of the arrow by virtue of the lever u pressing against it. The steam then pushes the piston to the left, the right arm s rotating in the opposite direction of the arrow and thus coming into contact with the attachment y of the thumb disk t. The latter is thereby rotated and thereby moves the lever u in such a way that the slide 0 is closed, with the spring υ being tensioned at the same time.

By changing the peripheral distance between the shoulders χ and y of the thumb disk t , you can change the entry or closure period.

By using the changes in the air pressure in the container, which is fed by the compressor, the tension of the springs ν can now be changed in order to thereby reduce or increase the duration of the rest position between the various strokes. In this way it is possible to change the number of strokes per minute without having to change the mean speed of the piston for each individual stroke. Instead of the springs υ , another power source can be used to open the inlet slide, such as an independent motor.

Claims (2)

Godfather t-An sayings: 1. Control for direct-acting steam compressors with regulation of the operating pauses, characterized in that a force element serving to open the inlet control element (0) for the drive means, for example a spring (v), is influenced in this way by the pressure changes in the compressed gas container fed by the compressor, that the inlet control element (0) for regulating the operational pauses after each individual piston stroke is opened earlier, later or not at all. 2. Embodiment of the control according to claim 1, characterized by a loosely arranged, from the piston by means of stops (x, y, s) moved thumb disk (t), by means of which the opening of the inlet control member (0) independently of the movement of the piston, on the other hand the closing is done by the latter. 1 sheet of drawings.