DE388831C - Air starter - Google Patents

Description

Air starter. The invention relates to a compressed air starter, especially for diesel engines, which can be turned into a Compressor is convertible, and that the invention is excellent for such machines suitable, the cylinders of which are in a star arrangement and a common one to control them Have an eccentric whose plane of rotation is parallel to the cylinder star plane. For this machine type. is now in accordance with of the invention a pneumatic Reversal has been found compared to the previously known devices for the same purpose is characterized by extraordinary simplicity and operational reliability, because all adjustments necessary for the conversion of the work done completely automatically by the pressure medium and only the folding of a rooster must be done as the only handout.

On the drawing is the new device with pneumatic operation compared to a device with manual operation.

Fig. I illustrates an embodiment for the conversion by hand, in a longitudinal section through two cylinders of a star-shaped one Engine with six cylinders.

Fig. 2 shows an embodiment for the pneumatic reversal according to the invention in section through the control member.

Fig. 3 is a schematic of an overall arrangement which the machine according to the modification according to Fig. 2 contains.

The crankshaft i is driven by cylinders 2, their pistons 3 on the push rods q. act. One of these forms the main pole and carries the joints of the other five bars or auxiliary bars in the usual way. the Control elements of these cylinders consist solely of a tubular slide 5 for each cylinder. The slide slides lengthways inside the cylinder 2. This pipe slide 5 are driven by a common eccentric 6 which with a control rod in one piece and the joints of the other control rods wearing. Each cylinder has a lid on its upper part? of such a Form that the pipe slide 5 can move between the cylinder and the cover.

Each cylinder has two semicircular channels on its upper part 8 and 9, which are not related to each other. The channel 8 stands with the Outside air and the channel 9 through a channel 1o cast in the cylinder 2 with an annular channel i i in connection, which is located in the housing 12 of the machine is located. This channel i i is in connection with the compressed air line. The principle the control is exactly the same as that of a steam engine control Slider.

Each of the recesses 8 and 9 can by means of the interior of the cylinder a slot 8 'and g connect. These slots can be in a desired Moment on the one hand through an opening 13 in the pipe slide 5 and on the other hand be released by the upper edge 13 'of the pipe slide. A degree tour inside the cylinder and the housing of the machine takes the projection 5 'of the Pipe slide 5 on which the control rod engages. The lead prevents rotation of the slide, but allows the latter to move in the direction the cylinder axis.

To switch from operation as a motor to operation as a compressor, it is sufficient to rotate the eccentric 6 relative to the crankshaft. This twist goes in: the following way: The end 14th of the crankshaft, which the eccentric drives, carries a thread of high pitch which engages in a nut 15. This nut is longitudinally supported by a double track bearing with balls 16 in secured in the longitudinal direction. The nut 15 carries longitudinal grooves 17 at the outer end cooperate with similar grooves in the interior of the eccentric sleeve 18. This eccentric sleeve is itself held in the longitudinal direction by the walls of the housing. Around. to achieve the change in the control, d. i.e., to switch from engine operation to To go over compressor operation, you turn the handwheel 19, which is made of one piece consists of the sleeve that receives the ball bearing 16 and that extends into the interior of the Housing 2o can screw in. Suffice it to do this wheel i 9 in one way or another Meaning to move a number of revolutions sufficient to make the change of the eccentric angle. The handwheel is in one of the operating positions secured by a locking ball 2.1.

Such devices are known. The modified according to the invention Embodiment of the drive used to change the control, in which the movements are automatic, is shown in Fig. 2.

The ball bearing 16 is moved by a sleeve 22, which is made in one piece with the piston 23, which is inside a cylinder 2q. can move which is housed in the lid of the housing.

The mode of operation of the device is as follows: In order to run the machine as a motor, it is sufficient to bring the three-way valve 25 into the position shown in Fig. 3, since special precautions have been taken to ensure that the compressed air can only get into the motor cylinder when the control is changed. The air contained in the container 26 passes through the cock 25 and passes through the pipe 27 into the cylinder 2q .. The piston 23 is displaced and moves the eccentric into the position required for engine operation. When the piston 23 arrives at the end of its stroke, it releases an opening in the interior of the cylinder 24 which communicates through a pipe 28 with a valve 29; the latter is formed by a piston which is held in its final position by a spring. The pressure of the compressed air moves the piston while compressing the spring, so that a connection between the container 26 and the pipeline 30 is brought about, whereby compressed air can get into the annular channels ii according to Fig. I. The machine then works as a motor.

The valve 29 has a strong spring and only leads a short one Lift out to reveal the inlet opening for the compressed air. The piston 23 on the other hand, it is in its corresponding rest position when the machine is running as a compressor returned by a spring 32 (Fig. 2), which is weaker than that of the valve 29 and which has to overcome the entire control resistance. So if you are from If you want to switch from engine operation to compressor operation, it is sufficient to turn the tap Turn 25 to the left by 90 ° in order to connect the pipe 27 with the outside air to put. At that moment the pressure in cylinder 24 and above will decrease of the piston of the valve 29. The latter is moved by a strong spring and in returned to its final position before the piston 23 leads to the line Channel in cylinder 24 has covered In this way it is avoided that when switching suddenly counterforce is given.

The engine, which is no longer supplied with compressed air, remains if it is only positively connected to the thermal engine. If he on the other hand, it is driven by the heat engine that it set in motion, so it runs with it, namely as a compressor, since the piston 23 is pushed by the spring 32 in returned to its initial position and brought the eccentric into that position corresponding to the compressor operation. at this moment it works Machine as a compressor, and the compressed air escapes through the channels i i and through the check valve 33.

A modified embodiment of the device described above can be realized by driving the valve 29 by means of compressed Air replaced by a mechanical drive that you get when you turn the piston 23 can act directly on a plunger by means of a suitable device which moves the valve 29.

Claims (2)

PATENT CLAIMS: i. Compressed air starter which can be converted into a compressor by rotary slide adjustment, in particular for diesel engines whose cylinders are in a star arrangement and whose rotary slides are jointly connected to an eccentric whose plane of rotation is parallel to the star plane of the cylinder, characterized in that the eccentric (6) by means of a cock switch (25) resilient (32) compressed air piston (23) is adjustable, the longitudinal displacement of which is converted into rotation by a coarse thread (i4) and exposes a compressed air line (28) at the end of the stroke, the compressed air through an automatic valve (29) into the ring channels (ii) of the Star cylinder (2) can get to make the machine work as a motor. 2. Apparatus according to claim i, characterized in that the spring (32) of the reversing piston (23) is weaker than the spring in the automatic valve (29) is located, so that when changing the cock (25) for compressed air outlet into the open the valve (29) closes first and then also because of pressure leakage from the feed pipe (27) of the reversing piston (23) the latter under the pressure of its The spring (32) recedes, the line (28) is blocked again and the eccentric (6) turns back to compressor work.