DE419975C - Piston knife - Google Patents

Description

Piston knife. The invention relates to a slide control for piston knives. It has already been proposed to reverse the slide by one or more springs caused by the movement of the piston tense «- earth. To carry out the tensioning of the springs is then suggested have been to prevent a movement of the slide or the slide rod by that a latch either on the slide rod itself or on a shoulder the slide rod engages and secures the same against movement. During this If the pawl is in this safety position, the piston is tensioned by its movement the springs, and when the piston has reached a certain position, either the pawl in that a lifting surface is provided on the piston, which on an arm provided on the pawl acts, lifted, or it becomes a these pawls in position holding completion by the further displacement of the piston pushed out of its locking position so that the pawls swing out and release the slider for movement.

The present invention now differs from the known ones in that the reversing of the slide does not come from the fully open position, but from one that is already very close to completion and for a short time held position closed by the known per se, proceeding from the piston Movement of the slide when reaching the stated position shortly before completion the pawl, which is known per se from the piston, is stopped. While When it is lifted out, the pawl engages on a resilient resistance member, and thereby the movement of the slide is temporarily interrupted.

In the drawings, Fig. I represents an axial section through one end of a piston knife and Fig.2 an axial section at right angles to Fig. i with a. small change of the knife. Fig. 3 is an axial section through a slide, Fig.q. a section through a double stop device, and Fig. 5 is a partial end view of Fig. Q ..

The piston i plays in a cylinder io and is moved in it by the pressure of the liquid. The ends of the cylinder are closed by similarly designed cylinder heads ii. In the cylinder heads are passages which are in communication with passages in the cylinder, namely an inlet passage 12 and an exhaust passage 13. Between the cylinder itself and the passages 12 and 13, apertured bushings 22 and 23 are connected and move in these bushings Slides 2 and 21 which are also provided with openings. Slider: 2 controls the inlet slide and slide 21 controls the outlet slide. These two slides located at one end of the cylinder are connected to one another by a rigid yoke 2o. On the opposite side of the slide there are two similarly designed slide, and the two pairs on the two ends of the cylinder are connected to one another by a rod 24 which extends through the piston i. Caps 14 are removably inserted into the cylinder heads to allow access to the valves. A slide rod 31, around which a tension spring 30 is placed, extends through the slide. The rod 31 lies in the range of motion of the piston i. At one end the springs 3o are firmly attached to a bush 32, which also serves as a bolt, and this bolt removably connects the slide to the yoke 2o, while the valve rod 31 can slide within the high bolt (see Fig. 3 ). The other end of the spring 30 is connected to a nut 33 which sits on the outer end of the slide rod 31. > A lock nut 34 can be used in conjunction with this nut 33. The rod 31 can be adjusted by means of the nut 33 in order to determine the position in which the piston strikes the rod 31. This also determines the tension of the spring 30 at the moment the piston is reversed. In addition to this spring device, another spring 3 can be switched on directly between the piston and the valve yoke or a collar 4 attached to it. This spring 3 is then placed around the rod 24. As shown in Fig. 2, this spring 3 can be omitted and only the spring 3o can be used.

In order to enable the springs to be tensioned, a locking device is provided. This consists of a pawl 5, which is swingably mounted at 5 i in the cylinder head and carries an arm 50 with a 1 @ ollc 52. The roller 52 comes into contact with an inclined surface 15 provided on the piston as the piston moves, thereby swinging the arm and pawl. As long as the pawl engages the yoke 20 or the collar 4 connected to it, the slides are held against movement, so that the springs 30 are tensioned during this time.

The collar 4 is on its front surface close to its circumference with a recess 41 is provided, and a pin 42 with a head 43 is slidable in a bore 4.4 in the collar 4, so that the pin is parallel to the cylinder axis can move. The head .13 is with respect to the collar by tongue and groove connection 45 secured against rotation. Characterized by the fact that a disc 46, which is under spring pressure stands, presses against the pin, this pin is yielding on that side of the Collar 4 pressed towards which the pawl 5 faces. The spring pressure on the Disc can either be exercised by the spring 3, as shown in Fig.i, or by a special spring 47, as shown in Fig. 2, which is then with its other end against an adjustable collar48 which is on the rod 24 is set so that it cannot come into contact with the piston i. During the swinging movement of the pawl 5, this pawl now comes into a position in which it is no longer in engagement with the collar 4, but only with the head 43. Since the pin 42 is resiliently mounted, a small Displacement of the yoke 2o or the collar 4 take place, namely until the head against the rear wall of the recess 41 abuts. Then there is a move on the collar and thus also the slide prevented. This stop only lasts a very short time, and only until the latch is completely open from the operation the head 43 is excavated, d. H. in the position shown by the dashed line in Fig. 4. Of the Stopping point for the movement is set so that the slide in its movement be interrupted at a time when the exhaust valve is at one end and the inlet valve at the other end almost but not completely closed and just before the inlet valve 2 opens at that end of the valve after which the piston moves towards. This will reduce the movement of the piston so that the exit speed of the liquid through the ejection cylinder 2i im is essentially the same for each print. - But at the same time it is also through the adaptability of the device due to the resistance to valve movement different thickness of the liquid to be measured balanced. '

Claims (2)

P_1TENT CLAIMS: i. Slide control for coll; en knife, in the the reversal of the slide under the action of one or more of the pistons at his Movement of tensioned springs takes place, characterized in that this reversal not from a fully open position, but from an already very close close position and held for a short time is effected from, by moving the front piston (i) out of movement of the slide (2, 21) when reached the position shortly before completion by the known per se lifted from the piston (6) The latch (5) is stopped. 2. Slide control according to claim i, the pawl through a lift surface attached to the piston from engaging a fixed shoulder is triggered on a slide bar, characterized in that the pawl (5) during their lifting movement in engagement with a resiliently mounted resistance member (43) device, whereby the movement of the slide (2, 21) is temporarily interrupted.