DE704962C - Bottle flasks for filling and sealing machines - Google Patents

Description

Bottle pistons for filling and closing machines There are automatic ones Filling and closing machines for bottles and similar vessels, in which these by compressed air by means of a reciprocating piston against the filling element or the closing element be pressed. After completion of the work process, the piston runs when it drops, that should take place as quickly as possible, against the bottom of the lifting cylinder. The resulting impact can affect the contents of the bottle, for example gaseous liquids, thereby having a disadvantageous effect that this in the liquid The gas is loosened and the bottle bubbles over.

To brake the piston shortly before the lower position, is pressed With the help of various devices, an air cushion is formed under this. It a device is also known, with the help of which the reciprocating piston drops briefly is braked before the end position that the outlet opening for the compressed air is blocked by a pin located on the piston rod. This forms In the last part of the stroke there is an air cushion below the piston, which the piston absorbs elastically and slows down the movement of the same without a shock on the Bottle is exercised. In order to raise the piston again, the Compressed air in the cylinder below the piston required a special hole.

This second bore is superfluous if, as proposed according to the invention the pin entering the air outlet hole no longer bores the hole seals tightly, but leaves an air gap free through which the compressed air can step under the piston, when the bottle carrier is raised again shall be. This air gap can be in a channel running along the pin with a corresponding cutout at the lower end of the piston rod or also ring-shaped «-earth in that the diameter of the pin is smaller is chosen as the diameter of the hole. In the latter case, the milling can be arranged anywhere at the lower end of the piston rod. Another change can consist of tapering the pin conically downwards.

The device according to the present invention is shown in Fig. I to 3 shown. Fig. I shows a section through the cylinder of the reciprocating piston and the associated cock of the compressed air line in the position when lowering the Piston, Fig.2 a section through the cock of the compressed air line in the position at the beginning of the lifting of the piston with the lowest piston position, Fig. 3 a Section through the cylinder with a view of the underside of the piston and the pin the piston rod.

The piston 2 is located in the cylinder i. The piston rod is 4. provided with a plate at the upper end, which holds the bottle to be treated wearing. The valve 5, which is only partially shown, is arranged below the cylinder. At its lower end, the piston rod has a pin 6 into which a channel? is milled, which is shown as a milled recess 7a at the bottom of the piston rod 3 according to Fig. I continues. The bypass line 9 connects the tap with the cylinder space above the reciprocating piston 2. The compressed air flows through the bore 8 into the cylinder chamber below the reciprocating piston 2 or out of it.

The compressed air is fed through the line io to the tap, whose Chick 2 passages i i and 12 for directing the compressed air into the cylinder spaces below or above the piston.

For the downward movement of the piston 2 is with the help of the cock 5 in the Position according to Fig. I Compressed air is fed into the cylinder space above piston 2. The piston 2 lowers quickly until the pin 6 enters the bore 8 through which the air flows out of the cylinder space located below the piston. The bore is now largely filled by the pin 6, so that the air can only escape through the narrow channel17. The movement the piston is braked in a short time.

If the piston is to be raised again, the tap is in the Positioned according to Fig.2. The compressed air now flows through line i o, the passage i i into the bore 8 and the channel 7 and initially also through the Milling 7a in the cylinder space below the piston. This fills with compressed air, which lifts the piston. The lifting movement is accelerated as soon as the pin 6 has emerged from the bore 8. The air above the piston can through the Line 9 and passage 12 flow into the open.

Compared to the known device described above, the device according to the present invention the advantage that an additional hole in the tap housing 5 is not necessary for introducing the compressed air into the cylinder space. Opposite to another known device, which the piston movement at the lower end decelerates by narrowing the air outlet opening, results in the device according to the present invention the advantage that the remaining outlet opening for the air cannot change during operation, but rather through the Cross section of the channel 7 is set. The narrow opening of this known device is attached in the cock plug so that the intended effect does not occur if the cock does not adjust itself precisely or not completely tightly in the control is fitted. This disadvantage can occur in the device according to the present invention do not enter.

The design of the pin 6 cannot be modified to that the cross section of the narrow channel 7 in the tap 6 from the piston rod to Pin end increases evenly. This reduces the opening of the narrow channel 7, the further the pin 6 penetrates into the bore 8 of the tap housing, or they increases with the reverse movement. This change in cross-section for the average of the air is also achieved according to Fig. 2, for example, by that the pin 6 tapers conically downwards. In this case the Kana17 fall away completely. Only a short cutout 7a as shown in Figure 2 is required, before the piston is raised again, the first compressed air into the lower cylinder chamber to let in.

Claims (1)

1'AT1? \ TANSI'RÜcitr: i. Bottle carrying flask with an air outlet hole fell asleep shortly before the lower end position.> The pins end at the lower end of the piston rod, characterized by a channel-like air gap (7) in the pin (6) and a Milling (7d) on the lower part of the piston rod. z. Bottle carrying flask according to claim i, characterized through an annular air gap between the cylindrical air outlet hole and the downward tapering pin (6) as well as a cutout (7a) on the lower part of the piston rod and in the upper thicker part of the pin.