NO129888B - - Google Patents

Description

Compressible tube with closure device.

This invention relates to a compressible tube which is provided at one end with a spout with an axial channel and with a closing device.

Such tubes are generally known and are usually closed using a screw cap. The previously known tubes are, however, afflicted with the disadvantage that a certain amount of the tube's contents remains on the edge of the spout opening after the use of the tube, and passes through between the threads when the capsule is later screwed on, to be pushed out at the capsule's lower edge, so that the tube cannot be kept clean. Furthermore, if the tube is to be closed effectively, the capsule must be screwed quite tightly, which often results in the tube being compressed and damaged or destroyed.

Also the usual tube closure devices with a protective cap which are

screwed over the entire spout to keep the tube closed suffers from certain disadvantages, as the capsule is filled with the contents of the tube, and when it is to be screwed on next time, the contents will be pushed out along the edge of the capsule.

Since the tubes are in most cases filled

under a certain pressure, it will often happen that when the capsule is unscrewed, a larger amount of the contents than is desirable will flow out on first use.

It often happens that people forget to put the capsule on, which results in the contents in the upper part of the tube solidifying and blocking the opening.

The purpose of the invention is to provide a closure device which forms a continuous unit with the tube and which does not suffer from the above-mentioned disadvantages.

The tube according to the invention is compressible and of the type which is provided with a spout with an axial channel and an opening in the spout wall, where the axial channel contains a closing member which consists of a piston-shaped element which is adapted to move with narrow fitting in the spout and where an axial channel is also formed in the element which is closed at the end from the outside and open at the end projecting into the tube, in which the wall of the latter channel is arranged with one or more openings, and where in a specific position of the closing element, the opening in the wall of the spout corresponds to an opening in the wall of the closing element and is distinguished by the fact that the shape and dimensions of the part of the closing element projecting into the tube correspond to the shape of the part which constitutes the transition from the spout to the tube body and where in said part there is arranged a or several openings over which the space between the part of the closing element projecting into the tube and the transition part from the spout to the tube body is connected to the atmosphere.

In a preferred embodiment of the invention, the closing element is provided with a locking pin or cam which cooperates with a groove formed in the spout and limits the closing element's rotational or displacement movement. The shape of the closure element's innermost part corresponds to the shape of the transition part between the spout and the tube body, so that the said closure part in the closed position will fit tightly against the transition part. To ensure that the closing element lies close to the transition part, openings can be arranged which connect the space between the innermost part of the closing element and the transition part with the atmosphere. Several openings can thus be designed in the transition part between the head of the tube and the body of the tube. The end part of a partially emptied tube can be held in a rolled-up state by means of a pin. The tube body can be made of flexible plastic, e.g. polyethylene, while the spout and the closing element can be made of hard plastic, e.g. hard polyethylene. The invention will be explained in more detail by means of an example with reference to the drawing, where fig. 1 shows a vertical longitudinal section through a tube according to the invention and fig. 2 a cross-section taken along the line II—II in fig. 1.

To a tube body 1 which is sealed at the bottom 2 by folding, folding or welding, a spout 3 is attached, whose axial channel 4 has a transverse opening 5 somewhere on the periphery. A closing element 6 is arranged in the spout which is arranged to to be able to be moved with a tight fit and which has an axial channel 7 and an opening 8 which is perpendicular to the channel 7. The closing element is provided with a locking cam which cooperates with a groove 10 in the spout 3 and limits the movement of the closing element. The innermost part 11 of the closing element is of the same shape as the part 12 which forms the transition from the spout to the tube body and lies with a tight fit against the opposite transition part. To facilitate the reciprocating movement of the closing element, the part 12 can be provided with relief openings (13).

During use, the tube is filled with a liquid or paste and is pressed together in the hand at the same time as the closing element is pressed down with the thumb or with the other hand. The openings 5 and 8 will then lie directly opposite each other, so that the contents of the tube will be pushed out through the channel 7 and the openings.

When the tube is to be closed, it is sufficient to relieve the closing element. This will then be lifted as a result of the pressure produced in the tube, thereby closing the opening. 5 The rolled-up end part of the tube can be held in this position by means of a special fastening pin.

The tube can be made of the commonly used materials, but this is preferred

a tubular body of compliant, flexible plastic, such as e.g. polyethylene, while the spout and the closing element should preferably be made of hard plastic, e.g. hard polyethylene. The spout and tube can also form a continuous unit.

Claims (4)

1. Compressible tube which is provided with a spout with an axial channel and an opening in the spout wall, where the axial channel contains a closing member which is constituted by a piston-shaped element adapted to move with a tight fit in the spout, and where in the element an axial channel is also designed which is closed at the end protruding from and open at the end projecting into the tube, in which the wall of the latter channel is arranged with one or more openings and where in a certain position of the closing element the opening in the wall of the spout comes into correspondence with an opening in the wall of the closing element, characterized in that the shape and dimensions of the part (11) projecting into the tube of the closing element (6) correspond to the shape of the part (12) which constitutes the transition from the spout (3) to the tube body (1) and where in said part (12) one or more openings (13) are arranged above which the space between the part (11) of the closing element projecting into the tube and the transition part (12) from the spout to the tube body is connected to the atmosphere. 2. Tube according to claim 1, where the channel in the tube's spout has a circular cross-section, characterized in that a locking pin or locking cam (9) is arranged in/on the closing element which cooperates with a groove (10) in the tube's spout to limit the closing element's angle and axial movement. 3. Tube according to claims 1 or 2, characterized in that the end part of a partially emptied tube is held in a rolled-up state by means of a fastening pin. 4. Tube according to claim 1, 2 or 3, characterized in that the tube body is made of flexible plastic, e.g. polyethylene, while the head and the closing element are made of hard plastic, e.g. hard polyethylene.