DE10149407A1 - Method for filling bottle with tire sealant comprises feeding carbon dioxide or nitrogen into space above adhesive before or during filling - Google Patents

Abstract

The method for filling a bottle (1) with tire sealant (5) comprises feeding carbon dioxide or nitrogen (10) into the space above the adhesive before or during filling. An Independent claim is included for a bottle of tire repair adhesive with a gas filling as described above.

Description

The present invention relates to a method for Filling containers with tire sealant, taking in one Tire sealant container entered and then the Container is closed.

With such known methods are preferred elastic plastic container with Tire sealant filled. So that a pressure equalization inside the container, especially between one Surface of the tire sealant and a removal opening is still possible, the container is preferably not completely filled so that an empty space remains.

For example. in the event of changes in temperature, the Expansion of the tire sealant, the amount remaining in the room Squeeze air to a corresponding one To ensure pressure equalization in the tank without that it bursts or tears open its closure.

However, it is disadvantageous that, particularly in the area of a Surface, when using tire sealant with latex or rubber or natural rubber components, these The surface coagulates and the latex is nucleated fails. This is a durability of the Tire sealant limited in the container.

Another disadvantage is that, for example Temperature changes, in particular through Temperature increases the ammonia components themselves from the Loosen tire sealant and diffuse into the room what is also undesirable. This will also Durability and consistency of the tire sealant undesirably affected.

The present invention is based on the object Method and a container of the type mentioned create with which the disadvantages mentioned are eliminated and with which the durability Temperature resistance and the shelf life of Tire sealant should be significantly improved.

To solve this problem, that leads to before or during Closing the container to at least one gas is fed.

In the present invention has been found to be special proved advantageous a space between the surface of the Tire sealant and a removal opening of the container, preferably in the area of the container neck, according to Fill the container with tire sealant with a gas to fumigate.

Nitrogen is preferably used as the gas, but also carbon dioxide or another gas, possibly mixed in the room fed so that when using gases that are heavier than air, which displaces air in the room.

After introducing the gas, the container becomes tight in the Area of the removal opening by means of, for example Closure film, a lid of a removal device or the same closed. This will make the Surface of the tire sealant wetted with gas, which prevents the formation of germs or bacteria.

Nitrogen is preferred as the latex-compatible gas or carbon dioxide, which is lower Has diffusion pressure as air against ammonia, so that a diffusion of ammonia from the tire sealant in the room is diminished.

It should also be within the scope of the present invention the gas at atmospheric pressure, even at excess pressure to bring into the room. This is preferably done after filling the tire sealant into the container.

Also included in the present inventive concept be that after filling the container the remaining one Vacuumed the room and the extraction opening under vacuum is closed. This also ensures that nucleation of the tire sealant on the Surface formation in particular of coagluates of the Tire sealant is prevented.

However, gassing with nitrogen is preferred. hereby can the durability of tire sealant be trained as Full- or Lowamonia or Art-LaWees, increase significantly. It has also proven to be advantageous that with large temperature fluctuations, e.g. when the Container of tire sealant used in a car is that ammonia or other preservatives from the Tire sealant leaks only very slightly or diffuses out what the durability and Resistance also increased.

Further advantages, features and details of the inventions emerge from the description below more preferred Exemplary embodiments and with reference to the drawing; this shows a schematically represented in its single figure Top view of a container of tire sealant.

According to FIG. 1, a container R on a container wall 1 which is tapered upwardly and forms a container neck 2. In the area of the container neck 2 , an external thread 3 is preferably provided for receiving a lid, a closure and / or removal device, not shown here. A removal opening 4 is formed at the end of the container neck 2 .

After filling the container R with tire sealant 5, the removal opening 4 can additionally be sealed or closed by means of a sealing film 6 .

So that when the temperature of the tire sealant 5 changes, the closure film 6 and / or the container wall 1 are not subjected to excessive pressure loads, the container R is not completely filled with the tire sealant 5 , so that a space 7 is formed between the removal opening 4 or the closure film 5 and a surface 8 of the tire sealant 5 is.

Preferably after the container R has been filled with tire sealant, the space 7 is filled with tire sealant 5 by means of a filling device 9 and with gas 10 , in particular nitrogen and / or carbon dioxide.

As a result, the remaining air in space 7 is displaced and escapes through the removal opening 4 .

A heavier gas 10 than air is preferably used. Nitrogen is preferably used. Nitrogen is heavier than air and in this way displaces the air from the space 7 or from the container R. After the space 7 has been filled with gas 10 , the container R is tightly closed, for example by means of the sealing film 6 .

An advantage of the present invention is that in the area of the surface 8 of the tire sealant 5 , which also contains latex and / or other natural rubber components and / or synthetic LaWees, they do not coagulate through germs in the air.

Due to a germ-free environment in the room 7 , due to the gassing, the rubber or latex components and / or synthetic LaWees on the surface 8 of the tire sealant 5 do not tip over. This significantly increases the durability of a conventional tire sealant.

Furthermore, conventional tire sealants 5 contain ammonia as a constituent, which likewise does not diffuse into the space 7 when nitrogen is used, since a lower diffusion pressure in the space 7 for ammonia arises through the introduction of the gas.

This will also increase the shelf life of Tire sealant in container R increased.

It should also be within the scope of the present invention to create a germ-free and bacteria-free environment in room 7 , to vacuum it. Then the sealing film or a corresponding pressure-insensitive lid would have to close the container R accordingly after the vacuuming or during the vacuuming.

This should also be within the scope of the present invention. Item number list 1 container wall
2 container neck
3 external threads
4 removal opening
5 tire sealant
6 sealing film
7 room
8 surface
9 filling device
10 gas
R container

Claims (12)

1. A method for filling container (R) with tire sealant ( 5 ), wherein tire sealant ( 5 ) is entered into a container (R) and then the container (R) is closed, characterized in that before or during the closing of the container ( R) this at least one gas ( 10 ) is supplied. 2. The method according to claim 1, characterized in that the gas ( 10 ) in a space ( 7 ) between a surface ( 6 ) of the tire sealant ( 5 ) and a removal opening ( 4 ) before or during the filling of the container (R) entered becomes. 3. The method of claim 1 or 2, characterized in that a gas is selected (10) as a gas (10), which is heavier than air. 4. The method according to at least one of claims 1 to 3, characterized in that nitrogen or carbon dioxide is used as gas ( 10 ). 5. The method according to at least one of claims 2 to 5, characterized in that by introducing the gas ( 10 ) into the space ( 7 ) through the removal opening ( 4 ) in the space ( 7 ) remaining air through the gas ( 10 ) is ousted. 6. The method according to at least one of claims 2 to 5, characterized in that the gassing of the space ( 7 ) nucleation and formation of coaglates of the tire sealant ( 5 ) to increase the durability of the tire sealant ( 5 ), in particular the latex and synthetic latex on the surface ( 8 ) is prevented. 7. The method according to at least one of claims 1 to 6, characterized in that after filling the container (R) with tire sealant ( 5 ) and after supplying gas ( 10 ) in the container (R) this is sealed airtight. 8. A method for filling container (R) with tire sealant ( 5 ), in which a container (R) tire sealant ( 5 ) is entered and then the container (R) is closed, characterized in that after filling the container ( 5 ) The remaining space ( 7 ) in the container ( 5 ) is vacuumed and then the container ( 5 ) is tightly closed while maintaining the vacuum. 9. Container for tire sealant ( 5 ), characterized in that a tire sealant compatible gas ( 10 ) is introduced in a space ( 7 ) between a surface ( 8 ) of the tire sealant ( 5 ) and a removal opening. 10. A container according to claim 7, characterized in that the gas ( 10 ) is nitrogen and / or carbon dioxide. 11. A container according to claim 7 or 8, characterized in that the gas ( 10 ) is heavier than air. 12. Container according to at least one of claims 7 to 9, characterized in that the gas ( 10 ) is a latex and / or synthetic latex compatible nitrogen.