DE2064953A1 - Aerosol can with a spray valve and a pressure-reducing device. Eliminated from: 2028628 - Google Patents

Description

Aerosol can with a spray valve and a pressure reducing effect Device in the construction of containers of the aerosol bomb type or of commercially available atomizers, which are used to distribute the product in the form of a mist are determined, the problem of security is both admittedly imperative during storage as well as during transport in the retail chain and at Consumer. For an undefined reason, for example due to a mechanical or thermal shocks or as a result of an unforeseen chemical Reaction of the pressure inside the envelope rise in an excessive manner, causing a risk of explosion may result. It can therefore be seen that the use of a safety device is desirable. This device must function automatically and always ready for use be. On the other hand, the relatively low price of these devices makes it necessary that a device is used that escapes to advance payment of makes expensive components necessary to achieve the necessary security.

The present invention has for its object, containers from Type of aerosol bomb to give a great application security, without the cost price of the device to increase significantly.

The present invention thus relates to a new safety device, which is intended for use in the wall of a container and essentially thereby is characterized in that it consists of an elastic part that is subjected to force is inserted into an opening arranged in the wall of the shell of the container and in the direction from the inside of the envelope to the outside first from a sealing edge or -flange, which is supported on the inside of the opening, and then thaw one deformable cylindrical bowl or vessel, which or with a likewise deformable bottom is connected, the one on the opposite in its middle part Side of the edge has directed soft tube attachment, with a solid closure member with an outer diameter that is larger than the inner diameter of the soft Pipe socket, in this pipe socket is used and this in the case of a normal Pressure difference between the interior of the container and the space outside the container closes tightly, however, this increases with an increase in the pressure difference deformiert. and an outflow of fluid from the container is allowed to the outside.

fas outflow of a fluid or fluids contained in the envelope included, in case of abnormal overpressure inside the envelope will be due achieved by combined deformations that overpressure in the deformable cylindrical vessel on its deformable bottom and on the soft one Pipe socket, which is in contact with the closure member.

The present invention also relates to a new container of the aerosol bomb type, the. is essentially characterized in that he, preferably in a protected area of his outer shell, at least one Has safety device described above.

In the case of a container of the type of an aerosol bomb, in which the Products can only be under pressure at the moment of their distribution, the closure device consist of the spike or pin designed to pierce the capsule, which contains the fluid pressure medium. In this case, the soft pipe attachment can be outside and a corrugated inner area in front of its inner diameter for tightness have an inner diameter that is smaller than the outer diameter of the Pen, on which it rests partially with hard friction. If the aerosol bomb still is not under pressure, so is the inner area of the shell, which the capsule with contains fluid pressure medium, through the channel of the soft pipe socket and the between the grooves or corrugations present interspace in direct connection with the atmosphere, which is why no overpressure can build up in this part of the envelope. After the through hole, the casing is put under pressure, which, if the Pressure increases too much, the elastic safety part in the above described Way terformt, the piercing pin then the role of the above-mentioned fixed Closure organ plays.

The above-described Sicherheitsvor direction according to the invention can also be seen on any other container that contains a product under pressure, can be applied as an aerosol bomb type, hence the present invention in in no way to this special application of the safety device according to the invention is limited. The present invention particularly encompasses a use of the Safety device described above, which ensures the conditioning of products under pressure allowed, with a pressure of the fluid propellant achieved which is constant during the use of the container and depends on the vapor pressure fluid propellant used is different. It should be noted that in so far known pressurized containers generated by the fluid pressure medium Internal pressure generally equal to the vapor pressure of this fluid at that temperature of the container is. In general, liquefied gases are actually used, their Vapor pressure at ordinary temperature on the order of 2 to 4 kg / cm lies.

The present invention therefore also comprises a new one according to the invention Device as described above, which is an elastic part in the form of a Has a bowl or a shell and an organ that is in the at the bottom of the bowl arranged soft pipe socket is fitted, which is essentially characterized is that it is at one point on the wall of a container that contains a fluid propellant, such as a liquefied gas, is arranged, the outer diameter of the closure member in relation to the inner diameter of the soft tube attachment is selected in such a way that the opening pressure of the device is caused by deformation of the soft pipe socket is lower than the vapor pressure of the fluid propellant, contained in the container on which the device is mounted, wherein the container, which is provided with its device with cup and closure member, is itself inside a shell that is closed by a distribution valve and contains at least one product to be distributed under pressure.

In a preferred embodiment of this variant, the container is on which the device is attached with the cup and closure member, a metal cartridge, for example made of aluminum with a substantially cylindrical shape, which is a fluid Pressure media of known type, such as chlorofluorinated hydrocarbons or butane, wobe¾.das elastic part in the shape of a bowl made of a natural or synthetic elastomers with a Shore hardness between 65 and 75, the closure member is a simple cylindrical pin that is forcibly inserted into the soft tube attachment of the elastic part is pressed in, and the shell, inside which the container containing the fluid pressure medium is arranged, a container may be of the aerosol bomb type, which at its upper part is a classic Distribution valve and having an inserted bottom at its lower part.

Surprisingly, it was found that in the case of an elastic part with a given Shore hardness with a soft pipe socket with a given inside diameter the opening pressure of the device according to this variant is essentially constant remains when the diameter of the cylindrical pin that forms the closure member, varies within certain limits, with this pressure then increasing considerably, when the diameter of the locking pin is outside the stated range elevated. Therefore, if you are in accordance with a preferred embodiment of the present Invention is located in the range in which the opening pressure as a function of the diameter of the locking pin remains essentially constant, it is important that one pegs for a soft tube attachment with a given inner diameter closure can use the diameter of which is not manufactured with great precision needs to be, the opening pressure despite a large tolerance in the diameter of the pen nevertheless remains essentially the same. That possibility the tolerance in the diameter of the locking pin and the soft Pipe socket allows the production of the device according to the invention with a very low cost price.

It was found that in the outer shell that the loin to be distributed conditioned product and the container with fluid pressure medium. the one with the device is provided according to the variant contained above, / there is a differential pressure, that of the difference between the vapor pressure of the fluid contained in the container Pressure medium and the opening pressure of the device with cup and closure member, attached to the container is the same. The fluid pressure medium actually flows with a vapor pressure that is greater than the opening pressure of the device that is connected to the container in which it is contained, from the container to the interior the outer shell. The pressure inside this outer shell increases until it reaches such a value that the difference in pressure between the interior of the container that contains the fluid pressure medium, and outside of this container is equal to the opening pressure of the device connected to the container. At this point in time there is no flow of fluid pressure medium between the container and the outer shell take place more and the pressure inside the outer shell therefore remains constant.

When the product is distributed through the distribution valve Outer shell under the effect of the pressure that prevails inside this shell, takes place, the pressure inside this envelope decreases and it occurs as The consequence of this is a flow of fluid pressure medium from the pressure medium contained in the outer shell Container on. This flow continues until the pressure inside the outer shell prevails, reaches the previous value again.

From the above it can be seen that the pressure inside the outer shell is significantly lower than the vapor pressure of the fluid pressure medium used. You can, for example, with a fluid pressure medium with a vapor pressure of about 3.5 kg / cm² achieve a pressure of 1 kg / cm² inside the outer shell with which Condition that a closure device is selected for the container whose Opening pressure is substantially equal to 2.5 kg / cm².

The two essential parameters in terms of opening pressure of the device with cup and closure member, which are connected to the inner container play a role are essentially for a given inside diameter of the soft tube attachment, the diameter of the closure member and the Shore hardness the material from which the elastic cup-shaped part is made. Since you preferably such a diameter of the closure pin used that one is in the area in which the opening pressure is essentially constant is, as it has been described above, the value of this opening pressure can be seen be chosen at will by modifying the Shore hardness of the elastic material from which the elastic part in the shape of a cup is made; With a modification of the According to the invention, the pin forming the closure member can be of two different types Have diameters, one of which is the opening pressure used during operation and the other corresponds to an opening pressure that is greater than that Vapor pressure of the liquefied gas at ambient temperature. This device allows the implementation of the filling in the following way: The container holding the fluid pressure medium should contain, is provided with the elastic part in the shape of a cup and in this Container will liquefy the desired amount Pressure medium fluid brought in. Then the elastic part of the locking pin is inserted into the soft tube attachment pressed in, using the larger diameter of the pin to open this way to avoid any leakage of pressure medium fluid. Then the so filled containers are brought into the interior of the outer shell, previously with their distribution valve provided and filled with the desired product to be distributed. then the large diameter of the locking pin is released by the small diameter is let into the interior of the soft pipe socket, whereby a directly Flow of pressure medium fluid is caused, after which then immediately the bottom the outer shell is used to close it.

It was found that the fact of introducing a large diameter of the pin into the interior of the soft tube socket before using the Klinen Diameter does not cause any significant change in the opening pressure of the device, provided that the period of time during which the area is large Diameter is pressed into the soft pipe socket, is relatively limited and for example on the order of a few hours.

Finally, the present invention also comprises a new container, which is intended for the distribution of at least one product under pressure, the The container is provided with a valve and is essentially characterized by that it consists of an outer shell, inside of which there is on the one hand that which is to be distributed Product and on the other hand an inner container are located, which is a fluid pressure medium contains and is provided with a safety device according to the invention which consists of an elastic part in the shape of a cup and a closure member, which is in a soft pipe socket is fitted, which is at the bottom of said Bowl is located.

This embodiment of the present invention allows according to one their essential properties are the manufacture of pressurized containers, whose outer shell is made of plastic or glass, while so far named container are made of aluminum sheet. Indeed, in the case of an accidental one Rupture of the container under the action of the prevailing inside the outer shell Printer resulting explosion in the case of a container according to the invention is extraordinary limited, as it only takes place under the differential pressure that prevails in this envelope, and not under the effect of the full vapor pressure of the fluid pressure medium. This property is particularly important from a commercial point of view.

For a better understanding of the present invention, the following three exemplary embodiments of the invention, which are merely illustrative of the same, but are not intended to be limiting, are described in detail with reference to the drawing. The figures show: FIG. 1, in section, the concave bottom of an aerosol bomb, which is equipped with a safety device according to the invention is provided, as is the case with a bomb, which is put under pressure when it is filled during manufacture, FIG. 2 shows the section of the Safety device according to FIG. 1 in a larger view, Big. 3 in section the Bottom of a container of the type of an aerosol bomb, which is equipped with an inventive Safety device is provided with the container at the moment of its use is put under pressure -Fig. 4 the deformable shown in FIG Safety device in a perspective view, FIG. 5 shows the protective hood of the Safety device in plan, provided for a container of the type shown in FIG shown type, Fig. 6 is a schematic section through a container from Type of aerosol bomb containing an inner container which is fitted with a device provided with cup and verse closing organ Fig. 7 is a locking pin with two Diameters in section and FIG. 8 is a graph showing the change de-s opening pressure on the inner container that contains the fluid pressure medium, Applied device shows as a function of the diameter of the locking pin.

On the cylindrical outer body 1 shown in Figs. 1 and 2 one The aerosol bomb type container according to the invention is circular Flange 3, a concave hemispherical bottom 2 is added; In the middle of the concave An annular opening 4 with non-cutting edges is attached to the bottom 2, which is locked by a deformable elastic X part that has an edge or Has flange 5 which rests on the inside of the bottom 2. A cylindrical one Zone 6, which is deformable under the effect of an internal overpressure, is through a rounding is connected to a floor 7, which is also deformable. This floor 7 has a cylindrical soft pipe socket 8, which in a tight manner the cylindrical body 9 of a solid closure member locked is that einonotst with the application of force in the pipe socket 8, the head 10 the Vorsechlußorgann rests on the inside of the bottom 7.

A circular bulge 11 on the outer wall of the cylindrical Zone 6 ensures the positioning of the deformable part with respect to the circular one Opening 4 against displacement into the interior of the bomb by external influences.

The head 10 of the fixed closure member has a notch 12 on showing a partial interruption of the continuity in the contact zone between this head and the inside of the bottom 7 of the deformable elastic member brings about.

In Fig. 3 to 5, a second embodiment of the invention is illustrated, which is suitable for containers from the fljyp of an aerosol bomb, which is only at the moment their use are under pressure. In this embodiment, the role plays the fixed Yerschlußorganes a pin or Staffel 13, which with a circular Plate 14 is connected, which is provided with a hollow sleeve 15 which a Forms stop, the pin 13 extending through this sleeve. A protective hood 16, which has tear notches 17, is through a cylindrical lip 18 on the outside is pressed onto the circular flange 3 of the bomb, attached. The protective hood 16 has a peelable tab 22 and a predetermined breaking slot 23, which runs along their generatrix runs.

The container shown contains a movable one. Piston 27 above of which the flowable media to be distributed are arranged. With the lower part The piston has a cartridge 19 which contains a fluid pressure medium.

In Fig. 3 is only the lower part of the container and its Piston shown. The tip 20 of the pen 13 is at a distance from the ground 21 of the capsule 19, which is narrower than the space between the sleeve 15 and the cylindrical pipe socket 8.

In the deformable elastic part, the center has this Part arranged cylindrical passage for the pin 13 on two zones, of which, seen in the direction of penetration of the pin, the first zone 24, which in the Part is arranged in the outward direction, is corrugated on the inside or has grooves, while the second zone 26 is cylindrical. These two zones have an inner diameter which is slightly smaller than the outer diameter of the pin 13. They point to their Outer wall has a local taper 25. It should be noted that the protective hood 16 provides additional security by preventing accidental knocks on the Plate 14 fends off an untimely perforation of the capsule 19 by the pin 13 and could pressurize the bomb prematurely, If in the first case described above, i.e. in the case of a bomb that was under pressure during its manufacture is set, a dangerous overpressure occurs, this leads to the safety part assumes a hemispherical shape. The excess gas penetrates through the notch 12 under the lip 8 of the soft pipe socket and evaporates into the atmosphere. The position of the deformed safety part is shown in dashed lines in FIG.

In the case of the bomb, which is only pressurized at the moment of application commissioning takes place in the following way: The user lifts the removable Tab 22 high, the hood 16 is along the predetermined breaking notch e3 and the perforations 17 torn loose and can be easily removed. If you then press on the plate 14 exercises, so enters the top of the Pin 13 in the tight channel 26 of the elastic part and then pierces the bottom 21 of the capsule 19. The The bomb is then pressurized and the clamping connection between the pin 13 and the wall of the cylindrical zone 26 of the deformable elastic member extends off 'to ensure the tightness of the contact points between these parts. if however, if a dangerous overpressure occurs, this will result in the same way as in the preceding In the event that the safety part assumes a hemispherical shape that causes the spreading out the tapered part 25 of the pipe socket 8 causes and a gas outlet, nal forms1 until there is again a pressure inside the container that corresponds to the due to the nature of the envelope is consistent with the required security. The position of the deformed safety part is in Big. 3 shown in dashed lines.

FIGS. 6 to 8 relate to that shown in FIG Container 30 of the aerosol bomb type. The container 30 has in its upper part a distribution valve 31 which is connected to a T'auchrohr 32. In his The lower part is the container 30 by a flanged onto the side wall Bottom 33 closed. Inside the container 30 is a liquid to be distributed Product 34 and a cylindrical cartridge 35 arranged, the inside of a Liquefied gas existing pressure medium 36 contains. The vapor pressure of the fluid 36 at ordinary temperature is about 3.5 kg / cm2. The cylindrical cartridge 35 is made of aluminum sheet and on its upper part with a static Part 37 provided.

The elastic member 37 is made of a synthetic rubber with a Shorc hardness of 70. It includes, viewed from the interior of the cartridge 35 in Direction towards the space outside this cartridge, a sealing edge or flange 38, which is supported on the inside of the wall of the cartridge 35, then a deformable cylindrical cup 39 and finally in the middle part of the cup 39 a soft cylindrical pipe socket 40 with an inner diameter of 1 mm. Within of the pipe socket 40 is a locking pin 41 with a diameter of 1.15 mm arranged.

It has been found that the opening pressure of the device 37 to 41 is about 2.5 kg / cm2 and consequently the inside of the outer shell is fO-dominant Pressure about 1 kg / cm2. This shell can therefore be made of glass or plastic will.

FIG. 4 shows an interesting variant of the in combination with the elastic part shown in cup shape usable locking pin. This locking pin 42 successively comprises two zones of different diameter, the zone 43 with a diameter of 1.5 mm and then the zone 44 with a diameter of 1.30 mm. Such a locking pin can in combination with the elastic part 37 'are used, the -for the in Fi'g. 6 described device shown has been.

The graph of Figure 8 shows as a function of diameter of the locking pin used, the change in the opening pressure at which by Deformation of the cup 39 and the pipe socket 40 an upflow between the pipe socket and the pin 41 enters. Bs was found to be the opening pressure essentially remains constant at 2.5 kg / cm2 when the locking pin has a diameter between 1.10 and 1.20. The opening pressure is for a diameter of 1.30 mm on the order of 13.5 kg / cm2. Line 45 illustrates the limit above which the outer shell 30 is deformed by an internal overpressure. The graphic The representation of FIG. 8 shows the ordinate that prevails in the interior of the cartridge 35 Internal pressure in kg / cm2 and as the abscissa the diameter of the used Locking pins in mm. Dieauc graphizoho: Dwrte11un relates tioh atf oin elastic Part 37 with the properties given in the example described above.

To produce a container having a pin 42, is the cartridge 35 is provided with its elastic part 37 and inserted into the cartridge 35 the fluid pressure medium 36 introduced. Then the pin 42 is in the socket 40 pressed in such that the zone 44 is located within the pipe socket. At this point in time there is no outflow of fluid pressure medium from the cartridge 35 to the outside, since the vapor pressure of the fluid pressure medium 36 is lower than 13.5 kg / cm2. The outer shell 30 is provided with its valve 31 and that to be distributed Product 34 is added.

Then the zone 44 of the pin 42 is pulled out of the pipe socket 40, until the zone 43 interacts with the pipe socket 40. At this point occurs Outflow of fluid 36, since the opening pressure of the device 37 to 43 is 2.5 kg / cm2. The cartridge 35 is inserted into the casing 30 and the base 33 is used immediately to close the cover. The pressure inside the case adjusts to 1 kg / cm2 and with each distribution of product 34 an outflow occurs of fluid 36, which exits through the pipe socket 40, in such a way that the internal pressure of about 1 kg / cm2 of the envelope 50. is restored.

The device according to the invention allows the avoidance of permanent Contact of fluid pressure medium in a liquid state with the product to be distributed, which is beneficial.

The embodiments and forms of application described above Safety device according to the invention are only intended to illustrate the invention but not limitative, as numerous modifications can be made without to leave the scope of the invention. The deformable elastic according to the invention Device can be used in particular as a safety device at all points pressurized container and, for each, its type of pressurized container Containers as the aerosol bombs are used.

Claims (13)

P a t e n t a n s p r ü c h e 2. Aerosol can with a spray valve and a pressure-reducing effect Device characterized by a fixed in a container opening along a Sealing edge inserted insert made of elastic material, the one in the Has container surrounding space opening channel and through a channel up to a specified pressure difference between the interior and exterior of the container sealing cylindrical closure member, the outer diameter of which at the sealing point is larger than the inner diameter of the channel, which is known per se, and further characterized in that the insert is cup-shaped and its bottom (7) merges centrally into an outwardly directed pipe socket (8, 4o) in which the Closure member (9, 13, 41, 42) sits sealingly, the ratio of the inner diameter of the pipe socket (8, 40) and outer diameter of the closure member (9, 13, 41, 42) as well as the material elasticity and strength of the pipe socket (8, 40) are dimensioned so that this is reached again when the specified pressure difference is exceeded this pressure difference is elastically deformed to form a fluid outlet. 2. Aerosol can according to claim 1, characterized in that the pipe socket (8) has a reduced wall stretch at at least one point (25). 3. Aerosol can according to claim 1 or 2, characterized in that the pipe socket (8) has a sealing zone (26) and one adjoining it to the outside having recessed area (28). 4. Aerosol can according to one of the preceding claims, characterized in that that the material of the insert is a natural or synthetic elastomer with a Shore hardness of 65 to 75. 5. Aerosol can according to one of the preceding claims, characterized in that that the closure member (9) has a head resting on the bottom (7) of the insert (io has, which interrupts the contact surface of the head (lo) on the floor (7) with a Notch (12) is provided. 6. Aerosol can according to one of the preceding claims, characterized in that that a piston is movably arranged in the can, including a cartridge with pressurized fluid attached and the device substantially in the middle of the concave can bottom and arranged opposite the cartridge, the closure member being cylindrical Rod (13) is formed which at its end located in the container interior with a Tip (2o) provided and sealing in the pipe socket (8) to open the cartridge is movable. 7. Aerosol can according to claim 6, characterized in that the rod (13) with its tip (20) through a protective hood (16) that can be removed from the can is protected from external impacts. 8. aerosol can according to one of claims 1 to 5, characterized in that that the pressure-reducing device is arranged on one inside the can Propellant fluid container sits'. 9. Aerosol can according to claim 8, characterized in that the outer diameter of the closure member (42) 1.1 to 1.2 times the inner diameter of the pipe socket (8) is. lo. Aerosol can according to claim 9, characterized in that the closure member has a further area in which the outer diameter of the closure member (42) 1.25 to 1.4 times the inner diameter of the pipe socket (8). 11. Aerosol can according to one of claims 8 to Io, characterized in that that the container (35) is substantially cylindrical in shape and made of aluminum sheet consists. 12..Aerosol can according to one of claims 8 to 11, characterized in that that the pressure fluid in the container is made of butane or chlorofluorohydrocarbons consists. 13. Aerosol can according to one of claims 8 to 12, characterized in that that the outer shell of the can is made of sheet aluminum, plastic or glass. Blank page