DE2033658A1 - Dip tube atomizer - Google Patents

Description

Dip tube atomizer

The invention relates to a dip tube atomizer with two coaxial, adjoining cylinders, in each of which a hollow piston is slidably mounted is, wherein a cylinder is connected to the immersion tube, in the piston of the cylinder facing away from the immersion tube opens a channel which is connected to an actuating button provided atomizing nozzle connected and in one on the actuating button attached pin is arranged, and the mouth opening of this channel is resiliently lockable.

Dip tube atomizers are already known in which the liquid to be atomized is contained in a Container immersing dip tube is connected to an atomizing nozzle via a piston / cylinder unit, which Has valves and represents a suction and a pushing pump. At least one of these valves is formed in the Hegel by a ball, which by means of gravity against the associated Seat is preloaded. As a result, these atomizers can only function if they are in an upright position.

009884/0258

ment and the atomizing nozzle is above said container. In particular, it can be when actuated of the atomizer with the container turned upside down, all the liquid contained in the dip tube and in the cylinder mentioned leaks through the nozzle.

The object of the invention is to eliminate these disadvantages specified type achieved, which according to the invention thereby is characterized in that the piston is connected to the dip tube Cylinder with a sleeve communicating with this cylinder protrudes into the cylinder facing away from the immersion tube and delimited therein a pumping ring chamber, the piston of the latter cylinder and the pin on the operating button being mutually exclusive are inadvertently coupled to one another via an idle movement, and furthermore the hanging chamber as a function from the mutual position of the pin and the piston in the immersion tube, the cylinder as well as the sleeve and the piston in the cylinder facing away from the immersion tube with the mentioned Channel in the pin or with the interior of said sleeve is connectable.

The actuation of the said button causes the annular chamber to be separated from the dip tube, with the atomizing nozzle enters into connection and finally the piston in the cylinder facing away from the immersion tube moves, so that the Liquid contained in the annular chamber is pressed towards the nozzle.

When the actuating button is turned back, the connection interrupted between the annular chamber and the atomizing nozzle and the connection between the chamber and the immersion " pipe restored. Then the piston runs in the raw "

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turned away cylinder back into the starting position and generates a negative pressure in the annular chamber, so that over the
Dip tube liquid is sucked into the chamber and this fills up.

Further refinements of the invention can be found in the attached claims 2 to 11.

0X9884 / 0258

Three embodiments of the invention are described below with reference to the accompanying drawings, for example. Show in it:

1 shows a view of a longitudinal section through a first embodiment;

FIGS. 2 to 4 each show a view corresponding to FIG. 1 same embodiment, but each in a different operating positioni

5 shows a view of a longitudinal section through a second Embodiment i

6 shows a view of the same corresponding to FIG. 5 Embodiment in a different operating position

7 ″ and 8 each show a view of a longitudinal section by a third embodiment, each in a different operating position.

The nebulizer shown has an internally threaded sleeve 1 which fits onto the neck 2 of a FIakons or other container containing the liquid to be atomized can be screwed on.

On the side facing the neck 2, the sleeve is provided with a coaxial recess at its bottom, in which is provided with a cylindrical sleeve 3 washer 3a and a washer provided with a cylinder 4- 4a are included. The cylinder 4- is on the sleeve pressed on and passes at the end remote from the sleeve 1 into a cylinder 5 of smaller diameter. In the latter

00988A / 0258

a dip tube 6 is used.

A pin 7 is slidably mounted in the sleeve 3, which is attached to a push button 8 and an axial bore 9 has. The latter communicates at the end located in the push button 8 with an atomizing nozzle 10 which is inserted into the push button 8.

The pin 7 has a section 7a of larger cross section on, the diameter of which corresponds approximately to the inner diameter of the sleeve 3. The annular disk 3 a of the sleeve 3 has on the other hand, an inner diameter which is smaller than the outer diameter of the section 7a of the pin 7 »so that the King disk 3a <3i.e upward movement of the pin 7 is limited.

A section 7t> closes on the section 7a of the pin 7 in the direction away from the push button 8 reduced cross-section on which the upper part 11a of a piston 11 slides is stored, which is housed in the cylinder 4. The axial bore 9 runs on the one facing away from the push button 8 End in an extension 9a, which is in the corresponding End face of section 7 *> from pin 7 is provided.

The upper portion 11a of the piston 11 has a diameter which is smaller than the inner diameter of the Sleeve 3 · A conical section 11b is provided between the section 11a and the actual piston 11. The upward movement of the piston 11 is therefore due to the contact of the conical section 11b against the free end face of the sleeve 3 limited. The cylinder 4- is provided with a lateral bore 12, at the level of the conical section 11b from the piston 11 when this is in top dead center position is located.

009884 / 0-2 5 8

A guide pin 13a of a further sleeve 13 can engage with a certain amount of play in the lower end of the piston 11. The sleeve 13 is an extension of a second hollow piston 13d ₈ of the "runs in the cylinder 5, since the sleeve 13 has a smaller diameter than the cylinder 4, is formed around the sleeve 13 in the cylinder 4 a Hing chamber fourteenth

A valve body 15 is slidably mounted in the sleeve 13, which continues upwards in a pin 15a, which is slidably mounted in the guide pin 13a of the sleeve 13 and has a greater length than the guide pin 13a. The sleeve 13 also has a lateral bore 16, namely below the valve body 15 »when this is located within the sleeve 13 in the top dead center position. Via the bore 16, the Bisricammer 14 can with the Interior of the sleeve 13 and thus the cylinder 5 in connection step.

Between the valve body 15 "and the bottom of the cylinder 5 a spring 17 is arranged. This loads the valve body 15 against the bottom of the sleeve 13, the upper annular shoulder of the sleeve 13 presses against the piston 11, so its Closing the inner bore, and finally presses the conical portion 11b of the piston 11 against the lower End face of the sleeve 3. Furthermore, the spring 17 loads the pin 7 and 13 via the pin 15a of the valve body 15 the associated push button 8 upwards. The individual components therefore take those shown in FIG. 1 in the rest position mutual position a "

As mentioned, the atomizer is shown in Fig. 1 in the rest position. The bore 12 is intended to allow the entry of

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Allow air into the container onto which the sleeve 1 is screwed in order to compensate for the atomized volume of liquid. However, the bore 12 is closed in that the conical portion 11b of the piston 11 against the lower end of the sleeve 3 presses. Furthermore, the chamber 14 filled with liquid to be atomized after actuation, however, it is closed off from the environment in that the annular shoulder of the sleeve 13 is pressed against the bottom of the piston 11 is. The nebulizer is therefore perfect in the rest position tight and does not leak.

If the push button 8 is actuated so that it runs onto the sleeve 1, as indicated by the arrow 18 in FIG. 2, then the pin 7 moves in the piston 11 and pushes the Valve body 15 back, which then the side hole locks. The annular chamber 14 is closed off from the cylinder 5 (FIG. 2).

Then the end of the pin 7 strikes the guide pin 13a of the sleeve 13 and moves the pin 13a with the Sleeve 13 until the section 7a has a large cross-section of the pin 7 with the upper portion 11a of the piston 11 in Touch comes.

The further downward movement of the button 8 now causes that the piston 11 is pushed into the cylinder 4, (Fig. 3). The liquid contained in the annular chamber 14 runs through the annular gap between the wall of the inner bore of the piston 11 and the guide pin 13a of the sleeve 13 and is pressed in the bore 9 to the nozzle 10, where it is atomized.

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In addition, air can get into the inside of the container due to the play between the pin 7 and the 3-he sleeve 3 through the Enter bore 12 through it.

If the push button 8 is released, the spring 17 pushes the valve body 15 upwards, which opens the opening 16 is free and lies against the bottom of the sleeve 13. Whose The annular shoulder lies against the bottom of the piston 11 so that the annular chamber 14 is closed off from the environment again is ("Fig. 4).

From now on, the individual movable components move, i. H. the push button 8, the pin 7? the Piston 11, valve body 15 and sleeve 13 together. The piston 11 runs upwards in the cylinder 4. The negative pressure thus generated in the annular chamber 14 causes the liquid is sucked up from the container containing the dip tube 6 in the dip tube 6. This liquid runs in cylinder 5 and through the bore 16 to enter the annular chamber 14, which fills with liquid.

At the end, the movable components assume the position shown in FIG. The annular chamber 14 is full of liquid. The latter cannot run back through the immersion tube 6 into the container mentioned, since the bore 16 is located in the upper area of the annular chamber 14. The atomizer is prepared for a new actuation process.

The nebulizer described has no holding valve and is therefore ready for use in any position, if only the free end of the dip tube 6 is immersed in the liquid to be atomized.

J - - T / ¹ J i, " C

In the embodiment according to FIG. 5 luicL 6 is missing Valve body 15 and the bore 16 · The extension pin 13a of the sleeve 13 rests on the side of the pin 7 and is with an axial bore 13b, which merges into a transverse bore 13c, which in the rest position in front of a bore 11c of the piston 11 is located. Furthermore, the axial bore 9 of the pin 7 does not run to the lower end face of the pin 7 » but goes into a transverse bore 9b, which is in front of the bore 11c of the piston 11 is when the section 7a is larger Cross section of the pin 7 with the piston 11 in contact stands. The spring 17 is between the bottom of the cylinder 5 and the sleeve 13 is arranged.

In IPig. 5 shows the atomizer in the rest position, the chamber 14- containing the liquid to be atomized is filled. If the button 8 is depressed, the pin 7 moves in the piston 11 and presses the sleeve 13 down so that the connection between the annular chamber 14 and the cylinder 5 is interrupted. Then comes the section 7a of the pin 7 to rest on the upper section 11a from the piston 11. The bore 9ΐ> is then in front of the bore 11c.

With the further downward movement of the push button 8, the piston 11 is displaced in the cylinder 4, and in the Liquid contained in the annular chamber 14 is pressed through the bores 11c, 9b and 9 to the nozzle 10 (FIG. 6).

If the push button 8 is released, the pushes the Spring 17 the sleeve 13 upwards, which in turn pushes the pin 7 up and with its annular shoulder to the bottom of the Piston 11 applies. The bore 11c is then again in front of the bore 13c, so that the annular chamber 14 with the Cylinder 5 and the dip tube 6 communicated. The one in the cylinder

009884 / 02.58

4 upward running piston 11 generates a in the inlet chamber 14 Underpressure, so that liquid is sucked into the annular chamber 14.

In the embodiment according to FIGS. 7 and 8, it is again the sleeve 13 is provided with a hollow piston 1Jd at the lower end, which is slidably mounted in the cylinder 5. In the rest position, the distance between the section 7a is greater Cross section of the pin 7 and the upper portion 11a of the Piston 11 is at most equal to the distance by which the pin 15a of the valve body 15 from the guide pin 13a of the sleeve 13 protrudes.

So when the push button 8 is pressed, the pin 7 moves in the piston 11 and presses the valve body 15, which closes the bore 16, whereby the annular chamber 14 is separated from the cylinder 5 »The section 7a larger cross-section from the pin 7 comes with the upper portion 11a of the piston 11 in contact before the end of this pin 7 push back the guide pin IJa of the sleeve 13 can (Fig. 1) "

If the push button 8 is still depressed, the piston 11 runs into the ring chamber 14 without it being carried along with it the atomizing nozzle 10 is connected. As a result, the liquid enclosed in the hanging chamber 14 is pressurized.

Under the action of the pressure generated in the chamber 14, the piston 13 pushes itself into the cylinder 5s during the upper annular shoulder 13b of the sleeve 13 extends from the bottom of the Piston 11 removed so that the ling chamber 14 with the nozzle 10 communicates (Fig. 2). The pre-compressed in the chamber 14

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Liquid escapes through the nozzle 10 and is atomized. During this movement, the pin 15a of the valve body lies 15 at the end of the pin 7 so that the sleeve 15 is relative to the valve body 15 moves, but the distance covered in this movement is insufficient to the To release bore 16, so that the annular chamber 14- from the cylinder -5 remains separated.

The atomization takes place to the extent that Piston 11 runs down. If the push button 8 is released, the various movable components run upwards back and take their starting positions again, while at the same time liquid through the dip tube 6 into the Cylinder 5 is sucked.

Modifications of those described above and in Embodiments of the invention shown in the drawings are possible. For example, the pin 7 "and the Valve body 15 can be designed as one component.

Claims (11)

Expectations with two coaxial cylinders adjoining one another, in each of which a hollow piston is slidably mounted * with a. Cylinder on. That! Pamehrohr is connected, the leads a channel in Hern piston the ^ arachrohr applied cylinder ,, the connected to the provided on an operation button atomizing nozzle and attached pin is in an on Betätigtingsknopf ", and said Mündxmgsöffnung this channel is resiliently lockable, characterized characterized »that the piston (13d) of the cylinder (5) connected to the dip tube (6) with a sleeve (13) communicating with this cylinder (5) protrudes into the cylinder (4-) facing away from the suction tube (6) and a The pumping ring chamber (14) is limited, the piston (11) of the latter cylinder (4) and the pin (7) on the button (8) being mutually displaceable and being coupled to one another via an empty movement, and furthermore the bing chamber (14-) being dependent from the mutual position of the pin (7) and piston (11) and the sleeve (13) and piston (11) can be connected to the channel (9) in the pin (7) or to the interior of the sleeve (13). 2. Atomizer according to claim 1, characterized in that the piston (11) in the cylinder facing away from the immersion tube (6) (4-) is slidably mounted on the pin (7). 3. Atomizer according to claim 2, characterized in that the pin (7) has a radially outwardly protruding Section (7a) has a larger cross-section, which with the piston (11) after a certain displacement of the Pin (7) cooperates. · ' C: 9884/0258 2033051 4. Atomizer after. Claim 2 or 3 »characterized in that that the sleeve (13) facing away from the immersion tube (6) At the end of at least one bore (16) for connecting the bing chamber (14) with the cylinder (5) connected to the immersion tube (6), with a free one in the sleeve (13) The end of the pin (7) is adjacent and cooperates with the bore or bores (16) to close it 'Valve body (15) is slidably mounted, furthermore the sleeve (13) at the end facing away from the immersion tube (6) against the The bottom of the piston (11) can be pressed to interrupt the connection between the hanging chamber (14) and the atomizing nozzle (10) 5. Atomizer according to claim 4, characterized in that the sleeve (13) via an idle movement with the pin (7) cooperates, this empty movement distance is shorter than the length of the empty movement between piston (11) and Pin (7). 6. Atomizer according to Claim 4, characterized in that the length of the idle movement between the pin (7) and piston (11) is at most equal to the distance between the free end of the pin (7) and the adjacent end of the sleeve (13) is 7. Atomizer according to one of claims 4 to 6, characterized characterized in that the valve body (15) has a pin (15a) which rests on the pin (7) and extends out of the Sleeve (13) at the end facing away from the immersion tube (6) when this end rests on the bottom of the piston (11) upwards protrudes, 8. Atomizer according to claim 2 or 3 »characterized in that that the end of the sleeve facing away from the immersion tube (6) (13) rests on the pin (7), the piston (11) having a 009884/0258 _ ₁₄ _ 2Ü33658 on the one hand in the inlet chamber (14) opening bore (lic), which on the other hand, depending on the position of this piston (11) with a bore (13c) of the sleeve (13) or a bore (9b) of the pin (7) is aligned. 9 · Atomizer according to one of the preceding claims, characterized characterized in that a sleeve (3) is arranged within the cylinder (4) facing away from the immersion tube (6), against the immersion tube-side end face, preferably against the inner edge thereof, of the piston (11) of this cylinder (4) can be pressed with a conical section (11b). 10. Atomizer according to one of the preceding claims, in particular according to claim 9, characterized in that the cylinder (4) facing away from the immersion tube (6) is the interior of the atomizer with the environment connecting bore (12), which is from the piston in the rest position (11) is closed in this cylinder (4). 11. Atomizer according to claim 9 and 10, characterized in that the bore (12) approximately at the level of the immersion tube side End face of the sleeve (3) is provided. 009884/0258 1S L e r s e i. t e