DE1500597C3 - Dip tube atomizer - Google Patents

Description

The invention relates to a dip tube atomizer, in particular for cosmetic and pharmaceutical applications Liquids, which can be attached to a liquid container with a connecting sleeve and with a inner and an outer closure member is provided, which is slidable and resilient in each other Closed position are loaded, in which both locking elements to interrupt the connection lie against one another between the immersion tube and the atomizing nozzle and the outer closure member to the interruption the connection between the container and the atmosphere is applied to the connecting sleeve, and which through Actuation of a spring-loaded lever in the open position are movable, the lever being air compressed and pushes through the atomizing nozzle.

The invention is based on the object of no longer predominantly atomizing by mechanical means and to be conveyed by pressure to the atomizing nozzle, as can be seen from French patent specification No. 13 63 410 is, but to suck up the liquid like a jet pump from that container which the atomizer is attached, if air flows through the nozzle when the trigger is depressed is blown. Because of this difference, the well-known proposal takes the one below Marking does not anticipate the outlined invention nor does it suggest it.

This object is achieved according to the invention in that the atomizing nozzle is designed in the manner of a venturi tube and is provided with a liquid suction channel opening into the constriction, as is known per se that furthermore the pusher, which is resiliently loaded away from the housing, from a cylinder housing with the nozzle and from the

> 5 existing atomizer heads opposite the connecting sleeve is resiliently movable, and that the spring between the pusher and the housing is stronger than the spring or springs is between the housing and the connecting sleeve, wherein the inner closure member is attached to the housing.

w) The dip tube atomizer according to the invention draws so it is characterized in that it is divided into a valve body for the connecting channels supporting Closure cap and an atomizer body accommodating the pump piston and the atomizing nozzle,

b5 which is slidably arranged on this and for Actuation of the valve body is used.

A preferred embodiment of the dip tube atomizer according to the invention is characterized

net that the inner closure member is designed as a rod with a widened head at the free end which rod the sleeve-shaped outer locking member is slidably mounted, as is known per se.

In a further embodiment of the invention, the sleeve-shaped outer closure member can move radially have outwardly directed annular flange for tight contact with the connecting sleeve and the sleeve on the Contact side facing away from the annular flange radially inwardly protruding projections for holding the have outer closure member in the open position.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. It shows

1 shows a view of a longitudinal section through the atomizer in the rest position;

Fig.2 is a view of a cross section along the Line H-II in Fig. 1;

3 shows a view of a longitudinal section through a Part of the nebulizer in the operating position.

1 and 3 is a closure cap for the liquid to be atomized Container formed on a cap-shaped part 1 and a sleeve 3 pressed therein with an internal thread. Opposite the closure cap, an atomizer body 38 is slidably guided with a cylindrical Edge is pushed over the cap. The leadership is ensured by pin 39, which is attached to the Closure cap are provided and engage in bores 40 of a cylindrical component 41, which in the atomizer body 38 is attached. Springs 42, which are housed in other bores 40 and are supported on the cap, try to push the atomizer body upwards. The socket 3 is provided with a central bore in which a cylindrical sleeve 43 slides with play, the sleeve 43 has an outer flange 43a on its upper edge, which is opposite in the lower position of the sleeve Lays inner projections 3a of the sleeve, whereby a falling out of the sleeve 43 is prevented. The cap-shaped one Part 1 of the cap is also provided with a central hole on its upper face, however, the diameter of which is smaller than the diameter of the sleeve 43, so that it does not form the sleeve can leave upstairs. A sliding of the sleeve 43 in the sleeve 3 is therefore only within these limits possible. Within the sleeve 3, a piston valve 50 is guided with play, the piston rod 48 of which is sealed in the sleeve slides and is firmly connected to the atomizer body 38, being screwed into the component 41 is. The piston rod has an axial bore 47 from which a radial bore 49 extends is provided above the piston 50. The axial bore 47 stands over a connecting channel 46 and 45 with an atomizing nozzle 44 in connection, which is designed as a Venturi nozzle. The connecting channel 45 opens into the neck 44a of the nozzle 44. At its lower end, the sleeve 43 carries a dip tube 5 which is inserted into the liquid to be atomized reaches down. In the atomizer body 38 is in its upper part as Piston 52 designed to slide, the sealing being effected by a seal 53, which is fixed on the piston. The piston is pressed into its upper position by a compression spring 54, whose hardness is greater than that of all the springs 42 together, between the cap and Atomizer bodies are provided. The one formed between the piston 52 and the cylindrical component 41 Pump chamber 55 is in communication with nozzle 44 via connecting channels 56 and 57. Of the Connection channel 57 is during the suction stroke of the

Piston 52 closed by a check valve 58,59, which consists of a ball 58 which is pressed by a spring 59 onto its seat. Within the · Piston 52 is provided with a bore 60 that connects the pump chamber 55 with the

represents practice air. A valve body 61 formed on the seal 53 is resilient against the inner edge of the latter Pressed opening and allows the entry of air into the pump chamber 55 during the suction stroke of the Piston, but prevents the enclosed

senen air on the downward pressure stroke of the piston 52.

In the rest position, the springs 42 endeavor to remove the atomizer body 38 from the intermediate cap 1, 3 to push away. This upward movement

is limited, however, that the valve piston provided with a seal 50, the over his The piston rod 48 is connected to the component 41 of the atomizer body 38, against its seat in the Sleeve 43 and this against the bottom of the cap 1

presses. This is the connection between the dip tube 5 and the atomizing nozzle 44 and the Connection of the interior of the container to the ambient air, which between the bottom of the cap 1 and the upper edge of the sleeve 43 is provided, interrupted.

When the piston 52, which is designed as a pusher, is actuated, due to the greater hardness of the spring 54 first the springs 42 are compressed, moving the piston 50 and sleeve 43 downward. Here, the sleeve 43 moves down until

its outer flange 43a rests on the inner projections 3a, while the piston 50 is inside the sleeve 43 can be moved further down. In the lower position of the sleeve 43 is the connection between Inside the container and the ambient air.

provides by the outside air between the bottom of the cap 1 and the upper edge of the sleeve 43 into the Can flow inside the container. The displacement of the piston 50 within the sleeve 43 causes the Radial bore 49 from the guide for the piston rod

48 emerges, whereby the connection between the dip tube 5 and the nozzle 44 via the connecting channels 49, 47, 46 and 45 is made. The downward movement is ended when the component 41 rests on the cap 1. Then begins

the downward movement of the piston 52, which compresses the air trapped in the pump chamber 55, which reaches the nozzle 44 via the bores 56 and 57. The air becomes so strong in the throat 44a of the venturi nozzle accelerates that they from the channel 45, which is with the

Immersion tube is connected, sucks out liquid and atomizes it. At the same moment one flows the amount of liquid removed between the atomizer body 38 and the corresponding amount of air Cap 1 through and passes over the

Gap created by the lowering of the sleeve 43 between the upper edge and the bottom of the Closure cap 1 arises into the container, so that there is no negative pressure as a result of the withdrawal of liquid can arise. The way of the in the container

Inflowing air is indicated by an arrow 62 in FIG. 3 shown. If the piston 52 is now released, the atomizer body 38 and the piston move back up. By lifting the atomizer

body from the cap is pulled over the piston rod 48 of the piston 50 upwards, whereby a termination both of the connection between the immersion tube and the atomizing nozzle as well as between Inside the container and the ambient air. During the upward movement of the piston 52, the opening 60 sucked air into the pump chamber 55 as long as the suction through the piston continues, whereby the check valve 61 is lifted from its seat.

For this purpose 2 sheets of drawings

Claims (10)

Patent claims: 1. Dip tube atomizer, especially for cosmetic and pharmaceutical liquids, which attachable with a connecting sleeve to a liquid container and with an inner as well an outer closure member is provided which is displaceable and resilient on one another in the closed position are loaded, in which both locking members to interrupt the connection between Immersion tube and atomizing nozzle rest against one another and the outer closure member for interruption the connection between the container and the atmosphere is applied to the connecting sleeve, and which through Actuation of a spring-loaded lever in the open position are movable, the lever Air is compressed and forced through the atomizing nozzle, characterized in that the Atomizing nozzle (44) is designed like a venturi tube and has a Liquid suction channel (45, 46) is provided, as is known per se, that also consists of a cylinder housing (38,41) with the nozzle (44) and out of the pusher (52), which is resiliently loaded away from the housing (38, 41) existing atomizer head with respect to the connecting sleeve (1,3) is resiliently movable, and that the The spring (54) between the pusher (52) and the housing (38, 41) is stronger than the spring or springs (42) between Housing (38,41) and connecting sleeve (1,3), the inner closure member (48, 50) on the housing (38, 41) is attached. 2. Immersion tube atomizer according to claim 1, characterized in that the inner closure member as Rod (48) is formed with a widened head (50) at the free end, on which rod (48) the sleeve-shaped outer closure member (43) is slidably mounted, as is known per se. 3. Immersion tube atomizer according to claim 1 or 2, characterized in that the sleeve-shaped outer closure member (43) has a radially outwardly directed annular flange (43; ijzur tight contact with the connecting sleeve (1,3), and that the sleeve (1,3 ) has on the side facing away from the contact side of the annular flange (43a, / radially inwardly protruding projections (3a) for holding the outer closure member (43) in the open position. 4. immersion tube atomizer according to claim 1, 2 or 3, characterized in that the immersion tube (5) on sleeve-shaped outer closure member (43) is attached. 5. immersion tube atomizer according to one of claims 1 to 4, characterized in that the Connection sleeve consisting of an outer cap (1) and an internally threaded screw sleeve (3) exists, as is known per se. 6. immersion tube atomizer according to claim 3, 4 and 5, characterized in that the annular flange (43 a ^ of the outer closure glicdes (43) in the closed position of the same on the cap (1), and that the radially inwardly protruding projections (3a ^ of the connecting sleeve on the screw sleeve (3) are provided are. 7. Immersion tube atomizer according to one of the preceding claims, characterized by axial Pin (39) on the connecting sleeve (1, 3), which in corresponding axial bores (40) of the cylinder housing (38,41) intervene to guide it. 8. Immersion tube atomizer according to one of the preceding claims, characterized in that between the atomizing nozzle (44) and the air pumping chamber (55) of the atomizing head (38, 41, 44, 52) a check valve (58, 59) opening towards the nozzle (44) is provided, as is known per se. 9. Immersion tube according to claim 8, characterized in that that between the air pumping chamber (55) and the atmosphere a check valve (61) opening towards the chamber (55) is provided, as known per se. 10. Immersion tube according to claim 9, characterized in that the check valve in the pusher (52) is provided and has a closure member (61) which is integral with the handle seal (53) and is resiliently pressed against a valve bore (60) in the handle (52).