DE921800C - Liquid nebulizer - Google Patents

Description

Liquid nebulizer The invention relates to a liquid nebulizer, in which the fluid is released from a rotating organ by the effect of centrifugal force is thrown off.

In the known devices of this type, a funnel-shaped Hollow body used, on the wall of which the liquid creeps up during rapid rotation and finally at the edge of the hollow body by centrifugal force against an atomizing element is thrown. The liquid destroyer according to the present invention gives way from this type of apparatus and is characterized in that the body of revolution, through which the liquid to be nebulized is sucked out of the liquid container and is thrown against an atomizing element, consists of two discs, which are connected by blades and in the form of a double-acting fan are arranged at an angle of attack to the radial direction. The rotating wings generate a negative pressure inside the rotating body, with the help of which through a suction nozzle attached to the lower disk holds the liquid to be nebulized conveyed up onto this disc and from there against the inner wall of the liquid container is hosed.

In the case of a liquid destroyer with an electric drive, the fan has the further task of sucking in air, through which the engine is cooled and in the liquid container an overpressure is generated through which the nebulized liquid is transported further will.

This training of the nebulizer has compared to the known devices significant benefits.

The known atomizers have a very high speed of rotation required in order to be able to convey the liquid at all. An increase in The delivery rate depends on the tion speed. This is but not to be regulated by simple means. In contrast, one needed as a fan working rotary body a comparatively much lower rotation speed to convey the liquid, and the flow rate can easily be through Change of the inlet cross-section can be changed.

In the drawing, an embodiment of the nebulizer is shown in FIG of the invention with a double fan shown schematically, namely represents Figure I is a vertical cross-section through the nebulizer; Fig. 2 to 4 show details of the rotating body.

In Fig. I, a means an electric motor.

The motor a is housed in a housing b. c is the electric one Lead wire for the motor.

The motor a rests on a plate d closing off the housing b. On the plate d is a vessel g, z. B. off Glass, attached. A rotary body i is attached to the shaft h of the motor a. The plate d is provided with a pipe socket k, it also has one or more Through holes 1.

The rotary body i is attached to the motor shaft h by means of the hub m. A disk n is connected to the hub m, to which vanes o are attached. At the lower end of the wing o is a disc p that is attached to the wings is firmly connected and has a nozzle q with a hole r.

FIG. 2 shows a plan view of the rotating body i, FIG. 3 shows a view of the rotary body i from below and FIG. 4 shows a cross-section represented by the solid of revolution i.

In Fig. 2, ni is the vicinity, n and p are two disks, and o1 bis o4 are four wings. Fig. 3 shows the view of the disc p from below, the nozzle and the hole r. The illustration in Fig. 4 shows the four wings o1 to o4 im Section, the disk p on which the wings o1 to o4 are attached, and the hole r. The arrows in FIGS. 2 and 4 indicate the direction of rotation of the rotating body i.

The apparatus works as follows: Through the pipe socket k becomes so much liquid is brought into the vessel g that the liquid level is approximately up to half the height of the nozzle q is sufficient. If the motor a is now switched on, then the rotating body i rotates and generates a negative pressure in the cavity s inside the blades o1 to o4.

As a result, the liquid is sucked in through the bore r. You distributed is on the disk p and is thrown off by the centrifugal force.

A part is already on the way to the wall of the vessel g the liquid is atomized. while the coarser parts of the liquid on impact be partially fogged onto the wall. The remaining coarser parts of the liquid flow back from the wall to the bottom of the vessel g and are again from there sucked through the hole r.

Through the upper part of the rotating wings o1 to o4 of the rotating body i is sucked in from the motor housing b through the openings l air.

This air is used to cool the motor a and also to a small Generate overpressure in the vessel g, so that the air escapes through the Nozzle k conveys the amount of liquid transformed into mist out of the vessel.

Claims (2)

P A T E N T A N S P R Ü C H E: 1. Liquid nebuliser, in which the liquid to be nebulized out of the liquid container through a rotating body is sucked in and thrown against an atomizing element, characterized in that that the body of revolution (i) consists of two disks (n, p), which are supported by wings (o1 to o4) are connected, for example in the form of a double-acting fan are arranged at an angle of attack to the radial direction and in the interior of the rotating body (i) create a negative pressure, with the help of which by a on the lower disk (p) attached suction nozzle (q) the liquid to be nebulized onto this disc (p) conveyed up and from this against the inner wall of the liquid container (g) is hosed. 2. Liquid nebulizer according to claim I with an electric motor drive, characterized in that the liquid container (g) with the motor housing (b) through holes (l) in connection, so that by the wings (o1 to o4) of the rotary body (i) sucked in air the cooling of the electric motor (a) takes place. Attached publications: Swiss patent specifications No. 192 323, 196 909, 260 510.