DE3339933A1 - Drop-propelling nozzle - Google Patents

Abstract

The drop-propelling nozzle (10) has a nozzle opening (14) which has a maximum length (L) of 0.03 mm and opens centrally into a drop-retaining recess (13), open in the spray direction, of the nozzle body (11), and whose volume amounts to at most half the stroke volume of a piston pump to which the drop-propelling nozzle (10) can be connected. The nozzle chamber wall widens out conically from the edge of the nozzle opening, both the cross-section of the nozzle opening and the conicity of the nozzle chamber wall being chosen in dependence on the viscosity of the liquid to be sprayed out. <IMAGE>

Description

Drop nozzle

The invention relates to a drop nozzle with a nozzle chamber, which can be connected to a piston pump with a small volume.

Drop nozzles are used to capture liquid drops, in particular Oil drops for lubrication purposes, horizontally, vertically or under an intermediate one Shoot down an angle at an angle at a scene of action. Do not have to strict requirements with regard to only the piston pumps used as a source of firing energy a steep pressure build-up and a rapid pressure decrease at the beginning and on the lap of a piston stroke, but also technical nozzle difficulties on. So it is practically inevitable that the pressure reduction at the end of the piston stroke a partial amount of liquid is retained in front of the nozzle opening and the next Drop shot must be conveyed or pierced.

I) The output is based on the output, a drop nozzle to create, with which a perfect drop shot is guaranteed.

The task at hand is the one at the beginning with a drop nozzle mentioned type according to the invention achieved in that the nozzle opening, its diameter depends on the viscosity of the liquid to be sprayed, a length of has a maximum of 0.03 mm and centrally in a drop retention recess open in the direction of spraying the nozzle body leads, the volume of which is a maximum of half the stroke volume of the piston pump and that the wall surrounding the nozzle opening on the nozzle chamber side towards the edge of the nozzle opening runs conically inwards.

The inventively designed drop nozzle results through the adapted nozzle opening diameter and the very small nozzle opening length, so Length of the nozzle bore, a very low flow resistance that occurs during pressure build-up the piston pump does not hinder the drop formation, and the drop retention recess ensures that there is only a thin layer of liquid in front of the nozzle opening from the partial amount of liquid remaining in the pressure reduction phase that is easily pierced by the next drop of liquid and not a significant one Can cause deceleration of the dropped drop.

As a result, oil with a greater amount of energy can also be used with the same amount of energy Spray off viscosity. The formation of a turbulent one desired for the formation of drops Flow in the nozzle opening area can be promoted by the fact that the cone angle the nozzle chamber-side boundary wall of the nozzle opening one of the viscosity The value that is dependent on the liquid to be sprayed is given between 700 and 1100 lies. The elimination of the braking influence of the when depressurizing Partial amount of liquid remaining in front of the nozzle opening from the last drop of drops can be favored by the fact that the drop retention recess is circular-cylindrical with a nozzle opening delimiting wall running perpendicular to the central nozzle opening is trained.

The lubricating oils that are primarily of interest here the) number of a ratio of diameter to length of the circular cylindrical drop retention recess between 4: 1 and 5: 1 proved advantageous, as did the choice of a diameter the drop retention recess, which is at least eight times the value of the diameter the central nozzle opening.

An exemplary embodiment is shown below with reference to the accompanying drawing of the subject matter of the invention explained in more detail.

The drawing shows a drop nozzle on an enlarged scale 10, the nozzle body 11 of which is circular-cylindrical and a central circular-cylindrical Has nozzle chamber 12. At the rear open end of the nozzle chamber 12 can optionally a connecting line to a piston pump with a small stroke volume or can be a such a piston pump flanged directly to a coaxial pump cylinder and piston be.

At the front end, the nozzle body 11 has a concentric circular cylindrical shape Droplet retention recess 13, in the center of which a central nozzle opening 14 opens, the longitudinal axis of which with the axis of rotation 15 of the nozzle body 11 coincides and perpendicular to the Dsnöffnunsberenzungswandung 16 of the circular cylindrical Droplet holding recess 13 is directed.

On the side of the nozzle chamber there is one which runs conically inwards towards the nozzle opening 14 Nozzle opening delimitation wall 17 is provided. The point angle or taper angle oC this nozzle opening delimiting wall 17 depends on the viscosity of the Liquid to be sprayed drop by drop and has in the illustrated embodiment example a size of 1000.

The length L of the nozzle opening 14 or the nozzle hole is extremely kept short and is only 0.005-0.015 mm, for example. The diameter DD the nozzle opening 14 should be only 0.3 mm in the illustrated embodiment, while the diameter DT of the drop retention recess formed in front of the nozzle opening 14 13 is 10 times the value, i.e. 3 mm. The length or depth T of the drop retention recess 13 is 0.7 mm in the illustrated embodiment, so that a ratio of DT: T greater than 4: 1 results.

A drop nozzle with the dimensions of the illustrated embodiment When hosing down oil droplets with a viscosity of 5.50 Engler (measuring temperature 500C) proved to be particularly advantageous.

Claims (5)

Claims: (3 1,) drop nozzle with a nozzle chamber, which can be connected to a piston pump with a small stroke volume, characterized in that that the nozzle opening (14), whose diameter (Dp) depends on the viscosity of the sprayed Fluid is dependent, has a length (L) of a maximum of 0.03 mm and is central into a drop retention recess (13) in the nozzle body, which is open in the direction of spraying (11), the volume of which is a maximum of half the stroke volume of the piston pump, and that the wall (17) surrounding the nozzle opening (14) on the nozzle chamber side towards the edge of the nozzle opening runs conically inwards. 2. drop nozzle according to claim 1, characterized in that the cone angle (oc) of the nozzle chamber-side boundary wall (17) of the nozzle opening (14) a value depending on the viscosity of the liquid to be sprayed between 700 and 1100. 3. Drip nozzle according to claim 1 and / or 2, characterized in that that the drop retention recess (13) is circular cylindrical with a perpendicular to central nozzle opening (14) extending nozzle opening delimiting wall (16) formed is. 4. drop nozzle according to claim 3, characterized in that the ratio of diameter (DT) to length (T) of the circular cylindrical drop retention recess (13) is between 4: 1 and 5: 1. 5. drop nozzle according to one of claims l to 4, characterized in that that the diameter (DT) of the drop retention recess (13) is at least 8 times Has the value of the diameter (DD) of the central nozzle opening (14).