WO1998034738A1

WO1998034738A1 - Process for cleaning thread- or strip-shaped articles, in particular wire

Info

Publication number: WO1998034738A1
Application number: PCT/EP1998/000753
Authority: WO
Inventors: Harald Hielscher
Original assignee: Dr. Hielscher Gmbh
Priority date: 1997-02-10
Filing date: 1998-02-09
Publication date: 1998-08-13
Also published as: JPH11514924A; CN1166462C; KR20000064836A; ATE278479T1; ES2227806T3; EP0895489B1; DE59812069D1; CN1216008A; EP0895489A1; KR100333341B1; DE19706007C1

Abstract

A process is disclosed for cleaning thread- or strip-shaped articles, in particular wire, by ultrasound emitted by an ultrasonic sonotrode and a liquid, according to DE-196 02 917.1-15. The object of the invention was to develop a process of said type that enables ultrasound to act directly on the article to be cleaned. This object is attained in that the article to be cleaned is led through at least one bore (2) that matches the diameter of the article, along its longitudinal axis, and/or through at least one bore transverse to the longitudinal axis, at the point where the maximum resonance of a special flexural resonator (3) which resonates in air is reached. The flexural resonator (3) resonates at a very high amplitude to generate an intense cavitation field in the bores (2). The flexural resonator (3) is punctually or linearly excited by the ultrasonic sonotrode (1) up to a line of constant amplitude. The cleaning liquid is supplied to the bore (2) so as to fill it completely and is evacuated from the flexural resonator (3) through the bore (2).

Description

Process for cleaning filamentary or band-shaped products, in particular wire

The invention relates to a method for cleaning filamentary or band-shaped products, in particular wire, by means of ultrasound via an ultrasound sonotrode and a liquid according to DE 196 02 917.1-15.

It is already known to clean thread-like or band-shaped products by means of ultrasound and liquid.

The known methods, for example for cleaning wire, use immersion transducers which are introduced into containers filled with liquid. The ultrasonic energy of the submersible transducer is radiated into the liquid. It occurs in the liquid Cavitation, ie liquid breaks apart due to the high energy, bubbles form, the inside of which is filled with gas under negative pressure. The gas bubbles implode, releasing high energy and creating a strong micro flow. This flow acts on the soiled surface of the items to be cleaned and removes residues such as fats, oils or the like. (Brochure from the company martin walter ultraschalltechnik gmbh, D 75334 Straubenhardt 5, "Ultrasonic cleaning transducer").

It is a disadvantage of this known device or the method used with it that the material to be cleaned or the wire is drawn through the liquid of a large container, usually a basin, in which an average sound power density of 1 watt per cm ² or of 15 watts per liter of liquid, which can only be brought to the size required for cleaning purposes with high energy expenditure. The effective performance on the wire surface is far below the overall performance of the ultrasonic pool. The ultrasound is not sufficiently effective on the wire surface, for example, so that a high level of energy is required to achieve the cleaning effect.

From US 41 00 926 a method is also known in which a generally known cylindrical feed-through sonotrode is used, through which a feed-through in which the wire to be cleaned is guided is passed. The cleaning liquid is atomized and in chambers and in the implementation with broke the wire. The sonotrode does not come into contact with the cleaning agent. The sonotrode must excite a relatively large volume of water so that the sound energy concentration is too low to achieve sufficient cleaning performance. The ultrasound does not work directly enough on the surface of the wire to be cleaned.

DE 196 02 917.1-15 describes a generic method, according to which the product to be cleaned is passed through a bore in a special ultrasonic sonotrode which vibrates in the air and into which cleaning liquid flows.

With this method, only a small amount of water is very intensively stimulated directly in a working hole in the specially designed sonotrode. The result is a very high sound power density, which is about two orders of magnitude higher than usual, with which very direct and effective cleaning takes place through an intensive cavitation field.

The object of the invention is to develop a method for cleaning thread-like or band-shaped products, which ensures that the ultrasound acts directly on the product to be cleaned.

The solution to this problem results from the features of claim 1. Through the use of a special bending oscillator through which the product to be cleaned is led, and if necessary also through several bores in the bending oscillator at the same time, the lengths effective for cleaning can be increased. The same services can be achieved with less material effort.

By concentrating the volume of liquid that is effective for cleaning in a working bore of a bending vibrator that vibrates with a high amplitude of approx. 20 to 250 μ, the ultrasound power that is introduced is concentrated on this small volume, so that an intensive cavitation field is created with little energy expenditure, in which a highly effective cleaning of the continuous wire is guaranteed. The ultrasound acts within the working bore from all sides at a short distance and over an irr. Compared to the ultrasonic sonotrode relatively long distance intensively on the wire surface. A 20 to 100 times the intensity of the sound power (based on the sound-emitting surface) is achieved compared to the known methods, so that a substantially greater km power is achieved with, for example, wire cleaning with a comparable energy expenditure. It also saves cleaning fluid, requires a smaller system and achieves a higher throughput speed of the items to be cleaned. The environmental impact is minimal. The use of environmentally harmful cleaning agents is greatly reduced. The method according to the invention is for cleaning a wire, for cleaning a plurality of wires, also in the composite of a strand, and also for cleaning fabric strips, metal strips, ropes or the like. applicable with high effectiveness.

The appropriate ultrasonic power can be selected and used for every wire diameter range or for every type of material. The vibration amplitude of the bending vibrator can be adjusted depending on the application.

Further advantageous embodiments of the invention result from the features of the subclaims.

The invention is explained in more detail below with reference to an embodiment of a bending vibrator shown in the single figure.

In the single FIG. 1, a bending vibrator 3 is shown in a schematic sectional illustration, which is excited by an ultrasonic sonotrode 1 to ultrasonic vibrations US. The bending vibrator 3 has a first bore 2 along the longitudinal axis through which the product to be cleaned, e.g. Wire. The first bore 2 is connected to further bores 4 in the area of the vibration node SK of the bending oscillator 3. These holes 4 are arranged perpendicular to the hole 2 and serve to supply a suitable cleaning liquid.

If a sonotrode 1 for the respective application If a sufficiently dimensioned ultrasound processor is connected, then the cleaning fluid flowing in through the bores 4 gets into vertical vibrations in the bending oscillator 3, which vibrations are transferred from the fluid to the surface of a wire concentrically passed through the bore 2. Make sure that the liquid completely fills hole 2. Due to the concentration of the radiated ultrasonic power on the small volume in the bore 2 and in particular on the volume between the wall of the bore 2 and the wire guided concentrically in the bore 2, a very intensive cavitation field is formed, in which a very intensive cleaning of the wire surface from all soiling occurs. The loosened impurities are flushed out with the cleaning liquid on both sides of the bore 2. The cleaning liquid can be fed back into the process after appropriate preparation.

The sonotrode 1 and the bending oscillator 3 vibrate in the air with an amplitude set as a function of the product to be cleaned. The sonotrode 1 excites the bending oscillator 3 in a point or line shape on the line of a constant amplitude. The sonotrode is preferably rectangular, but a round sonotrode 1 can also be used.

It can also be fabric tapes, metal tapes, ropes or the like. cleaned or pretreated for further processing.

B E Z U G S Z E I C H E N L I S T E

Ultrasonic transducer (sonotrode) Bending vibrator bore Bore vibration node Ultrasonic vibration

Claims

PATENT TO SPEECH

1. Method for cleaning filamentary or band-shaped products, in particular wire, by means of ultrasound via an ultrasound sonotrode and a liquid according to DE 196 02 917.1-15,

d a d u r c h g e k e n n z e i c h n e t that

the product to be cleaned is guided through at least one bore (2) in the longitudinal axis adapted to the diameter of the product and / or through at least one bore transverse to the longitudinal axis at the location of a maximum vibration of a special bending oscillator (3) vibrating in the air, which to generate an intensive cavitation field in the bores (2) vibrates with a very high amplitude, the bending oscillator (3) being excited by the ultrasound sonotrode (1) in a point or line on the line of a constant amplitude, and that the cleaning liquid The hole (2) is completely filled and is led out of the bending oscillator (3) via the hole (2).

2. The method according to claim 1, characterized in that the product to be cleaned is guided concentrically in the bore (2) without touching the bore wall.

3. The method according to claims 1 and 2, characterized in that the cleaning liquid is supplied to the bending oscillator (3) at the location of an oscillation node (SK).