DE19849814A1 - Nozzle to form jet of water in water jet cutting heads has wear-resistant nozzle inserts fitted one behind other in point of body's central bore and forming nozzle segments of different shapes which form jet pipe - Google Patents

Abstract

Water jet nozzle for shaping the water jet in water jet cutting heads at the exit of a collimation tube. In a nozzle body (1) with its central bore (2) adjoining the collimation tube, nozzle inserts (5, 6 and 7) made of wear-resistant material are arranged one after the other in its tip (3) into the central bore (2) widened into a receptacle (4) with differently shaped nozzle tube segments (8, 9 and 10) inserting a nozzle tube with sections of different shapes. The nozzle inserts (5, 6 and 7) are made of different, wear-resistant pieces of material. The nozzle tube segments (8 and 10) of the outer nozzle inserts (5 and 7) can be expanded to form funnels with favorable inlet and outlet geometries. The nozzle tube segments (8, 9 and 10) can have a non-circular cross-section.

Description

The invention relates to a water jet nozzle for shaping the water jet in Water jet cutting heads.

Water jet cutting heads for generating water cutting jets loaded with abrasive agents consist essentially of a water jet nozzle connected to the collimation tube, one adjoining mixing chamber for loading the water jet with abrasive and one the focusing chamber that closes the mixing chamber and is oriented axially to the water jet nozzle (US P 48 72 293 Yasukawa). The water jet nozzle is usually a nozzle block with a round, smooth one central bore. A nozzle tube end enlarged from one side by lowering and one through Milling or grinding nozzle tube inlet widened to form a truncated cone are also known. At large nozzles, the production of such expansions is not a technological problem. The smaller the Nozzles become the more problematic is the production of such widenings in hard, wear-resistant nozzle bodies. Here a smooth central bore is accepted Edge breaks and loss of energy at the sudden constrictions preferred.

US-P 51 70 946 RANKIN is a multi-part water nozzle with a non-circular nozzle cross-section known, which is composed of several identical longitudinal segments. The nozzle tube has one Inlet chamber in the shape of a three-sided truncated pyramid, at the top of which Connects nozzle neck, which ends at a shoulder towards the outlet pipe. By dividing the Water nozzle is the formation of a nozzle tube with several sections lying one behind the other of different shape and the formation of a nozzle tube for a water jet with non-circular Cross-section possible in a simple manner.

This longitudinal division of the nozzle tube can be used with normally machinable materials such as steel. The surfaces forming the inner wall of the nozzle tube can also be wear-resistant Material to be coated. A nozzle made from a piece of a wear-resistant material like To produce diamond or sapphire in this way means increased effort, since the compact Material body must first be split. It is easier and cheaper to put the nozzle tube in this Drill body and give it the desired shape by grinding.

From the published patent application DE 38 44 344 A1 it is known that the nozzle tube of the focusing nozzle for the Multi-part cutting water jet emerging from the mixing chamber and loaded with abrasive to train. The nozzle pipe consists of at least two pieces of nozzle pipe arranged in series. Since here the exit piece of the focusing nozzle wears out, the end piece can now be used as Wear part to be changed. On the manufacturing process and on the shape for the Abrasive water cutting jet has no influence on this division of the focusing nozzle.  

The aim and object of the invention is to provide a water jet nozzle for shaping the water jet Water jet cutting heads with a low inlet loss and high jet stability to find appropriately shaped nozzle tube that is made up of several nozzle inserts can be produced.

According to the invention, this object is achieved as described in the first claim. More beneficial Embodiments of the invention are the subject of the dependent claims.

At the exit of a collimation tube is a water jet nozzle for shaping the water jet in Water jet cutting heads with one with its central bore on the collimation tube adjoining nozzle body attached, in the tip of which expanded into a receptacle central bore nozzle inserts made of wear-resistant material in a row with different shaped nozzle tube segments forming a nozzle tube with sections of different shapes are inserted. The nozzle inserts can be made from different, wear-resistant pieces of material be made. The nozzle tube segments of the outer nozzle inserts are funnels with inexpensive and widened outlet geometry. They can also have a non-circular cross-section. At least There can be at least one side channel for the introduction of abrasive in a pasty insert or a solid, wire-like shape can be provided on the nozzle tube.

The invention will be explained in more detail below using an exemplary embodiment. The accompanying drawing shows a section through a water jet nozzle with nozzle inserts.

A nozzle body 1 of a water jet nozzle has a central bore 2 as a continuation of a collimation tube, not shown, of a high-pressure water line. This bore 2 is widened to a receptacle 4 at the tip 3 of the nozzle body 1 facing away from the collimation tube. Nozzle inserts 5 , 6 and 7 are inserted into this receptacle 4 . Each nozzle insert 5 , 6 or 7 is made of a wear-resistant piece of material such as diamond, sapphire, hard metal or compacts made of sintered metal. per nozzle insert 5 encloses a conical nozzle tube segment 8 , which decreases from the width of the collimation tube to the nozzle width of the water jet nozzle. The adjoining nozzle insert 6 , which forms the water jet, contains a cylindrical central nozzle tube segment 9 . This nozzle insert 6 is followed by the tip 3 of the nozzle body 1 , followed by the nozzle insert 7 , the nozzle tube segment 10 of which extends from the nozzle tube segment 9 . The nozzle tube segments 8 , 9 and 10 together form the nozzle tube of the water jet nozzle.

By dividing the water jet nozzle into several nozzle inserts 5 , 6 and 7 , one on top of the other, the nozzle tube is broken down into simple geometric shapes which are produced in uncomplicated work steps even with the very small dimensions of the blanks. This makes it easy to produce an inlet and outlet geometry with favorable angles for the water jet nozzle. Unsymmetrical and non-circular nozzle tube cross-sections can also be easily manufactured. An empirically determined optimal length-diameter ratio can be realized depending on the nozzle tube cross-section and the nozzle material. Water jet nozzles with nozzle inserts 5 , 6 and 7 can also be constructed from different materials.

List of the reference symbols used

1

Nozzle body

2nd

drilling

3rd

top

4th

admission

5

Nozzle insert

6

Nozzle insert

7

Nozzle insert

8th

Nozzle tube segment

9

Nozzle tube segment

10th

Nozzle tube segment

Claims (5)

1. Water jet nozzle for shaping the water jet in water jet cutting heads at the exit of a collimation tube, characterized in that in one with its central bore ( 2 ) adjoining the collimation tube nozzle body ( 1 ) in its tip ( 3 ) in which to take on ( 4 ) widened central bore ( 2 ) nozzle inserts ( 5 , 6 and 7 ) made of wear-resistant material are inserted one behind the other with differently shaped nozzle tube segments ( 8 , 9 and 10 ) forming a nozzle tube with sections of different shapes. 2. Water jet nozzle according to claim 1, characterized in that the nozzle inserts ( 5 , 6 and 7 ) are made of different, wear-resistant pieces of material. 3. Water jet nozzle according to claim 1, characterized in that the nozzle tube segments ( 8 and 10 ) of the outer nozzle inserts ( 5 and 7 ) are expanded to funnels with a favorable inlet and outlet geometry. 4. Water jet nozzle according to claim 1, characterized in that the nozzle tube segments ( 8 , 9 and 10 ) have non-circular cross-section. 5. Water jet nozzle according to claim 1, characterized in that at least one side channel for the introduction of abrasive in pasty or solid wire-like form to the nozzle tube one of the nozzle inserts (5, 6, or 7) is provided.