EP0445103A2 - Method and device for feeding particles to an abrasive cutting device - Google Patents

Abstract

The invention relates to a method and a device for feeding solid particles from a supply device to a device for charging free-flowing cutting jets. Charging of cutting jets at a greater distance from the supply unit is to be ensured. To this end, provision is made according to the invention for solid particles to be moved in a circuit between a supply device and a loading or intermediate-storage device, and for a partial quantity, serving in each case for charging the cutting jet, to be removed from the circuit. …<IMAGE>…

Description

The invention relates to a method and a device for conveying solid particles and the like to a device, in particular a remote device for loading flowable cutting jets with such particles, for example liquid jet abrasive cutting devices, particles being removed from a container, preferably in a certain amount a transport medium is introduced and fed to the cutting device and provided for loading the cutting beam.

Liquid jet cutting devices, in which a thin, flowable jet with high kinetic energy is used as the cutting means, are used for separating flat materials. For such processing of materials with high strength, abrasive cutting is required, in which the high-speed cutting jet is loaded with solid particles or cutting particles. In an abrasive cutting device, the jet emerging from a nozzle ultimately flows through a focusing nozzle, as a result of which a negative pressure is formed in the mixing chamber of the device, through which solid particles are sucked out of a container, preferably provided with a metering device.

Containers for the provision of the solid particles are connected to the cutting head by means of transport, for example a hose or a line, the conveyance of the particles being brought about by the negative pressure formed in the cutting head. The disadvantage here is that there is sufficient transport of solid particles the transport line is short and thus the distance of the container from the cutting head is essentially limited to a maximum of 5 m and that, in particular when the flow movement of the particles is interrupted, they can settle in the transport medium due to their higher specific weight and can lay the connecting line. In many cases, small containers or intermediate containers are also arranged above the cutting head in order to improve the supply of the solid particles. When the cutting bar is switched off, the particles can be unwanted to be fed into the mixing chamber due to their weight. Furthermore, a controlled, consumption-dependent filling of the intermediate container from a remote storage container is required, with an interrupted refill with pneumatic pumping of the transport lines having to take place during pneumatic transport.

EP-0152223-A2 discloses a method and a device for producing cutting jets loaded with abrasive particles, wherein cutting particles can be conveyed over a distance of 100 m and more. It is provided that a carrier medium, in particular air, is fed to a Venturi device, in which abrasive particles are mixed with it from a storage container, the mixture is transported and the particles are cut off in a separator, and with a Venturi device by means of a small-diameter pipe to deliver a high pressure liquid jet. The disadvantages here are that a long time is required at the beginning, during which the solid particles are transported from the storage container to the separator, and that the cutting jet can only be switched off sensibly when the pipe and feed line are largely cleared of solid particles, because otherwise there is a risk of laying this line.

Here the invention seeks to remedy the problem and to provide a method with which, while avoiding the above disadvantages, solid particles and Abrasive particles of the same type can be fed from a supply device to a remotely located liquid cutting head and can be provided for loading a flowable cutting jet.

This object is achieved according to the invention in that solid particles are moved in a circuit between a supply device and a loading or intermediate storage device of a cutting device and a quantity of particles serving to load the cutting beam is removed from the circuit.

Advantageous refinements and developments are characterized in the subclaims.

The advantages achieved by the invention are essentially to be seen in the fact that the solid particles can be provided for loading the cutting jet in the cutting head at any time and can be carried out independently of the operation of the cutting device or of the start of flow and the flow duration of the cutting jet.

If solid particles with a certain concentration are moved in a carrier medium in a circuit between a supply device and a loading or intermediate storage device, a required amount of particles can be removed from the stream at any time by suitable means.

It is advantageous if the concentrations of the solid particles in the feed line to the cutting head are carried out by metered addition to a particle-free transport medium and, if appropriate, recycled particles are separated off and made available for further introduction in the supply device. As a result, when the cutting jet is switched off, it is possible to stop or prevent the metering or supply of the solid particles and to clean the lines using the transport medium. It is it is important that a pressure is adjusted at the sampling point that is lower than the ambient pressure prevailing at this point.

The invention is based on the further object of providing a device for conveying solid particles to a device, in particular a distant one, for loading flowable cutting jets.

This object is achieved using the method according to the invention in that the connecting means between the supply device and the device for loading flowable cutting jets from at least two tubular lines, e.g. Channels, hoses and the like is formed.

Further preferred embodiments of the device according to the invention result from the following description, the patent claims and the drawing.

1 shows a basic structure of the device.

In the system shown schematically in FIG. 1 for supplying a cutting device 1 with solid particles for loading a cutting beam 11, solid particles are provided in a supply device 2. The particles are fed to a mixing element 4 by means of a metering device 3, for example a chord-type conveyor 33, and are transported from the carrier medium entering through a feeder 51 through a feed line 5 to a loading device of a cutting device 1. In the loading device or in the area of an intermediate storage device, the required amount of particles is removed from the transport medium in a cavity or bypass by the action of the cutting jet or by suitable means and the transport medium with any particles remaining in this in a return line 6 of a separating and / or Utilities 2 fed. This separating device 2 can be designed as a cyclone, it being advantageous if a pump 21 sucks the carrier medium, which is essentially free of solid particles, from the cyclone by means of a line 22. This makes it possible to use simpler pumps and / or to reduce pump wear. Furthermore, it is advantageous if the pressure of the transport medium in the region of the cavity of the loading device or the bypass at the intermediate storage device can be regulated and is also kept lower than the ambient pressure. In this case, in particular in the case of long and / or thin lines, the transport medium can be pressed into the feed 51 by means of a pump (not shown) and sucked off by means of a further pump 21 and the return line 6, in particular from the separating device 2. With such a device, it is also possible, in particular for the introduction of solid particles into an intermediate storage device, to temporarily regulate the pressure at the bypass greater than the ambient pressure and thus to facilitate powder removal. When the liquid jet device is started up, the circulation of the carrier medium can be started beforehand in order to convey the solid particles, and the particles can be added or introduced into the mixing element. If the cutting jet is switched off, the powder addition can be stopped, after which the lines 5, 6 are completely emptied or cleaned by the flowing carrier medium. As a result, the functional reliability of the device for conveying solid particles is improved in a simple manner and the degree of utilization of the particles is increased.

Claims (15)

Method for conveying solid particles and similar cutting particles from a supply device to a device, in particular a remote device, for loading flowable cutting jets with such particles, for example liquid jet abrasive cutting devices, particles being removed from a container, preferably in a certain amount, into a transport medium introduced and fed to the cutting device and provided for loading the cutting beam, characterized in that solid particles are moved in a circuit between a supply device and a loading or intermediate storage device of a cutting device and the circuit one for loading the cutting beam serving amount of particles is removed. Method according to Claim 1, characterized in that the flow in the circuit is regulated in such a way that a pressure in the transport medium which is equal to or less than the prevailing one is set at the removal point of the solid particles or in the region of the loading device for the cutting jet Ambient pressure. Method according to Claims 1 and 2, characterized in that the concentration of the solid particles in the medium in the feed line from the supply device to the loading device is regulated by a metering device. Method according to one of claims 1 to 3, characterized in that the solid particles returned to the supply device, preferably in a cyclone, are separated and made available for further introduction into the transport medium. Method according to one of claims 1 to 4, characterized in that the amount of solid particles available in each case is determined in the intermediate storage device and is supplemented by the loading device in accordance with the removal. Method according to one of claims 1 to 5, characterized in that a gaseous medium is used to transport solid particles. Method according to one of claims 1 to 5, characterized in that a liquid medium, optionally a heavy liquid, is used to transport the solid particles. Device for conveying solid particles and the like cutting particles to a device (1), in particular a remote one, for loading flowable cutting jets with such particles, for example liquid jet, abrasive cutting, devices, in particular for carrying out the method according to claims 1 to 7 Supply device (2), in which solid particles are stored and introduced into a transport medium, with a connecting means for the feed line and a device for providing the solid particles for their use for loading at least one flowable cutting jet (11), characterized in that the connecting means consists of at least two tubular lines (5,6), for example by channels, hoses and the like, is formed. Apparatus according to claim 8, characterized in that the Connection means is formed from at least one feed line (5) and a return line (6). Apparatus according to claims 8 and 9, characterized in that the return line (6) is connected to a device (2) for separating the solid particles from the transport medium. Device according to one of claims 8 to 10, characterized in that the device (2) for separating the solid particles is essentially designed as a cyclone. Device according to one of claims 8 to 11, characterized in that one or more pumps (21) are provided in front of, preferably in the area of the supply device, for moving the solid particles in a transport medium. Device according to one of claims 8 to 12, characterized in that the pump (s) (21) is (are) arranged at those points of the conveying device at which the transport medium is essentially free of solid particles. Device according to one of claims 8 to 13, characterized in that at least one mixing element (4) for introducing a quantity of solid particles conveyed by the metering device (3) into the transport medium fed through a line (51) is arranged in the area of the supply device and, if appropriate is formed with a jet nozzle. Use of a device according to claims 8 to 14 for providing solid particles for loading a flowable cutting jet in a cutting device with a stream of solid particles moving in a cavity.

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