DE1556183A1 - Magnetic belt conveyor - Google Patents

Description

Magnetic belt conveyor The invention relates to an endless one Magnetic conveyor belt for magnetic conveyors that has a and the effective Alagnetsystem circulates over the conveyor line.

The magnetic force field of the magnet system extends transversely to the conveying direction. The conveyor belt is made of a non-magnetically conductive one Material chosen in order to prevent the adhesive force from being applied to the conveyor belt canceling magnetic short circuit of the magnet system is effected. On a conveyor belt made of non-magnetically conductive material penetrate the magnetic lines of force same and ferromagnetic objects that are used to convey on the conveyor belt in this case serve as return conductors for the magnetic lines of force, whereby the objects depending on their related to the power flow of the magnet system Iron mass experience more or less magnetic saturation.

The magnetic attraction comes without direct contact or

- there is contact between the conveyed object and the magnet system.

The magnetic lines of force must cover the distance Thickness of the tape and its distance from the magnet system results. Accordingly Due to this distance, only a partial utilization of the available ones occurs Adhesive force of the magnet system, which can lead to it being designed to be stronger must as this is necessary for the actual liability of the objects to be promoted is.

The invention has set itself the task of this disadvantage with endless Eliminate conveyor belts for magnetic conveyors. She has set herself the goal to improve the utilization of the adhesive force of the 2agnet system. According to the invention this is the case with an endless conveyor belt, which is arranged in the belt support frame and Effective alavnetsystem circulates over the conveyor line achieved in that it consists of magnetically conductive material, which extends up to magnetic saturation magnetized and its saturation beyond a magnetic stray field for adhesion which has objects to be promoted. The conveyor belt is in a partial magnetic short circuit, causing the conveyed items to have a direct magnetic Maintain connection and the stray magnetic field of the conveyor belt over the objects to be conveyed is involved in the partial magnetic short circuit. Through the enlarged magnetic flux, the adhesive force is increased many times over. Besides that results from the effect achieved according to the invention in comparison to belt conveyors with magnetically non-conductive tapes an improved utilization of the used magnetic energy.

Several exemplary embodiments are shown in the drawing, namely show: FIG. 1 a section through a schematically illustrated belt conveyor with apron conveyor, FIG. 2 a plan view of the apron conveyor according to FIG. 1, FIG. 3 a partial plan view of a steel wire link belt with roller pull chains Fig. 4 to 7 are schematic representations in section of the support of the conveyor belt on the magnet system The belt conveyor shown schematically in Fig. 1 consists in a known manner the side rails 1, which form the belt support frame and are connected to one another, 2, the magnet system 15 is interposed with over the center of the conveyor opposite poles north and south is located. According to the invention consists the conveyor belt 3 made of a magnetically conductive material, specifically in the special Formation of individual plates 4, which are magnetically non-conductive with a thin-en Base 5 is provided and connected to one another by hinges 6. The conveyor belt 3 is dimensioned in its volume so that each is above the magnet system locatedc tape section in the case of a partial magnetic short circuit a magnetic Experience saturation, but also maintains a magnetic stray field. the Via the conveyed objects coming into contact with the conveyor belt 3 in the partial magnetic short circuit is involved. Who achieved in this way Optimal magnetic flux improves or leads to greater utilization the adhesive force of the magnet system, which is particularly evident in the case of such conveyed objects makes noticeable that have a small iron cross-section, such. B. thin-walled Tin cans. According to the invention, they are also in the filled state with secure hold on the conveyor belt.

Instead of a conveyor belt 3 consisting of plates 4, such a steel wire links 7, as shown in Fig. 3, can also be used, the is moved by laterally attached roller pull chains 8.

Fig. 4 provides a conveyor belt 3 made of a sheet metal foil 9, the direlit or to reduce friction with a pad 10 (ed.

Fig. 5) made of magnetically non-conductive material on the xíagnetsystem is launched. The base 10 can thereby be placed on the underside of the conveyor belt 3 or only in the area of the magnet system 15 can be firmly attached to the latter.

But it is also possible, the conveyor belt 3 no matter what training, silver to slide the magnet system 15 on rotatable Stfitz bodies. Fig. 6 shows roller pairs 11 mounted as a support body in the tape support device magnetically conductive material on which the conveyor belt 3 rests and at his Movement unrolls.

For the same purpose, balls 12 can be used according to FIG. 7, which can be stored in the magnet system 15 or in the belt support frame.

For all types and designs described for the magnetic conductive material existing conveyor belt 3 come into consideration, applies equally, that the iron cross-section related to the magnetic flux of the magnet system 15 must be dimensioned so that the silver of the magnet system 15 is located Section of the conveyor belt 3 in addition to its magnetic saturation a stray field maintains.

Patent '

Claims (6)

P a t e n t a n 5 p r ü c h e 1. Endless conveyor belt for magnetic Conveyor, which is arranged in the belt support frame and effective over the conveyor line Magnet system revolves, characterized in that it is made of magnetically conductive material that magnetizes itself to magnetic saturation and beyond its saturation also has a magnetic stray field for adhesion of the conveyed objects. 2. Conveyor belt according to claim 1, characterized in that it consists of individual interconnected by hinges (6) and with a pad (5) consists of iron plates (4) provided with a magnetically non-conductive material. 3. Conveyor belt according to claim 1, characterized in that it consists of a sheet metal foil (9). 4. Conveyor belt according to claim 1, characterized in that it consists of a steel wire link belt (7) with roller pull chains (8). 5, conveyor belt according to claims 1-4, characterized in that it over the magnet system (15) on rotatably mounted support bodies (11, 12) made of magnetic conductive material slides. 6. Conveyor belt according to claims 1, 3 and 4, characterized in that that it slides on a base (10) made of magnetically conductive material.