PL112679B2 - Magnetic table with permanent ferrite-barium magnets - Google Patents

Description

The subject of the invention is a magnetic table with permanent magnets made of barium ferrite, intended for fixing and clamping workpieces during machining by cutting. State of the art. There are tables as well as magnetic devices and holders manufactured on the basis of permanent magnets made of nickel (Al-Ni) and nickel-cable (AI-NiCo) alloys. Tables with table magnets, unlike tables with ferrite-bar magnets, are characterized by a significant clamping force with a simultaneous high production cost. The tables are manufactured on the basis of ferrite-bar magnets, they are cheap, but the fastening force obtained on them is small. This is because the magnetic characteristics of the two types of magnets differ significantly. At the same time, the machinability of cast magnets is significantly inferior. The essence of the invention. The essence of the invention boils down to the construction of a table based on barium ferrite magnets, in which it would be possible to use the maximum possible magnetic energy inherent in the table than in the tables produced today. The goal was achieved by constructing a table with facing with iron armco and positioned longitudinally in relation to the length of the table. Such a solution increases the length of the magnetic cores and, as a result, increases the surface of the active magnetic poles in contact with individual magnet guides. In the event that a magnetic flux is received from a magnetic core, such a solution allows for the exploitation of magnetic energy from a correspondingly larger number of magnets and, as a result, increases the use of the amount of energy contained in the table. The subject of the invention is shown in an embodiment in the drawings, where Fig. 1 shows the table in a partial blank, Fig. 2 shows a section of the table in the turned on position, and Fig. 3 shows a section of the table in the switched off position. The magnetic table is made of a bottom plate 8 made of steel. The bottom plate is enclosed in an aluminum frame 4 and the top plate 1 closed at the top is made of armco iron. The top plate has grooves in which there are inserts 3, also made of armco iron. Between the cut of the top plate 1 * and the insert 3 there is a gap 2 which fills with a diamagnetic adhesive. Inside the device there is a magnetic core 5 with magnet wires 7 and 9 forming magnetic poles that are identical. Between the magnetic conductors there are magnetic plates 6 made of barium ferrite. The magnetic core 5 is made as a unitary element. It can be made of whole or separate parts joined together by bolts or by welding, and is at the same time a magnetic conductor of the identical magnetic poles. In the body of the core, barium ferrite plates and linings (magnetic conductors) forming opposite poles are glued onto the permanent magnetic. Such a solution makes it possible to resign from the bottom plate as a magnetic pole and eliminate the air gap resisting the magnetic flux, which was the case in the previous solutions. Such a solution increases the efficiency of the table by several dozen percent. The path of moving the magnetic field in the magnetic core 5 is longer than that of the magnetic field in the magnetic core 7 and 9. In order not to reduce the table's magnetic pull, thinner magnetic core 7 and 9 are used than they are in the magnetic core 5. Application not the split magnetic core and the longitudinal arrangement of the magnetic cores make the solution original. The outputs of the identical magnetic poles 7 and 9 are in constant contact with the top plate 1 of the table, while the opposite poles formed by the core 5 come into contact with the inserts 3 glued to the top plate of the table and insulated from the plate body by slots 2 filled with adhesive. The topology is illustrated in Fig. 2 and it is the working position of the table - on position. The isolation of the single-pole magnetic cores of the core from the poles of the opposite claddings was obtained by milling, shown in Fig. 2. The table in the off position is shown in Fig. 3. The poles of the same core S enter into direct upper plate 1 of the table causes the internal closure of the magnetic flux and the loss of the ability to fix the object on the upper plate. Patent claims 1. Magnetic table with permanent ferrite-bar magnets intended for fixing and fixing objects during processing, characterized by the fact that it has a magnetic core (5) made as a unitary element, in which magnetic plates (6) of barium ferrite and magnetic conductors (7) and (9) are glued, as well as the top plate (1) with a series of longitudinal millings in which inserts (3) made of iron are inserted armco. 2. Magnetic table according to claims 1. characterized by the fact that both the magnetic core (5) and the magnetic cores (7) and (9) are situated longitudinally, the thickness of the magnets being elements of the magnetic core (5) being greater than the thickness of the magnetic cores (7) and (9) ). 3. Magnetic table according to claims 1 or 2, characterized in that the table is turned on by connecting the core (5) with the inserts (3) of the upper plate (1), and the table is turned off by connecting the core (5) with the upper plate (1) closing the magnetic flux inside the table. -I _ — 1_ + .J! +% 2 fij.3 Work Typographer. UP PRL. Mintage 120 copies Price PLN 45 PL

Claims (3)

Claims 1. Magnetic table with permanent ferrite-bar magnets intended for fixing and fixing objects during processing, characterized by the fact that it has a magnetic core (5) made as a unitary element, in which magnetic plates (6) made of barium ferrite are glued and the magnetic cores (7) and (9) as well as the top plate (1) having a series of longitudinal millings into which inserts (3) of armco iron are inserted. 2. Magnetic table according to claims 1. characterized by the fact that both the magnetic core (5) and the magnetic cores (7) and (9) are situated longitudinally, the thickness of the magnets being elements of the magnetic core (5) being greater than the thickness of the magnetic cores (7) and (9) ). 3. Magnetic table according to claims 1 or 2, characterized in that the table is turned on by connecting the core (5) with the inserts (3) of the upper plate (1), and the table is turned off by connecting the core (5) with the upper plate (1) closing the magnetic flux inside the table. -I _ — 1_ + .J! +% 2 fij.3 Work Typographer. UP PRL. Mintage 120 copies Price PLN 45 PL