PL112824B2 - Magnetic chuck with permanent ferrite magnets - Google Patents

Description

The subject of the invention is a magnetic chuck with permanent ferrite magnets, intended mainly for fixing objects during their machining. The invention can be classified in the technical field under the name "Tools and fixtures4 *. State of the art." Known circular and rectangular magnetic holders of this type are manufactured on the basis of permanent magnets made of nickel and cobalt alloys and ferrites. The holders with permanent alloy magnets are characterized by a high holding force, reaching even several times the strength of holders with ferrite magnets. The disadvantage of these holders is the high manufacturing cost resulting from the price of the magnets themselves as well as the difficulty of processing them. Chucks with ferrite magnets are characterized by a lower cost, but also a lower clamping force despite accumulating quite a lot of energy in the magnetic block *. The essence of the invention. The essence of the invention is to find such a constructional solution that will allow better use of the energy accumulated in the magnetic block, ensuring that ferrite magnet holders obtain a holding force similar to high-class alloy magnet holders. This is achieved by increasing the thickness of the facings (magneto-conductors) of the ferrite magnetic plates with the simultaneous connection of one poles of the block with the same face of the front plate (upper) and the other closing plate (lower). the entire surface of the table and, as a result, to obtain greater clamping force. The advantageous effects of the invention are the reduction of the cost of the holder while maintaining better performance characteristics, the possibility of increasing the work efficiency by enabling the use of higher machining parameters, reducing the number of magnetic plates per holder and extending the use of magnetic holders in the industry. Explanation of figures in the drawings. The subject of the invention is shown in the embodiment in the drawings, where Fig. 1 shows the circular holder in a view from the side of the faceplate with its partial cut to show the magnetic block, Fig. 2 shows an axial section of the circular holder, Fig. 3 - an axial section of the holder. (circular or rectangular) in which the trip is due to the linear displacement of the magnetic block. All figures show the handle in the on position. Example of an embodiment of the invention. The holder consists of a face plate 1, an intermediate piece 2, a closing plate 3 and a magnetic block 4. The face plate is made of a ferromagnetic material, eg armature iron. connecting all poles of the same name of the magnetic block, it has holes in which insulated inserts are placed 5. These inserts are the outputs of the second poles of the magnetic block, which are connected to each other by a closing plate 3. Element pos-3 112 824 4 diameter 2, made made of diamagnetic material, e.g. aluminum, has the shape of a ring in round handles or a frame in rectangular handles. The closure plate 3, made of a ferromagnetic material, for example armco iron, has the shape of a disc in round handles or a rectangular shape in rectangular handles. From the side of its inner face, longitudinal grooves 6 are made, which ensure the isolation of one poles of the same name, and the resulting protrusions 7 connect the other poles with each other. These grooves may be filled with a diamagnetic material. The closure plate 3 may have an inner face-flat (Fig. 3), while at the same time lengthening the homonymous linings 8. The first solution applies to circular holders, in which the switching off of the external magnetic field will be carried out by turning the magnetic block (Fig. 1) by means of an eccentric or toothed gear. The second solution (flat front surface) is intended for round and rectangular holders, in which the external magnetic field will be switched off by linear displacement of the block by a value of present (eccentric, bolt, etc.). The magnetic block 4 is a set of ferrite plates (magnets) placed in facings made of a ferromagnetic material, eg armco iron (magneto-conductors), and after appropriate positioning, integrated clamps made of a diamagnetic material, eg aluminum. The magnetic block is provided with the possibility of rotation or displacement in relation to the other elements of the holder. Patent claims 1. Magnetic holder with permanent ferrite magnets intended mainly for fixing workpieces during machining, characterized by the fact that the magnet guides (8) of the magnetic block (4) are identical the pole, contacting the closing plate (3), forms one common pole, while the magnetic cores of the opposite pole, touching the upper plate (1), form the other common pole. 2. Handle according to claim 1, modifiable by the fact that the ratio of the thickness "a" of the cladding (magneto-conductors) to the MbM thickness of the magnets is in the range of 1.5 to 2. '. In 3 works, Polygraph of the Polish People's Republic. Mintage 120 + 18 copies. Price 45 zl PL

Claims (2)

Claims 1. Magnetic holder with permanent ferrite magnets intended mainly for fixing workpieces during machining, characterized in that the magnetic core (8) of the magnetic block (4) being the same pole, in contact with the closing plate (3) forms one common pole and the magnetic cores of the opposite pole, touching the upper plate (1), form the second common pole. 2. Handle according to claim 1, it is changed by the fact that the ratio of the thickness "a" of the cladding (magneto-conductors) to the MbM thickness of the magnets is within 1.5 to 2. '.u 3 Works. Polygr. UP PRL. Mintage 120 + 18 copies Price PLN 45 PL