DE2914170A1 - Laboratory magnetic stirrer - having permanent magnet attached to rotor with axial magnetisation giving better control of both long and short agitator elements - Google Patents

Abstract

Magnetic stirrer has a permanent magnet attached to a shaft on an electric motor which is rotated. Above it in a vessel is a magnetic rod held in a magnetic coupling which causes it to rotate with the rotor. The permanent magnet on the rotor is magnetised along its axis so that the magnetic field lines along its surface leave vertically. The magnet is mounted on a disc of ferromagnetic material esp. iron or steel. This serves to screen the electric motor. Stirrer allows better control of the stirrer element, whether this be short or long, holding it firmly in the centre of the vessel and give better utilisation of the magnetic forces.

Description

Magnetic stirrer The invention relates to a magnetic stirrer with a permanent magnets driven by an electric motor around a vertical axis, which by its rotation via a magnetic coupling a stir bar inside of the medium to be stirred.

Such magnetic stirrers are known. The stir stick is also used often formed by a permanent magnet. Especially with relatively short stir bars z. B. in correspondingly narrow stirring vessels is the case with conventional magnets Problem that the stir bar in the area of the periphery of the rotating magnet pulled and then carried along because there the magnetic force of the driven Rotary solenoids is greatest. At high speed there is then the risk that due to The centrifugal force throws the stirring rod outwards on the now eccentric path and possibly even the stirring vessel smashed. In any case, then the stirring process is initially interrupted. In addition, with the conventional Magnetic stirrers are a waste of energy in that the magnetic force is in the same Way in which it acts on the stir bar, including on the opposite side of the magnet works where it fulfills no function.

There is therefore the task of creating a magnetic stirrer of the type mentioned at the beginning Art to create, with the shorter compared to the expansion of the rotary magnet Stirring bars securely in Center of the stirring movement kept and also longer Stirring bars can be centered well. One embodiment of the invention is intended be possible, which allows a better utilization of the magnetic forces.

The solution to this problem is essentially that the driven Permanent magnet is axially magnetized so that the field lines on the surface of the magnet exit vertically and complement each other in an arc shape. Opposite to an otherwise common diametrical magnetization, in which the field lines predominate emerge at the end or face of the magnet, then also result in the center of the magnet close to the axis of rotation strong enough forces to move above this To hold the magnet located there and to center it.

An embodiment of the invention of its own worthy of protection can consist in the fact that one from below the driven permanent magnet ferromagnetic material, in particular a disc made of steel or iron is provided. This can be used as a magnetic short-circuit disc, the downward one Record field lines of the permanent magnet and to the opposite side deflect so that above the shielded in the manner described on its underside Permanent magnets a correspondingly larger magnetic force is effective or the entire Magnetic force of the permanent magnet is better used.

It is useful and advantageous if the permanent magnet shielded by the disk from the iron parts present on the drive motor is. This creates a mutual influence between the permanent magnet and these iron parts largely switched off and the disk receives an additional one Function. This shielding disk between magnet and motor has the advantage of that the overall height of the device can be kept lower, while without such Shielding a correspondingly large one Distance between the permanent magnet and the engine must be observed.

The mentioned disk can be used even better if a further possible embodiment of the invention is realized, which consist in it can that the disc at its edge with arranged at short distances from one another radial, preferably open-edged slots is provided and that they are as with the Motor revolving slotted disc to interact with one of the slots in the Reading fork is used to count the unit of time. If the engine speed changes because, for example the stirring resistance is changed by changing the material to be stirred this from the reading fork through the changed number of slides in the unit of time Slitting is determined and the speed of the motor can then be regulated if the stirring speed is to remain constant, for example.

The disk can be coupled directly to the shaft and the magnet be. It is particularly useful if the disk is the underside of the permanent magnet touches or rests there.

The coupling between the disc and magnet can, for. B. produced thereby be that the disc has a raised hub in its center, the inner diameter of which fits in an interference fit on the motor shaft, while its outer diameter is centering for the magnet also penetrated by the shaft. The coupling can be made by glue0 So a special coupling sleeve can be used or the like

between magnet and motor output shaft are avoided, so that the Disc is given a further function by the raised hub.

In particular, to achieve the lowest possible and space-saving The height of the entire device can be attached to the reading fork directly on a circuit board with that for engine speed control provided printed circuit be attached and their contacts can be attached to corresponding, on this circuit board mating contacts located or be plugged in. This will make them special Wiring between the reading fork interacting with the rotating disk and the circuit board avoided.

At least for magnetic stirrers without heating, an inexpensive manufacture can be used can be achieved in that a permanent magnet made of barium ferrite, in particular made of barium ferrite 300 is provided. A magnet made of this material can also be used magnetize particularly easily in the manner according to the invention, so that this does not only the magnet itself, but also the process of magnetizing it more cheaply can be carried out.

The following is the invention and its essential pertaining to it Details are described in more detail with reference to the drawing. It shows in schematic Representation: Fig. 1 is a sectional side view of a magnetic stirrer according to the invention and FIG. 2 the connection of the drivable permanent magnet with a shielding plate and the drive shaft as well as the course of part of the Magnetic field lines in interaction with a ferromagnetic material possibly even designed as a magnet stirring rod.

A magnetic stirrer designated as a whole by 1 has an electric motor 2, which carries a permanent magnet 4 on its vertical output shaft 3 and drives. As a result of its rotation, this permanent magnet 4 can have a magnetic Coupling a stirring rod 5 within the medium to be stirred and within the stirring vessel Take 6 with you, so in one Rotation about one perpendicular to the stirring station 5 move running axis 7.

In Fig. 2 it is indicated that the permanent magnet 4 is axially magnetized is, so that the field lines 8 on the surface 9 of the permanent magnet 4 is approximately perpendicular exit and complement each other in an arc or in the manner shown attack the stirring rod 5. Compared to a diametrical magnetization, in which the field lines exit predominantly at the end faces 10 of the permanent magnet 4, So there are also sufficiently strong magnetic forces in the center of the permanent magnet 4, in order to center a short stir bar 5 located above this magnet 4 and to prevent this rod from going out into the area of a stronger one there Magnetic force is drawn.

Below the permanent magnet 4 one can see a ferromagnetic one Material existing note 11. This can, according to FIG. 2, as a magnetic short-circuit disk take up the downward-directed field lines and then the opposite Page, so deflect towards the stirring rod 5, so that on this one accordingly greater magnetic force is effective.

At the same time, the disc 11 is so large that the permanent magnet 4 shielded by them from the: i iron parts present on the drive motor 2 is, so that even with a relatively low overall height of the individual parts a mutual Influencing is largely eliminated. The overall height can be correspondingly low of the entire device 1. The disk 11 thus protrudes laterally beyond the magnet 4 Above all in FIG. 2 it can be seen that the expediently circular disk 11 at their edge with arranged at short distances from one another, in particular radial and preferably open-edged slots 12 are provided so that they are as with the Motor or the permanent magnet 4 circumferential slotted disc for interaction with a reading fork 13 (cf. FIG. 1) counting the slots in the time unit can.

According to a particularly expedient and advantageous embodiment According to the invention, this reading fork 13 is directly attached to a printed circuit board 14 attached which circuit board 14 is provided for the engine speed control printed circuit can carry. The reading fork 13 or the fork prongs 13 a are located at the same time on corresponding mating contacts located on this circuit board 14 or are plugged into it, so that there is a complex wiring between them Reading fork 13 and the engine speed control circuit unnecessary. This contributes to that already mentioned compact and low design of the entire device 1 at.

According to FIG. 2, the disk 11 is with the shaft 3 and the magnet 4 directly coupled. The disk 11 is on the underside of the permanent magnet 4 at. The coupling takes place in that the disc 11 is pulled up in its center Has hub 15, the inner diameter of which fits in a press fit on the motor shaft 3, while its outer diameter is a centering for the shaft 3, which is also penetrated Magnet 4 forms. The coupling between hub 15 and magnet 4 or shaft 3 and magnet 4 can be produced by an adhesive filled there. A special Coupling sleeve for connecting the permanent magnet 4 to the shaft 3 is so avoided.

The special magnetization of the Permanent magnets 4 mentioned. Especially for magnetic stirrers 1 without heating an inexpensive manufacture and, above all, an inexpensive magnet when this one is out Barium ferrite, in particular barium ferrite 300. The selected according to the invention This is because magnetization is very useful for such magnets and can be produced inexpensively. At the same time, such magnets are also inexpensive in terms of their production, see above that compared to more expensive magnets overall a correspondingly cheaper magnetic stirrer 1 is created.

Especially when combining the aforementioned features and measures results a magnetic stirrer 1, in which the magnetic forces are well concentrated the stirring rod 5 can be transferred, whereby it is also centered at the same time can be. The particularly advantageous additional parts, in particular the disk 11, at the same time for a compact design and a simple one Regulation can also be used.

All shown in the description, the claims and the drawing Features and construction details can be used individually or in any combination are of essential importance to each other.

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Claims (10)

Magnetic stirrer claims 1. Magnetic stirrer with one of an electric motor around a preferably vertical axis driven permanent magnet or the like through its rotation via a magnetic coupling a stir bar within the to be stirred medium takes along, d u r c h e k e n n -z e i c h n e t that the permanent magnet (4) or the like. is axially magnetized, so that the field lines (8) on the surface (9) of the magnet (4) emerge vertically. 2. Magnetic stirrer in particular according to claim 1, characterized in that that below the driven magnet (4) one made of ferromagnetic material, in particular made of iron or steel disc (11) is provided. 3. Magnetic stirrer according to claim 1 or 2, characterized in that the rotary magnet (4) through the disc (11) opposite the one on the drive motor (2) provided iron parts is shielded. 4. Magnetic stirrer according to one of claims 1 to 3, characterized in that that the disc (11) at its edge with arranged at short distances from one another, is provided in particular radial, preferably open-edged slots (12) and that they are rotating as with the drive motor (2) Slotted disc for cooperation with a reading fork which counts the slots (12) in the time unit (13) is used. 5. Magnetic stirrer according to one of claims 1 to 4, characterized in that that the disc (11) is directly coupled to the shaft (3) and the magnet (4) is. 6. Magnetic stirrer according to one of claims 1 to 5, characterized in that that the disc (11) touches the underside of the magnet (4) or rests against it. 7. Magnetic stirrer according to one of claims 1 to 6, characterized in that that the disc (11) has a raised hub (15) in its center, the inner diameter of which especially in a press fit on the motor shaft (3), while its outer diameter forms a centering for the magnet (4) penetrated by the shaft (3). 8. Magnetic stirrer according to one of claims 1 to 7, characterized in that that the coupling between the shaft (3) and the magnet (4) od by adhesive. Like. Is made. 9. Magnetic stirrer according to one or more of the preceding claims, characterized in that the reading fork (13) is directly on a circuit board (14) attached to the printed circuit board provided for engine speed control is and their contacts are located on corresponding, on this circuit board (14) Mating contacts is present or is plugged in. 10. Magnetic stirrer in particular according to one of the preceding claims, characterized in that the permanent magnet made of barium ferrite, in particular from Barium Ferrite 300 is made. - Description -