EP0669160A1 - Magnetic mixer with its casing - Google Patents

Abstract

The stirring housing (2) has a top cover (4), fitting on its base (3) and forming the platform (7) for the stirrer vessel. The drive magnet (6) and motor (5), also its speed control and electrical connections, are all mounted on the base. The cover (4) is glass; its edge (8) presses on the base (3) seating (9). In use, the edge and its seating are horizontal, or parallel to the platform.

Description

The invention relates to a magnetic stirrer with a housing, which has a lower part and an upper part which can be connected to it, the drive motor with its control and the electrical connection being arranged in the lower part and the upper part which can be attached to it on the upper side of the mounting surface for a stirring vessel containing the stirring magnet forms.

Such magnetic stirrers are already known in practice. Since they usually do not contain any heating, the upper part of the housing can also be the installation surface for the mixing vessel. As a rule, this consists of plastic, so that in the case of an aggressive medium to be stirred, there is a risk that this upper part will be damaged by overflowing constituents or substances or also by aggressive vapors released during stirring. If the outside of the vessel is wetted with the aggressive medium to be stirred, the base will be exposed to this medium for a correspondingly long time and may be irreparably destroyed.

Attempts have therefore already been made to use an enamelled top, but this has the disadvantage that it is sensitive to impact and means that it is expensive to produce.

In addition, in all of these known solutions there is a sealing problem between the upper part and the lower part, the sealing generally being produced by the most accurate possible joining of the lower part and the upper part and possibly a labyrinth seal provided in the process. This allows an aggressive vaporized medium to penetrate inside the device.

Another solution is provided by a top part made of stainless steel, in which similar sealing problems occur and, in the case of very aggressive media, there is a risk of corrosion despite the material used. Nevertheless, such a device is very expensive due to the material used.

It is therefore the task of creating a magnetic stirrer of the type mentioned at the beginning, in which the installation surface is largely insensitive to aggressive media, in particular liquids, but also vapors, but can nevertheless be produced inexpensively and allows a simple and effective seal against the lower part.

The solution to this problem is that the upper part of the housing is made of glass and the edges of this upper part are pressed onto the lower part in a self-sealing manner.

Glass is a sufficiently stable material to serve as a footprint for the mixing vessel, which is usually also made of glass, and can withstand aggressive media such as the mixing vessel made of glass. Such a glass upper part can be manufactured inexpensively, especially since glass is an inexpensive material.

In addition, the edge to be connected to the lower part of this upper part, which is made of glass, can be shaped and so smooth that a sufficient seal is automatically created when pressed onto the lower part.

It is particularly expedient if the lower part of the device consists of a somewhat resilient material. Thus, the counter surface adapts to the upper part when pressed against it, even if there are slight dimensional deviations, so that the sealing effect is improved.

A particularly good seal is obtained if the upper part made of glass is cap-shaped or bowl-shaped and has a bead, flange or similar widening on its lower free peripheral edge in the position of use, and if a seat on the lower part has an undercut for receiving it Widening is provided.

The seat for the edge can be sunk inside the lower part, so that a sealing surface forms both on the end face of the edge of the glass part and on the widening and finally over part of the height on the side surface of the glass upper part.

Since the lower part is made of a somewhat flexible material, the glass upper part can be pressed against its seat from above, although the widening is excessive compared to the uppermost opening of the upper part. In the position of use, the upper opening of the lower part should lie under pressure on the outside of the glass upper part. This results in a sealing seat that is also impermeable to vapors along the connecting line between the lower part and the upper part.

The side wall of the upper part made of glass can have a recess for the passage of a rotary knob shaft, so that the device can be changed from the outside, for example with respect to the engine speed. It is useful if the knob bearing itself is provided on the lower part and protrudes so far over the upper part that the recess for the rotary shaft covers and is also sealed on the outside of the upper part.

The outer edge of the rotary knob with the shaft attached to it can be rotatably locked to the rotary knob bearing of the lower part of the housing.

This can be achieved particularly easily if the rotary knob bearing of the lower part has a circumferential groove and the rotary knob has a circumferential edge or bead which fits into the groove and can be locked with this groove. Since the groove and bead run in a circle, the rotary knob can be used to change the motor rotation despite this locking number will be twisted.

It should also be mentioned that the use of glass has the advantage that the upper part can be made transparent and thus also enables the user to visually check the motor located inside. However, there is also the possibility of coating this upper part in particular on the inside, that is to say providing a coating in the sealed space and thus separate from aggressive media. This has the advantage that, due to such a coating, the device can be designed to be optically different and appealing, depending on the use of colors, graphics and patterns, and, for example, inscriptions, the brand or instructions can be well protected and attached in a clearly visible manner.

Another advantage of the glass upper part is that it can be easily and inexpensively replaced by a new upper part of this type in the event of damage or destruction, especially since the assembly is also very simple.

So that the glass upper part cannot be accidentally pulled out of its sealing seat or can fall out, it can be glued to the lower part. This can further improve the seal, although it must be accepted that it is more difficult to replace the upper part.

If the device is no longer repairable, the glass top has the advantage that it can be easily recycled for recycling.

The shaft of the rotary knob can be coupled with an adjustable potentiometer, the change of which changes the speed of the motor. If the rotary shaft is turned too far, the potentiometer, which only allows a limited angle of rotation, could be torn out of its holder. On the one hand, this can be recognized by the glass hood and, on the other hand, a design of the rotatable knob is possible in such a way that a stop limiting this rotation path to the highest angle of rotation of the potentiometer is provided on its rotation path.

In order to compensate for assembly and manufacturing tolerances, the rotary shaft can be designed so thin or weak that it allows torsion and thus reaching the rotary stop when the stop within the potentiometer and before the rotary knob stops, before the holder of the potentiometer is overloaded is.

All in all, especially when combining one or more of the features and measures described above, a magnetic stirrer of great performance, which is also easy to keep small in size, which is chemically highly resistant, can be manufactured inexpensively due to the low technical outlay, requires few individual parts and is overall very reliable can be.

An embodiment of the invention is described below with reference to the drawing.

• Fig.1 einen senkrechten Schnitt durch einen erfindungsgemäßen Magnetrührer mit einem zweiteiligen Gehäuse,
• Fig.2 eine Draufsicht dieses Magnetrührers,
• Fig. 3 eine Ansicht des Unterteiles des Magnetrührers mit der Lagerung für einen Drehknopf zum Verstellen der Drehzahl,
• Fig. 4 einen Längsschnitt des Drehknopfes und
• Fig. 5 eine Stirnansicht dieses Drehknopfes.

It shows in a partially schematic representation:

• 1 shows a vertical section through a magnetic stirrer according to the invention with a two-part housing,
• 2 shows a plan view of this magnetic stirrer,
• 3 is a view of the lower part of the magnetic stirrer with the bearing for a rotary knob for adjusting the speed,
• Fig. 4 is a longitudinal section of the knob and
• Fig. 5 is an end view of this knob.

A magnetic stirrer designated as a whole has a housing 2, which is composed of two parts, namely a lower part 3 and an upper part 4, wherein in the lower part 3 a drive motor 5 with control and the like and also with the electrical connection are arranged and this Drive motor 5 has magnets 6, with which a stirring magnet, not shown, can be rotated in a stirring vessel. The upper part 4 is fastened to the lower part 3 and the upper side 7 of this upper part 4 is the mounting surface for a stirring vessel containing the stirring magnet, which often consists of glass.

The upper part 4 of this magnetic stirrer 1 is also made of glass and its edges are self-sealingly pressed onto the lower part 3 of the housing 2 in a manner to be described.

Above all in FIG. 1 it can be seen that the edge 8 of the upper part 4 which is made of glass and which is to be connected to the lower part 3 is so smooth that a good sealing effect is already achieved by pressing on a corresponding counter surface 9 of the lower part 4.

The lower part 4 can consist of a somewhat resilient material, so that the edge 8 and the counter surface 9 can also adapt to mutual slight dimensional deviations when compressed, thereby producing the aforementioned sealing effect.

In Figure 1 it can be seen that the upper part 3 made of glass is cap-shaped or bowl-shaped, the "bottom" of this "bowl" is directed upwards in the position of use and forms the installation surface 7. The lower free peripheral edge 8 in this position of use has a widening 10 approximately in the form of a flange which is opposite the outside of the Upper part 4 protrudes radially outwards. The lower part 3 has in the area of the counter surface 9 an annular undercut 11 which, in the position of use, receives the aforementioned widening 10 in a form-fitting manner. The counter surface 9 is recessed as a seat for the edge 8 within the lower part 3, so that there is a sealing surface both on the edge 8 of the upper part 4 made of glass and on the widening and on the widening of the upper part 4 adjacent to this widening . This practically creates a plurality of ring-like sealing surfaces which are adjacent to one another and prevent penetration of aggressive vapors into the interior of the magnetic stirrer 1.

If the lower part 3 is made of resilient material, the glass upper part 4 can be pressed into its use position from above and locked with its widening 10 in the undercut 11, although this widening is excessive compared to the actual upper opening of the lower part 3 . In the use position, the opening of the lower part 3 rests under pressure on the outside of the upper part 4 and causes the sealing seat, which is impenetrable for vapors, along the contacting surfaces between the lower part 3 and the upper part 4.

According to Figure 1, the side wall of the upper part 4 has a recess 12 for the passage of a knob shaft 13, which is shown separately in Fig. 4 together with the knob 14. With this rotary knob 14, the magnetic stirrer 1 can be changed from the outside, for example with respect to the motor speed, via the rotary knob shaft 13. The rotary knob bearing 15 itself is provided on the lower part 3, as can be seen in FIGS. 1 and 3. This knob bearing 15 stands high with respect to the lower part and thus projects laterally beyond the upper part 4 to such an extent that the recess 12 provided there for the rotary knob shaft 13 overlaps and is also sealed with appropriate contact on the outside of the upper part 4. This protrusion and abutting the rotary knob bearing 15 on the outside of the upper part 4 can be seen above all in FIG. 1 but also in FIG. 2, where one recognizes the adaptation of this rotary knob bearing 15 to the circular contour of the upper part 4 in the exemplary embodiment.

According to FIG. 1, the rotary knob 14 is rotatably locked with the rotary knob shaft 13 attached to it with its outer edge 14a on the rotary knob bearing 15 of the lower part 3 of the housing 2. This represents a very simple type of assembly. According to FIG. 4, the actual knob shaft 13 is in turn inserted into a corresponding receptacle of the knob 14 and fixed in a clamped or glued manner, so that the shaft 13 itself is made of metal, but the knob 14 is made of plastic can exist.

For the latching, the knob bearing 14 has a circumferential groove 16 and the knob 14 has the circumferential edge 14a or bead which fits into the groove 16 and which is latched to the groove 16. This results in a very simple assembly and also easy disassembly. Since the groove 16 and the rim or bead 14a run in a circle, the rotary knob 14 with its central rotary knob shaft 13 can be rotated in spite of this locking, for example to change the engine speed.

The connection between the upper part 4 and lower part 3 can be further improved in that these parts are glued together. At the same time, the seal is also improved.

1 and 2, the shaft 13 of the rotary knob 14 is coupled to an adjustable potentiometer 18, the change of which acts accordingly on the speed of the motor.

If the knob shaft 13 were turned too far, the potentiometer 18, which only allows a limited angle of rotation, could be damaged or torn from its holder. The user can control this well, since the upper part 4 is made of glass and can thus be transparent, but in the exemplary embodiment there is also a safeguard against such damage by the rotary knob 14 permitting this rotational path to the highest permissible on its rotational path Rotation angle of the potentiometer 18 limiting stop 20 is provided. The stop 20 can be seen as an inside projection in the rotary knob in FIGS. 4 and 5. It projects into a corresponding cutout 21 of the rotary knob bearing 14, which cutout limits the predetermined angle of approximately 270 _° on both sides. This cutout, which extends over the larger part of the circumference of the rotary knob bearing 14 or a stop projection 22 protruding into this cutout, can be clearly seen in FIG.

The magnetic stirrer 1 has a two-part housing 2, the lower part 3 containing the necessary drive means, namely a drive motor 5 and its control means, while the upper part 4 forms the mounting surface for a stirring vessel receiving a stirring magnet, the separating surface of the two parts 3 and 5 in Use position runs approximately horizontally. The upper part 4 of this housing 2 is made of glass and the edge 9 of this upper part 4 is pressed tightly against a counter surface 9 of the lower part 3 in the position of use, possibly even glued. The edge 8 can have a widening 10, which snaps into a corresponding undercut 11 of the lower part 3. This results in a very simple and inexpensive, anyway but also tight against impervious vapors and insensitive construction of the magnetic stirrer 1.

Claims (15)

1. Magnetic stirrer (1) with a housing (2) which has a lower part (3) and an upper part (4) which can be connected to it, the drive motor (5) with its control and the electrical connection and also in the lower part (3) Driven magnets (6) are arranged and the upper part (4) which can be attached to it forms on its upper side the mounting surface (7) for a stirring vessel containing the stirring magnet, characterized in that the upper part (4) consists of glass and the edge (8) thereof Upper part (4) is pressed sealingly against a counter surface (9) of the lower part (3). 2. Magnetic stirrer according to claim 1, characterized in that the edge (8) and the counter surface (9) are arranged in the use position in a horizontal plane or to the mounting surface (7) parallel plane. 3. Magnetic stirrer according to claim 1 or 2, characterized in that the cooperating with the lower part (3) in the use position edge (8) of the glass upper part (4) is so shaped and smooth that when pressed on the lower part (4th ) a sufficient sealing effect is given by itself. 4. Magnetic stirrer according to one of claims 1 to 3, characterized in that the lower part (4) of the magnetic stirrer (1) consists of a somewhat resilient material, in particular plastic or synthetic rubber. 5. Magnetic stirrer according to one of claims 1 to 4, characterized in that the glass upper part (4) is cap-shaped or bowl-shaped and has a bead, flange or a widening at its lower, free, peripheral edge (8) in the use position (10) and that on the lower part a counter surface (9) or a seat with an undercut (11) for receiving the widening (10) is provided. 6. Magnetic stirrer according to one of claims 1 to 5, characterized in that the counter surface (9) is sunk as a seat for the edge (8) within the lower part and a sealing surface on the edge (8) of the widening (10) and in particular the the widening adjacent outside of the glass upper part (4) is provided. 7. Magnetic stirrer according to one of claims 1 to 6, characterized in that the upper part (4) is pressed by the resilient material of the lower part (3) from above against its seat formed by the counter surface (9). 8. Magnetic stirrer according to one of claims 1 to 7, characterized in that the side wall of the upper part (4) has a recess (12) for the passage of a knob shaft (13) and the magnetic stirrer (1) from the outside, for example, with respect to the motor speed changeable is. 9. Magnetic stirrer according to one of claims 1 to 8, characterized in that a knob bearing (15) is provided on the lower part (3) and so far beyond the side of the upper part (4) that the recess (12) for the rotary shaft ( 13) is covered and sealed on the outside of the upper part (4). 10. Magnetic stirrer according to one of claims 1 to 9, characterized in that the rotary knob (14) with its outer edge (14a) on the rotary knob bearing (15) of the lower part (3) of the housing (2) is rotatably locked. 11. Magnetic stirrer according to one of claims 1 to 10, characterized in that the rotary knob bearing (15) of the lower part (3) has a circumferential groove (16) and the rotary knob (14) has a circumferential edge (14a) which fits into the groove (16) ) or bead that can be locked with the groove (16). 12. Magnetic stirrer according to one of claims 1 to 11, characterized in that the inside of the upper part has a coating, for example lettering, a brand or notes or the like. 13. Magnetic stirrer according to one of claims 1 to 12, characterized in that the upper part (4) with the lower part (3) is adhesively connected, in particular glued. 14. Magnetic stirrer according to one of claims 1 to 13, characterized in that the rotary knob shaft (13) is coupled to an adjustable potentiometer (18) and on the rotary path of the rotary knob (14) limits this to the maximum permissible angle of rotation of the potentiometer (18) Stop (20) is provided. 15. Magnetic stirrer according to one of the preceding claims, characterized in that the rotary knob shaft (13) is so thin or weak that when the potentiometer is stopped and before the stop (20) for the rotary knob (14) is rotatable or by torsion is elastically deformable so that the rotary knob strikes against its stop (20) before the mounting of the potentiometer (18) is overloaded.

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