DE2216641B2 - FEEDING DEVICE FOR LAB EQUIPMENT - Google Patents

Description

The invention is based on a feeding device according to the preamble of claim 1. You should be suitable for dosing small bulk quantities in laboratory equipment, especially laboratory mills.

To get a lot of /.B. 50 to 500 grams of a test material in a uniform as possible To be able to supply a small amount of flow from a few g / h to a few kg / h to a small laboratory device becomes devices used by very different, but mostly very high construction costs. The most expensive devices are in this case those that use the scaled-down versions of the devices generally used in process engineering - / .. B. Vibrating chutes. Plate feeder. Shaking feeder. Dosing screws etc. - represent, and their production costs are not significant compared to the large version can be reduced so that they can be compared to inexpensive laboratory machines such. B. shredding machines, are too expensive.

With simple feeding devices. / .. B. a feed hopper with adjustable discharge slide is even with a well-flowing task material does not have a uniform and reproducible dosage, as is the case with Operation of the sewn-sounding device are required must achieve. Due to the small outlet cross-sections, which are necessarily also small due to the small volume flows Even dosing is not possible because of interferences due to mutual jamming and bridging of the good particles, as a result of clogging by too large! 'articles or as a result Shooting through goods.

Because of these difficulties, the dosing of bulky feed items, for example wood chips from the chipboard industry. even more impossible. In such a case you can help yourself with one simple Finwurfirichler. in which the goods are mgesireiit by hand, although of course not even Load ties 1. Laboratory equipment can be achieved.

The task of the present invention is to provide a feeding device for laboratory equipment. especially l.abormiihlen. to create, which should allow a satisfactory accuracy in the dosage of all materials to be processed on the laboratory equipment with a simple and inexpensive training.

According to the invention, this object is achieved by a chute opening into the inlet shaft of the laboratory device solved that around a horizontal, below its A "slaufkante and fixed with the laboratory device connected axis can be pivoted and can be locked in any position. As a rest position expediently chosen a position in which the chute bottom towards the inlet of the laboratory device increases so that the sidewalled

Before starting work, the chute can serve as a container to hold the goods to be processed. Will the After switching on the laboratory device, the chute is slowly swiveled upwards so that it slips after reaching one certain inclination particles from the material supply gradually over the chute bottom into the inlet shaft of the laboratory device, with the resulting volume flow remaining constant over time. It has been shown that in laboratory devices with air throughput, for example laboratory impact mills, this Uniform sliding of the material through the air sucked in by the mill and that practically not to be eliminated residual unbalance of the rotating mill parts caused vibration is supported, surprisingly it has also been found that it is possible through sensitive adjustment of the chute inclination. not only free-flowing, but also sticky substances. z. H. Chalk and color pigments, and bulky goods, e.g. B. Wood chips, in uniform and reproduced in size meterable flow rate. In certain borderline cases, however, it cannot be avoided that with light tapping or brushing must be helped.

Fs has proven to be advantageous if the operator of the laboratory device only needs one hand for the sensitive adjustment of the chute inclination and its secure hold, so that his second hand remains free for other activities, / .. B. crushing lumpy agglomerates! ! with a brush. Operating a stop watch, etc. This requirement can be met in an advantageous manner in that a locking device is arranged on the chute. which is in frictional engagement with matching contact surfaces on the laboratory device, the friction surfaces being pressed against one another by spring force. It is also advantageous that this arrangement does not require great manufacturing accuracy, that is to say it is cheap to manufacture.

Because of the relatively small inlet opening in laboratory equipment, one would usually use a constant Broadly developed chute their storage capacity for the reception of a few hundred grams of test material not suffice. That's why it is. advantageous to have the chute behind its constant-width chute To widen the outlet line and to provide it with a raised edge.

The swiveling and enlarged chute is also advantageous if the test material is already in continuous stream z. B. arrives from other laboratory equipment and is to be processed immediately, because the inclination of the chute can be adapted to the flow of goods and thus a comparison of the Dosing can be effected. In addition, the larger chute can also handle a wider flow of material take up.

In the figures, the invention is illustrated by way of example and schematically using a laboratory mill. Fi g. I shows an axial longitudinal section of the laboratory mill with a feed device designed as an example i.nd

FIG. 2 shows a cross section along the line AA in FIG. 1.

In the housing 1 of the laboratory mill designed, for example, according to DBP 1218 262, the beater mechanism J is rotatably arranged within the fixed grinding track 2. The chute 6 is attached to the cut inlet shaft 5 cast on the mill door 4 by means of the tabs 7 so that it can pivot about the axis 8. The chute is shown in the two extreme positions of its pivoting range, fully extended in the rest and loading position, in which the chute bottom 9 rests on a stop 10 of the material inlet shaft, and in dashed lines in the - practically hardly used - position with the greatest gradient.

Above: your mill-side outlet 11 is the Chute provided with a cover 12 which is formed as a part of a cylinder jacket, the Axis coincides with the pivot axis 8. Except for a small gap, the cut inlet duct is tight tiic cover brought so that both together Form a closed channel through which the material and air are sucked in from the mill. In order to prevent from Schlagerwerk during the Grinding of grains thrown against the cover 12 in the boundary layer against the direction of flow the air are shot out, the outer edge of the cover is conveniently around <W angled and thus forms the baffle plate 13.

The Luschen 7 are with frictional engagement suitably designed surfaces on the Lunlaufschaeht: u As a result it is possible to hold the chute at any incline. The required contact pressure is through the by means of thread! the fixed axis 8 can be screwed on! Clamping lever 14 applied. One Sensitive adjustment and change of the chute inclination, whereby only one hand has to be used. will achieved in that between tab 7 and clamping lever 14 spring elements to be subjected to pressure, for example some disc springs 15, are arranged will.

Following her mill-side outlet, which is provided with parallel side walls, the school is re widened and provided with a raised edge 16 so that a storage space for the material 17 to be shredded is created.

After switching on the mill, the chute initially resting with its bottom 9 on the stop 10 is slowly pivoted upwards. Even with a slight slope of the chute bottom of /. B. - <> with a slope towards the F.ml.iuischaeht 5 is supported by the air sucked in by the mill, if necessary: by slight unwanted light v ^; '-rations of the rotating parts of the mill, good from the; \ 1material \ orrat 17 m transported the mill. By constantly increasing the chute inclination, it is ensured that new material is constantly available at the suction point. Tests have shown that in this way the mill can be read out uniformly and in reproducible quantities either by an ammeter or by ear with a wide variety of test items.

The chute according to the invention can not only be used for laboratory mills. but also for various others Laboratory equipment, e.g. B. Wind sifter. Typesetting machines etc. be used.

1 sheet of drawings

Claims (3)

'f 22 16 patent claims: 1. Feeding device for automatic uniform Loading of laboratory equipment with bulk material, indicated by a in the Inlet shaft (5) of the laboratory device opening around a horizontal one below its outlet edge located and firmly connected to the laboratory device axis (8) pivotably arranged and in each any position lockable chute (6). 2. Feed device according to claim 1, characterized by one with matching contact surfaces The locking device (7, 14) in frictional engagement on the laboratory device with the required contact pressure generating spring elements (15). 3. Feeding device according to claim 1 or 2, characterized by one with a constant width formed outlet part (U) and a widened and provided with a raised edge (16) Feed part of the chute (6).