ES1162583U - Dosing device for powder or granule substances (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Metering device (1) for dosing a powdery substance, in granules or in flakes, comprising: - a space (30) for accommodating said substance; - a homogenizing utensil (10) disposed inside the space (30) for accommodating and rotating about an axis (y) to homogenize said substance; - a dispensing utensil (20) rotatable around another axis (X) for channeling dosed quantities of said substance out of the accommodation bay (30); Characterized in that said homogenizing tool (10) and said dosing tool (20) are mechanically coupled to each other and that said dosing apparatus (1) comprises a drive motor (40) in mechanical power connection with said homogenizing tool (10) and said dosing tool (20) by means of a plurality of gears (50), said plurality of gears (50) being interposed between said drive motor (40) and said homogenizing tool (10) and said dosing tool (20). (Machine-translation by Google Translate, not legally binding)

Description

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The first series of gears (50 ’) comprises a pinion (51’) stuck in a shaft, not illustrated, of the drive motor (40). The pinion (51 ’) can have an axis coinciding with the axis of rotation (Z) of the drive motor (40).

The pinion (51 ’) is configured to transmit a mechanical power from the motor (40) to the remaining components of the first series of gears (50’).

In particular, the first series of gears (50 ’) comprises a first group (52’) of sprockets, a second group (53 ’) of sprockets and a third group (54’) of sprockets. The first group (52 ') of sprockets is mechanically coupled to the pinion (51') and the second group (53 ') of sprockets so as to receive a rotational movement from the pinion (51') and transmit the rotary movement to the second group (53 ') of sprockets. The latter, in turn, is mechanically coupled to the third group (54 ’) of sprockets to transmit the rotary movement to the third group (54’) of sprockets.

In Figures 1, 2 and 3 it is possible to see a schematic example of the realization of the first, second and third groups (52 ’, 53’ and 54 ’) respectively and their arrangement on the dosing apparatus (1). Each group (52 ’, 53’, 54 ’) of cogwheels comprises a pair of coaxial cogwheels and fixed with respect to each other. Each group (52 ’, 53’, 54 ’) of gearwheels has a respective axis of rotation defined as axis of rotation" I ", axis of rotation" II "and axis of rotation" III "respectively.

As can be seen in Figure 5, the third group (54 ’) of cogwheels comprises a conical cogwheel (55’) configured to engage with a respective driven conical cogwheel (51 ’). The driven conical cogwheel (51 '') is comprised in the second series of gears (50 '') and is preferably rotatable about the axis (X) of the dosing tool (20), with respect to which the driven conical cogwheel ( 51 '') is fixed.

The third group (54 ’) of sprockets also includes a cylindrical cogwheel (155’) configured to engage with a sprocket of the second group (53 ’) of sprockets. The conical cogwheel (55 ’) and the cylindrical cogwheel (155’) are mounted on a common shaft (100), with respect to which they are fixed.

In one version, the cylindrical cogwheel (155 '), the conical cogwheel (55') and the common shaft (100) are configured as a single component made of polymeric material stamping.

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In particular, the first series of gears (50 ’) of the plurality of gears

(50) comprises at least a first pair of sprockets configured to be replaceable by a respective additional pair of sprockets configured to perform a different transmission ratio with respect to the first pair of sprockets.

As can be seen by way of example in Figures 3 and 4, the pair of sprockets configured to be replaceable by a respective additional pair of sprockets coincides with the second group (53 ') of sprockets of the first series of gears ( fifty').

In one embodiment, the replaceable sprocket pair may be included in the first group (52 ') or in the third group (54'), without implying any restriction of the present invention.

With reference to Figure 4, the second group (53 ') of sprockets is illustrated by way of example, comprising a first sprocket (A) and a second sprocket (B) connected to each other by means of a transmission shaft (R ).

The drive shaft (R) may be provided with a profiled end, which, for example, has a prismatic shape, in particular as a hexagonal base prism, capable of being linked in form coupling in a corresponding hole obtained in the second wheel toothed (B). In this way, the second gear wheel (B), which is made separately from the drive shaft (R), can be mounted on the latter.

Preferably, the transmission shaft (R) has, in correspondence of another extremity opposite to the aforementioned profiled end, the first gear wheel (A), made in one piece with the transmission shaft (R) and of the same material .

The additional pair of sprockets, not shown in the attached figures, which can be used instead of the sprockets of the second group (53 ') to vary the transmission ratio, has similar features to the second group (53') of wheels cogwheels represented, but have a number of teeth of the first cogwheel and the second cogwheel respectively different from that illustrated. This allows the change of the final transmission ratio between the drive motor (40) and the utensils, dispenser (20) and homogenizer (10).

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reduce maintenance operations, avoiding periodic tensioning operations.

The drive motor (40) can be an electric motor controlled by an inverter, which allows varying, within a certain range, the rotation speed of the driving motor (40) and, therefore, the rotation speed of the components that

5 move the engine (40). To this possibility of variation of the rotation speed, the possibility of variation that can be obtained by replacing the pair of sprockets (53 ’) is added. In this way, it is possible to obtain a dosing apparatus (1) operating in a relatively wide rotation speed range.

If plastic gears are used, it is possible to reduce the weight of the dosing apparatus 10 (1) even further, which further facilitates its handling and operation on an eventual balance.

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Claims (1)

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