Refined distributor unit

Abstract

Refinements made to distributor units which serve to continuously transfer and position tablets or pills in organized alveoli in an advancing strip, the advancing strip presenting its alveoli on each occasion in correspondence with holes positioned radially in a distributor disk. The distributor disk having holes is associated with a motor which supplies a rotation motion by an intermediate connector. The intermediate connector is connected stably to the distributor disk and detachably, by an intermediate member, to the motor which supplies the rotation motion.

Claims

1. A refined distributor unit which serves to continuously transfer and position tablets or pills in organized alveoli in an advancing strip, said distributor unit comprising: said advancing strip presenting the alveoli in correspondence with organized holes positioned radially in a rotatable distributor disk to temporarily house said tablets or pills, said advancing strip being arranged below the distributor disk and advancing along an advancement direction; said distributor disk having setting holes, wherein said distributor disk is associated with a motor which supplies a rotation motion to rotate the distributor disk at a speed coordinated with the advancing of the advancing strip to transfer the tablets or pills from the organized holes of the distributor disk to the alveoli of the strip; the motor being connected to the distributor disk by an intermediate connector, said intermediate connector being stably connected to the distributor disk and detachably connected, by an intermediate member, to the motor which supplies the rotation motion; and an assembly to provide the stable connection between the distributor disk and the intermediate connector by (i) a female seating configured to receive an axial central ridge of the distributor disk for centering the intermediate connector, (ii) a supporting or leveling member, and (iii) a circumferential positioner, wherein the distributor disk is provided with the axial central ridge able to engage the female seating, and the stable connection between the distributor disk and the intermediate connector is facilitated by the circumferential positioner having positioning pins on the distributor disk and the intermediate connector and by the supporting or leveling member between the positioning pins.

2. The refined distributor unit of claim 1, comprising a reference member having at least three reference points that is capable of coaxially aligning the intermediate connector and the motor which supplies the rotation motion.

3. The refined distributor unit of claim 2, wherein the reference member having at least three reference points is a T-shaped centering and positioning member.

4. The refined distributor unit of claim 1, wherein the assembly is an axial positioning assembly to stably connect the distributor disk and the intermediate connector.

5. The refined distributor unit of claim 1, wherein the circumferential positioner is in contact with a T-shaped male-female positioner.

6. A refined distributor unit comprising: an advancing strip presenting alveoli in correspondence with organized holes positioned radially in a rotatable distributor disk to temporarily house tablets or pills, said advancing strip being arranged below the distributor disk and advancing along an advancement direction, said distributor disk having setting holes, wherein said distributor disk is associated with a motor which supplies a rotation motion to rotate the distributor disk at a speed coordinated with the advancing of the advancing strip along the advancing direction to transfer the tablets or pills from the organized holes of the distributor disk to the alveoli of the strip; the motor being connected to the distributor disk by an intermediate connector, the intermediate connector being stably connected to the distributor disk and detachably to the motor which supplies the rotation motion, wherein the intermediate connector includes a male-female centering member; and an assembly to provide the stable connection between the distributor disk and the intermediate connector having at least a female seating configured to receive an axial central ridge of the distributor disk for centering the intermediate connector, a supporting or leveling member, and a circumferential positioner, wherein the distributor disk is provided with the axial central ridge able to engage the female seating, and the stable connection between the distributor disk and the intermediate connector is facilitated by the circumferential positioner having positioning pins on the distributor disk and the intermediate connector and by the supporting or leveling member between the positioning pins.

7. The refined distributor unit of claim 6, comprising: an axial positioning assembly.

8. The refined distributor unit of claim 6, comprising: a reference member having at least three reference points that is capable of coaxially aligning the intermediate connector and the motor which supplies the rotation motion.

9. The refined distributor unit of claim 8, wherein the reference member having at least three reference points is a T-shaped centering and positioning object.

10. The refined distributor unit of claim 8, wherein the reference member having at least three reference points comprises at least one of two pins and two holes.

11. The refined distributor unit of claim 8, wherein the reference member having at least three reference points includes at least a calibrated key.

12. The refined distributor unit of claim 6, comprises a supporting surface to cooperate with an axis of rotation.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) These and other characteristics of the present invention will now be described in detail, with reference to a particular form of embodiment, given as an example, with the help of the attached drawings wherein:

(2) FIG. 1 shows a compact distributor unit of the known type;

(3) FIG. 2 shows schematically, according to a vertical section, part of the kinematic chain which supplies the motion to the distributor disk;

(4) FIGS. 3a, 3b, 3c show three different types of reference means;

(5) FIG. 4a shows a possible intermediate mean;

(6) FIG. 4b a bottom plan view of the intermediate can of FIG. 4c;

(7) FIG. 4c is a section of the intermediate mean of FIGS. 4a and 4b;

(8) FIG. 5 shows a possible distributor disk.

DETAILED DESCRIPTION OF A PREFERENTIAL FORM OF EMBODIMENT

(9) With reference to FIG. 1, a compact distributor unit 10 is shown comprising a distributor disk 23, for example of the type shown and described in WO-A1-2009/115445.

(10) In the following description the case of a compact distributor unit is shown, but what follows can also be referred to distributor units of the normal type.

(11) The distributor disk 23 cooperates with a strip 21, which has a plurality of alveoli 22 which, after the strip 21 has passed beyond the distributor disk 23, according to the arrow A, are full with tablets 22p.

(12) As it is possible to see from FIG. 1, the unit 10 is extremely compact, so that the spaces are reduced and the travel of the tablets is minimized, so as to cause as little wear as possible to the tablets. The substitution of the distributor disk 23 is facilitated by suitable temporary positioning means P.

(13) FIG. 2 shows schematically, and in vertical section, a strip guide 20, on which the strip 21 is caused to slide in a known manner, according to arrow A. The distributor disk 23 has holes 24, organized in rows, for the temporary housing of the tablets, and rotates in a coordinated manner with the advancement of the strip 21, so that the radial seatings of holes 24 and the alveoli 22 periodically find themselves in desired reciprocal positions. In this way, the tablets can be positioned in the alveoli 22 which, downstream of the distributor disk 23, are filled with the tablets 22p.

(14) Depending on the size and sequence of the alveoli 22, the distributor disk 23 rotates at a lesser or greater speed.

(15) The distributor disk 23 has zero setting means 41, in this case holes, positioned circumferentially (see FIG. 5), so as to detect the position of the distributor disk 23 and for coordination in time and position and zero setting. The zero setting means 41 can, however, be of any type.

(16) The distributor disk 23 is made solid with intermediate connector 25 using normal screws (not shown), which cooperate with holes 44. The intermediate connector 25 serve to removably connect the distributor disk 23 to the means which supply the rotator motion thereto, indicated in general by the number 30 in FIG. 2, and described in greater detail hereafter.

(17) Although on the one hand they make the distributor disk 23 solid to the intermediate connector 25, the normal screws on the other hand do not guarantee the correct and constant reciprocal positioning.

(18) It should be noted that generally, even if not necessarily, the distributor disk 23 does not have a great thickness, which can even be in the range of millimeters.

(19) In order to guarantee a correct ratio of the distributor disk 23/strip 21, planar supporting or leveling means 26, 126 are provided, with a supporting surface, which guarantee that the lying and rotation plane of the distributor disk 23 is parallel to the plane on which the strip 21 slides, and therefore parallel to the strip 21.

(20) For the correct centering, reference means are provided in some embodiments to guarantee the reciprocal coaxiality between the intermediate connector 25 and the means which supply the rotation motion 30.

(21) In particular, in the embodiment of FIG. 2 the reference means comprise two different centering means 27.

(22) In FIGS. 4a, 4b, 4c there is a further variant, in which the reference means comprise centering and positioning means 134. In this case, the centering and positioning means 134 incorporate the centering means 27, circumferential positioner 28 and also axial positioning assembly 43.

(23) A first type of centering means, denoted with numeral reference 27 in FIG. 2, consists of a male/female coupling (which can be with the male part on the intermediate connector 25 or on the distributor disk 23) of between the intermediate connector 25 and the distributor disk 23, in this case defined by the external edge 125 of the connection means which acts as female seating for an axial central ridge 123 of the distributor disk 23.

(24) The centering means guarantee coaxiality, but do not guarantee the correct and constant reciprocal positioning, in particular the correct angular positioning, of between the distributor disk 23 and the intermediate connector 25, which correct and constant positioning is necessary for each coordination in time and position or zero setting.

(25) In order to guarantee said constant reciprocal positioning it is possible to provide one or more circumferential positioner 28, in this case of the precision key type, between the distributor disk 23 and the intermediate connector 25. According to a variant, the circumferential positioner 28 are of the pin type, for example a pin de-centered with respect to the axis of rotation 29.

(26) In the case of pin-type circumferential positioner 28, according to a variant, advantageously but not necessarily, there will be at least two and located as far as possible from the axis of rotation 29, in order to guarantee the best precision possible, According to a variant, the pins can be also substitutions for the centering means 27, and there may be only one, de-centered.

(27) According to a further variant, there may be only one key, in the case of cooperation with the centering means 27 of the male/female type.

(28) For the connection/disconnection of the intermediate connector 25 and the means which supply motion 30, in order to substitute the distributor disk 23, the coupling is provided by means of reciprocal support surfaces 31 which extend orthogonal to the distributor disk 23.

(29) The orthogonal position between support surfaces 31 and distributor disk 23 facilitates the operations of maintenance and disassembly.

(30) However, other positions can also be assumed, such as angled, stepped, etc.

(31) Advantageously, as in the case shown, the support surfaces 31 contain the axis of rotation 29. The support surfaces 31 themselves do not guarantee either the correct lateral position or the angular position with respect to the support plane, or the correct coaxiality or the correct vertical position.

(32) In order to guarantee this, in some forms of embodiments specific reference means 34, 134 are provided, of which FIGS. 3a, 3b, 3c and 4a, 4b and 4c show some examples of embodiments in order to clarify the spirit of the invention.

(33) The distance between the reference means 34, 134 and the planar supporting or leveling means 26 (in this case) constitute the axial positioning assembly 43.

(34) In FIG. 3a the reference means 34 have three pins 35, respectively 35a, 35b and 35c, located in a triangle with respect to each other, which guarantee the lateral positioning, coaxiality and vertical positioning, and prevent swiveling positions.

(35) In FIG. 3b, instead of the pins 35a and 35b, the reference means 34 are provided with a calibrated key 36, while in FIG. 3c instead of the calibrated key 36 and the pin 35c, the reference means are configured as centering and positioning means 34 that are provided in the shape of a T, defined by an elongated element 37 and by an intermediate orthogonal element defining the male element 137 (see also FIG. 4a).

(36) The T shape of the centering and positioning means 34 guarantees coupling precision in a vertical direction, a lateral direction and also an angular direction.

(37) This solution therefore allows to eliminate other positioning means in that in itself it guarantees precision on two axes and in angular terms.

(38) This solution is therefore particularly advantageous in order to correctly position the distributor disk 23 with respect to the intermediate connection element 25 without having to provide the means 26, 28 or the external edge 125.

(39) The afore-mentioned centering and positioning means 134, as can be best seen in FIG. 4b, can be configured with a T shape as said reference means 34 with T shape of FIGS. 3c and 4a.

(40) This also simplifies the workings in that the centering and positioning means 34 and the centering and positioning means 134 can be equal or similar.

(41) In the distributor disk 23, the female seating of the centering and positioning means 34 can be blind or through.

(42) If it is through, the seating can cooperate with a shim portion where there is a tablet at the base having a low friction coefficient which serves to support, at least partly, the vertical weight.

(43) Instead of the shim portion, in a male element 137 in the intermediate connector 25 a hole 132 can be provided, in which to place a tablet having a low friction coefficient which serves to at least partly support the weight.

(44) In the case shown, movable attachment means 32 are provided to connect the intermediate connector 25 and an intermediate member 38, the screwing seating of which is in axis with a pin 35c, or with a lower extension defining the male element 137 of the T-shaped centering and positioning means 34. The movable attachment means 32 are accessible by means of a removable cover 45, which hides the movable attachment means 32 from sight during the normal functioning of the distributor unit.

(45) According to a variant, in order to facilitate the assembly operations, the means which supply the motion 30 have an intermediate member 38 which connects stably (but in a removable manner) to the motor mean 39. The motor mean 39 can be a motor reducer, or a motor coupled to a reducer.

(46) Between the intermediate member 38 and the motor mean 39, second centering means 40 are provided, for example of the male-female type, similar to the first centering means 27 between distributor disc 23 and intermediate connector 25. The second centering means 40 have, in this case, respective angular positioning means 128 and correct vertical positioning means,

(47) As far as regards the second centering means 40, what has already been said for the first centering means 27 applies.

(48) In order to guarantee the coaxiality between motor mean 39 and intermediate member 38, second planar supporting or leveling means can be provided.

(49) Modifications or variants may be made to the present invention, all of which shall come within the field of protection as defined by the following claims.