Detecting and counting device for detecting a wholeness and for counting pharmaceutical/parapharmaceutical articles

1. A detecting and counting device for detecting a wholeness of and for counting pharmaceutical/parapharmaceutical articles, the device being usable in automatic machines for packing pharmaceutical/parapharmaceutical articles into containers, the automatic machines having vibrating conveyors (CV) for advancing the articles in line, distanced from one another, and a directing zone (W) for directing the articles towards the containers, for filling the containers, the device (100) comprising:

• a sliding support (1) for sliding the articles, exhibiting an article inlet side (11) and an article outlet side (12), the sliding support (1) being positionable downstream of the vibrating conveyors (CV) and upstream of the article directing zone (W) in such a way that the article inlet side (11) is arranged consecutively to an outlet of the vibrating conveyors (CV), so as to receive therefrom one article after another, the article outlet side (12) facing towards an initial part of the directing zone (W), the sliding support (1) having at least one groove (15) along which the articles slide from the inlet side (11) to the outlet side (12), the at least one groove having a bottom, a first lateral wall (15A) and a second lateral wall (15B) and exhibiting a shape in transversal section that is such that the first lateral wall (15A) and the second lateral wall (15B) converge towards a bottom of the groove (15),a first capacitive sensor (C1) having a first armature (C1A) and a second armature (C1B), the first capacitive sensor (C1) being positioned with respect to the groove (15) in a first position (P1) and orientated in such a way that the first armature (C1A) is arranged parallel to the first lateral wall (15A) of the groove (15) and the second armature (C1B) is arranged parallel to the second lateral wall (15B) of the groove (15),a first electronic circuit (O1) connected to a first reference potential Vref1, the first capacitive sensor (C1) being a detecting component of the first circuit (O1) such that the first armature (C1A) of the first capacitive sensor (C1) is electrically connected to the first reference potential Vref1, the first circuit (O1) emitting a first signal S1(F) in output that is a function of the variation of the capacitive value of the first capacitive sensor (C1) following a transit of an article between the armatures thereof and indicating the shape of the article that has transited,a second capacitive sensor (C2) having a first armature (C2A) and a second armature (C2B), the second capacitive sensor (C2) being positioned with respect to the groove (15) in a second position (P2), located between the first position (P1) of the first capacitive sensor (C1) and the outlet side (12), and orientated in such a way that the first armature (C2A) is arranged parallel to the first lateral wall (15A) of the groove (15) and the second armature (15B) is arranged parallel to the second lateral wall (15B) of the groove (15),a second electronic circuit (O2) connected to a second reference potential Vref2, the second capacitive sensor (C2) being a detecting component of the second circuit (O2) such that the second armature (C2B) of the second capacitive sensor (C2), which is parallel to the second lateral wall (15B) of the groove (15), is electrically connected to the second reference potential Vref2, the second circuit (O2) emitting a second signal S2(F) in output that is a function of the variation of the capacitive value of the second capacitive sensor (C2) following transit of an article between the armatures and indicating the shape of the article that has transited, and,a data processing unit (E), connected to the first circuit (O1) and to the second circuit (O2) for receiving the first signal S1(F) and the second signal S2(F), the data processing unit (E) being configured to process the first signal S1(F) and the second signal S2(F) by singly comparing them to corresponding reference intervals indicative of whole articles, and supplying a datum relative to the wholeness of the article that has transited between the two capacitive sensors only when the first signal S1(F) and the second signal S2(F) both fall within the respective reference ranges.