NL1006555C2 - Device intended for the inspection, sorting and / or dosing of chaotically ordered objects. - Google Patents

Description

Short designation: Device intended for the inspection, sorting and / or dosing of chaotically ordered objects.

The invention relates to a device intended for inspecting, sorting and / or dosing chaotically ordered objects according to the preamble of claim 1.

Such an installation is known and is marketed, inter alia, by the present applicant. This known device is used in the dosing of predetermined equal amounts of objects which are supplied to the device. The chaotically ordered objects are here supplied via a conveyor belt to a buffer disc with a peripheral wall in which dispensing openings are arranged. The delivery openings open into vibrating troughs arranged in a star. The vibrating troughs vibrate the objects loose from the mass and deliver them to feed troughs, each of which are designed as tubular trunks suspended under the vibrating troughs. The hoses converge at a drain which is located some distance below the buffer disc. The drain pan is also a weighing agent and delivers measured equal amounts of objects to a packaging machine.

A drawback of this known device is that it does not offer the option of automatically inspecting the objects one by one.

The object of the present invention is to provide a device in which these drawbacks are obviated.

According to the invention, this object is achieved by the feature of claim 1. By installing dosing means between the supply buffer and the feed troughs, the advantage is achieved that one preferably positioned object is delivered at a time by a dosing means to an associated feed trough. This makes it possible to inspect positioned objects piece by piece in the gutters. Hereby the approved objects are discharged to the central discharge, and the rejected objects via the separating means to a side discharge. The inspection of each object may, for example, consist of being inspected for shape, dimensions and material properties. The star-shaped construction of the device according to the invention provides the option of inspecting objects one at a time at a central supply and discharge of objects at several places, which makes possible a very high inspection capacity. The star-shaped construction also has the great advantage that the installation space required by the device is limited. The device ensures that all objects that end up in the drain are inspected and found to be in order. The approved objects can then be weighed and packed immediately. Because the supply buffer and the discharge are centralized, the device according to the invention is particularly suitable for being quickly adapted to various ways of supply and removal of the objects.

Preferred embodiments of the invention are defined in claims 2-7.

A preferred embodiment of the invention will be further elucidated with reference to the annexed drawing, in which: fig. 1 is a very schematic cross-sectional view of a device according to the invention; and FIG. 2 is a top view of FIG. 1.

Figures 1 and 2 show a device for inspecting bolts, ie objects with a body and a head. Reference numeral 1 denotes a feed buffer. The supply buffer 1 consists of a beveled round disc 2, which is bounded at the top by a boundary wall 3 provided with passage openings. Eight vibrating chutes 6 are arranged under the peripheral edge of the disc 2. The vibrating chutes 6 are arranged in a star shape and serve to slightly loosen the bolts supplied from the supply buffer 1 and to transport them outside to 1006555-3. A dosing means 10 is placed under the outer end of each vibrating chute 6. Each metering means 10 includes two driven rollers 11, between which there is a gap large enough to allow the body of a bolt to pass through and retain the head of a bolt. Bolts that end up on a set of rollers 11 from a vibrating chute 6 will hang upside down between the rollers 11. Undersized products or contaminants will fall between the slit of the rollers 11 and will be captured in a catch funnel 14 of a discharge channel 15. To ensure that bolts are hung upside down between the rollers 11, a roll may be placed above the rollers. manipulator which manipulates the bolts such that the body enters the gap. The rollers 11 are each cylindrical or, as shown, conical, while the centerline of each roll 11 is slightly angled. By driving the rollers 11, the bolts hanging between them are transported outwards. Below the outer end of each metering means 10 is the beginning of a feed trough 18, in the figure a chute 19. The chutes 19 extend downwards and inwards, and are in particular at such an angle of inclination that the disposed positioned bolts slide down at an adjustable interval. During this slide, the bolts pass inspection equipment 20. Passing the bolts one by one along the inspection equipment 20 is of great importance according to the invention for optimum inspection of the bolts. The inspection equipment may include, for example, means A for inspecting the dimensions, means B for inspecting the screw thread and means C for inspecting the material composition. Downstream of the inspection equipment 20 there is a separating means 22 in the form of a foldable bottom part 23 of the chute 18. If the inspection equipment 20 gives a signal that a bolt has been rejected, the bottom part 23 will be folded down and the rejected bolt ends up in a side drain 1006555 - 4 - 25. Approved bolts end up in a drain 30. The drain 30 in this embodiment is a centrally placed container 31 into which all eight chutes 18 open. The bin 31 has a flip-down bottom 32, which opens only after a measured amount of approved bolts has entered the bin 31. The amount of bolts can be adjusted, for example, because the tray 31 is also made suitable for weighing bolts, or can be done by counting approved bolts passing through the chutes 18. Counting is advantageously possible because one bolt at a time passes a chute 18 at a time.

Thus, it is possible with the device according to the invention to inspect eight bolts at a time when using one central supply buffer 1 and one central discharge 30. Moreover, due to the star-shaped construction of the vibrating chutes 6, the dosing means 10 and the chutes 18, a very compact construction of the device has been obtained. In particular, the inspection equipment 20 is hereby placed in the space between the feed buffer 1, the vibrating chutes 6, the dosing means 10, the feed-through chutes 18 and the discharge 30. As a result, the required space is used optimally and the sensitive inspection equipment 20 moreover arranged in a protected place.

Each assembly of a vibrating trough 6 and an associated dosing means 10 forms a transport means for transporting bolts from the supply buffer 1 to the outside, where the bolts at the end of each dosing means 10 are delivered piece by piece to an associated sliding chute 18. In instead of the eight sets of transport means and chutes shown, any number placed in a star shape is possible. This requires at least three sets, while practice has shown that the maximum number is close to 25 sets.

The dosing means shown with the gap between the driven rollers is particularly suitable for objects with a head and a body, for example bolts. For other types of objects, but also for bolts, it is of course also possible to use other (per se known) dosing means 1006555 - 5 - provided that these dosing means ensure that the objects are delivered one by one to the transit means. leading past the inspection equipment.

In a variant, the dosing means can be placed directly with one end under the feed buffer, leaving the vibrating troughs away. Many commercially available variants are also possible for the separating agents.

Instead of the bolts, a wide variety of objects can be inspected, dosed, counted and / or positioned with the device according to the invention. Examples include nuts, but also medicines or fittings.

Packaging machines can be placed under the central drain, so that the objects are immediately packed in fixed, measured quantities after the inspection. This eliminates the danger of the objects becoming mixed with other objects, for example rejected ones. Because there is only one central discharge, it is very easy to use various customer-specific types and dimensions of packaging materials.

The supply buffer can be loaded by hand, but can for instance also be continuously provided with chaotically ordered objects via a conveyor belt.

The device according to the invention thus provides a very high speed of piece-by-piece inspection of positioned objects on several webs placed in a star shape at the same time, the installation space of the device including the inspection equipment being advantageously small, while the supply and discharge of objects is central.

1006555

Claims (8)

An apparatus intended for inspecting, sorting and / or dosing chaotically ordered objects, comprising: a supply bifurcant (1) for supplying chaotically ordered objects; star-arranged outwardly extending transport means for supplying the objects outwardly from the feed baffle (1); star troughs (18) arranged in a star, extending downwards and inwardly from the ends of the transporting means; a discharge (30) for discharging a certain amount of objects; the feeder (1) being placed substantially in the center of the star and opening into the transporting means, the transporting means opening into the associated feed-through channels (18), and the feed-through channels (18) opening into the discharge (30) is spaced substantially centrally below the feed bifurcant (1), characterized in that each transport means comprises dosing means (10) for delivering one object at a time to an associated feed trough (18); and in that the device further comprises inspection equipment (20) arranged near each feed-through trough (18) for inspecting each piece objects passed through the feed-through trough (18), separating means (22) for separating the inspection equipment ( 23) approved and rejected items, and includes a side outlet (25) for rejected items. 30 Device according to claim 1, characterized in that the inspection equipment (20) is placed in the space which is substantially bounded by the feed buffer (1), the dosing means (10), the feed troughs (18) and the discharge 35 (30). 1006555 -7-. 3. Device as claimed in claim 1 or 2, characterized in that the dosing means are suitable for delivering one object in a positioned manner to an associated feed-through trough, and the feed-through trough is suitable for positioning the object in that position along the inspection equipment. (20). Device as claimed in any of the claims 1-3, intended for use for objects with a body and a head, characterized in that the dosing means (10) comprise two driven rollers (11) between which a gap is present large enough to let the body through and small enough to hold the head. Device according to claim 4, characterized in that the rollers (11) have a conical shape, the largest diameter of the cone being on the outside. Device according to one of the preceding claims, characterized in that the feed-through trough (18) is a chute (19). Device according to claim 6, characterized in that the separating means (22) are formed by a foldable bottom part (23) of the chute (19). 8. Device according to one of the preceding claims, characterized in that the transport means upstream of each dosing means (10) comprise a vibrating chute (6). 1006555