NL8300271A - METHOD FOR DIVIDING BODIES. - Google Patents

Description

* k -λ * -1- VO 4501

Method of distributing bodies.

The invention relates to a method for dividing a number of bodies of different weight into units of a predetermined weight.

For example, the packaging of foodstuffs means the need to be able to select different weight bodies from a supply such that the extracted bodies form a unit of predetermined weight + an accepted deviation.

A number of more or less automatic methods of body selection systems described above are known. It is usual in this case that the stock is sorted by weight, after which a suitable number of bodies is selected from individual weight groups, such that the bodies together form a unit of the desired weight.

A major drawback of this known method is that a skilled operator is required to legally make combinations of weight groups such that at any time about the same number of bodies are present in the individual weight groups.

The object of the invention is to simplify the distribution or selection of a different weight counter to a unit of a predetermined weight.

According to the invention, this object is achieved by a method as described above, which is characterized by the following phases.

a) dynamic weighing of the individual bodies, b) registering the weight of the body in a control unit, c) transporting the weighed body to a collection station, in which the weight, registered by the control unit, of the bodies which have been collected for this purpose, is less than or equal to the desired predetermined weight of the completed unit minus the weight of that body, d) recirculation of the bodies, which have not yet been placed, e) removing the bodies, when the desired weight has been reached and packaging.

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By thus sorting the bodies according to the recorded weight by means of the dynamic weighting,. In the method according to the invention, the weighted body is brought to a collection station, in which the weight of the bodies collected for this purpose is equal to the weight of the complete unit minus the weight of the weighed body.

Hereby, a faster distribution of the bodies is obtained, since the collection station, which is given a complete unit according to this method, is free to release bodies of an arbitrary weight.

In the method according to the invention, in which the weight of the bodies to be distributed is distributed statistically, preferably statistically and normally distributed, the characteristic feature is that the weighed body is transported to a collection station, in which the weight of. any previously collected bodies plus the weighed body is equal to the desired weight of the complete unit minus a whole number of the average weight of the divided bodies, also zero times the average weight. -----

For placing the so-weighed bodies according to this method, it is achieved that the bodies with a weight corresponding to the average weight or deviating only slightly therefrom can be easily placed. In the case of a normalized distribution, the largest number of bodies having a weight corresponding to the average weight and the efficiency of the distribution will be greatly improved.

According to a preferred embodiment of the invention, a body is transported to a collection station, wherein the weight of the bodies pre-collected plus the weight of the body is within the weight range, which is equal to the desired weight of the complete unit minus a whole number of times (the average weight + the variation in the distribution) of the desired weight of the unit or the variation of the distribution.

35 The number of bodies recirculated will decrease, ____ as the bodies closest to the average weight are 8300271 • w- —........-.......

-3- located and form the bulk of the storage, serve to replenish the units. the formation in the separate collection stations. Conversely, the different weight bodies will be placed first in the unit of a collection station.

In the new method, in which a number of collection stations are used, it is important that in the case of a number of collection stations, the control unit selects the station, after which a body must finally be fed.

Hereby an even distribution of units is obtained in the collection stations, which are ready to be packed, whereby this packaging can take place by different operators.

The invention further relates to a device for use in the new method.

A practical device is characterized in that it comprises a conveyor belt conveyor on which the bodies to be divided are fed separately to a dynamic weighing station, in which it is weighed at great speed, preferably 100-150 bodies per minute, after which a signal is given to a control unit corresponding to the weight, as well as a power supply unit, which carries the bodies from the workstation to a collection station or back to the weighing station, depending on the signals from the control unit.

By using this device, the new method can be realized by using a simple device with parts known per se.

The invention will be discussed with reference to the drawing. In the drawing: figure 1 shows a perspective view of a device according to the invention, and figure 2 shows a. example of a practical distribution, such as can be obtained by using the device according to the invention.

The device according to figure 1 mainly consists of a feed belt conveyor 1, which is designed in such a way that mutually overlapping units are separated and fed separately to a dynamic weighing unit 2, which is located at the discharge end of the feeder. ---- 8300 27 1.

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* -4- belt conveyor 1 is located. The dynamic weighing device is known per se and will not be discussed in further detail.

The dynamic weighing unit 2 supplies electrical signals to a control unit 3, in which the signals are! saved.

From the dynamic weighing unit 2, the weighed bodies are transported to a supply belt 4, from which they are brought to collection stations 5, which are located on the side of the belt, which collection stations in the illustrated embodiment are in the form of discharge divisions, ie trough-shaped cabinets with a bottom which can pivot away. On the side of the supply belt 4, which is situated away from the discharge tables 5, there is a pneumatically operable arm which, depending on a signal from the control unit, moves the displacement path of the bodies on the tape. 4 can block and lead the bodies to the discharge compartment, which is selected by the control unit 15.

In the drawing is. no return belt is shown, but it is clear that by means of a conventional conveyor belt it is possible to effect a return of bodies which are not to the. discharge compartments are moved, so that they can be fed back to the dynamic weighing device via the feeder Bahd-20 conveyor 1. Under the discharge sections 5 there are conveyors which take the units with a certain weight to another station where the packaging takes place.

Figure 2 of the drawing shows a practical application of the device according to the invention 1 schematically.

In diagram 2 the desired weight is in grams of a particular unit to be packed. are plotted on the abscissa, while the number of bodies used for the unit is plotted on the ordinate, determining how many bodies are still missing, 30 before one. unit is ready for packaging (the final state).

The dotted line illustrates a possible development of the total weight in a collection station as a function of the number of units introduced. In the case shown, the first weight unit is about 55 g, the next about 80 g, etc.

The solid lines illustrate the area within which the _____ weight accumulation takes place, in the case of the donation of bodies from 8300271. & -................. = ** φ -5- a stock with a normalized distribution of weight.

In the exemplary embodiment of Figure 2, the weight of a complete unit is about 400 g with an acceptable deviation of about 10 g.

The invention is not limited to the drawn and discussed embodiment and a person skilled in the art can make a large number of modifications within the scope of the invention. For example, it is possible to design the control unit in such a way that the bodies with a weight that has more than a certain deviation from the average weight are automatically sorted out.

In addition, it is possible to use a device according to the invention for a traditional weight grading, since it is possible to adjust the device by a simple change of the control unit.

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Claims (6)

Method for dividing a number of bodies of different weight into units of a predetermined weight, characterized by the following phases: 5 a) dynamic weighing of the individual bodies, b) registration of the weight of the body in a simple steering wheel - unit, c) transport of the weighed body to a collection station, in which the weight, registered by the control unit, of some 10 bodies, which have been pre-collected, is less than or equal to the desired, predetermined weight of the complete unit less the weight of the body, d) recirculation of bodies which are not placed, e) discharge of the bodies when the desired body 15 is reached, and packaging » Method according to claim 1, characterized in that the weighted body is transported to a collection station, wherein the weight of the bodies which have been pre-collected ... is equal to the weight of the complete unit, minus the weight of the 20 weighted body. Method according to claim 1, wherein the weight of the bodies to be distributed is distributed statistically, preferably statistically normalized, characterized in that the weighted body is transported to a collection station, in which the weight of any pre-collected bodies plus the weighted body equals the desired weight of the complete unit less an integer number of times the average weight of the normalized distributed bodies, including zero times the average weight. Method according to claim 3, characterized in that the body is transported to a collection station, wherein the weight of the bodies pre-collected plus the weighed body is in a weight range equal to the desired weight from. the complete unit, minus an integer number of times 35 (the mean weight + the variation in the distribution), or the desired unit weight + the variation in the distribution. 83'0Τ2 ~ 7Ί „2 * · _ -. · ^ -7- A method according to any one of claims 1-4, wherein a certain number of collection stations is used, characterized in that, in the case of a number of possible collection stations, the control unit selects the station to which the body is finally transported. Device to be used with the method according to claims 1 to 5, characterized in that it consists of a feed conveyor belt (1), on which the bodies to be distributed are separately conveyed to a dynamic weighing station ( 2) that. is capable of weighing the bodies at high speed, preferably 100-150 10 bodies per minute, and giving a signal corresponding to the weight and fed to a control unit (3) as well as a power supply unit (4) , which transports the bodies from the weighing station (2) to a certain collection station (5) or back to the weighing station (2), depending on signals from the control unit (3). 15 t ............ 8300 27 1 ----- d