FR2980883A1 - Method for optimizing collection of columns of voluntary contribution by sector analysis in park, involves analyzing, using probes, successive slices in columns during period of time of one year - Google Patents

Abstract

The method involves analyzing, using probes, successive slices in columns (2) during a period of time of one year such that information concerning speeds of levels of filling of the columns is transmitted by the probes to a CPU, where the CPU stores the speeds of the levels of filling and corresponding dates. Columns (4) for which speeds of filling are stable and columns (3) for which speeds of filling are uncontrolled are determined. The columns having stable filling is dismounted, and the probes are used to analyze only the columns having uncontrolled filling speed.

Description

The present invention relates to a method for optimizing the collection of voluntary contribution columns by sectoral analyzes of the parks. Currently the optimization of the collection of voluntary columns is made by filling rate monitoring probes installed permanently inside the columns which send, via a radio system or via a telephone operator, the filling rates. each column to trigger collection rounds as soon as they are full. The expensive cost of these installations as well as that of the data transmissions are hardly compatible with the optimization gain achieved.

The process according to the invention makes it possible to substantially improve the economy / investment ratio. This method of optimizing the collection of voluntary contribution columns is carried out by sectoral analyzes of the park which can vary from one to several tranches of a duration of one year according to specific criteria such as budget spreading costs. over several years, example of four-year analyzes of four tranches or the need for immediate profitability of the collection with the complete park analyzed over one year. The accompanying drawings illustrate the invention. FIG. 1 represents a voluntary intake column of the fleet not equipped with a filling rate control probe. FIG. 2 represents a voluntary intake column during analysis equipped with its probe. FIG. 3 represents a voluntary feed column with an anarchic filling equipped with its probe. FIG. 4 represents a stable filled voluntary delivery column whose probe has been removed after its analysis. FIG. 5 shows the measurement of the filling rate by the probe, the transmission of the data of the voluntary delivery column to the central information processing unit of the website and the return of these to the terminal of the collector. . Figure 6 shows the equipment description of the first tranche of an example of a 300-column fleet for sectoral analyzes for four times a year. Figure 7 represents the description of the equipment of this park for the sector analysis of the second tranche. Figure 8 shows the description of the equipment in this fleet for the sectoral analysis of the third tranche. Figure 9 represents the description of the equipment in this fleet for the sectoral analysis of the fourth tranche. Figure 10 represents the description of the equipment of this park at the end of the analyzes. With reference to these drawings, the method comprises a central unit (6) which receives the information of the filling rates of the probes (8) placed inside the columns (2).

The terminal (7) allows the collector to receive the information from the central unit (6) necessary for triggering the collection. The optimization method by the sector analysis method consists of an example of a fleet of 300 volunteer columns, to equip the first 25% of the park columns (1) of probes (8). The probes (8) of these equipped columns (2) will make daily measurements of the filling rates to allow the collectors to have every day on his terminal (7) the state of the refills of this part of the park to organize collection of full columns.

During this first analysis period of one year, in addition to the transmission of the data of filling for the collection, the central unit (6) will keep in memory the daily values of the filling rates of the columns (2) as well as the dates at which they reach a value called "trigger threshold" of the collection (Example: 80%).

At the end of this first year, there will be two families of columns: - Columns (4) whose filling speeds are stable. Columns (3) whose filling speeds are anarchic. In agreement with the collector, the probes (8) of the columns (4) with stable filling speeds are then dismounted to leave in activity only the probes (8) in the columns (3) whose filling speeds have been proved anarchic. The probes (8), supplemented by additional probes to obtain a new slice to analyze 25% of the park, are then mounted on the columns (2) for a new analysis of 12 months, in our example, identical to the first 25 slice. During this second period, the information transmitted to the collector by the central unit (6) are then from three different sources, namely: - The information of the second slice of the probes (8) installed on the columns (2). The information of the probes (8) left in columns (3) with anarchic filling speeds of the analysis of the first slice. The information of the probes (8) of columns (4) with stable filling speeds of the first slice. As regards the second source, the information transmitted by the central unit 35 (6) will make it possible to avoid the overflows of the columns (3) with anarchic filling speeds. Regarding the third source, the information will emanate from the values stored during the analysis of the first slice. The central unit (6) will therefore transmit daily to the terminal (7) of the 40 collector the list of columns (4) whose filling rates will arrive at the so-called "trigger threshold" value of the collection. This transmission of information will be anticipated according to the planning times of the collection rounds.

As previously on the first slice, in addition to the transmission of the filling data for the collection, the central unit (6) will keep in memory the daily values of the fill rates of the columns (2) as well as the dates on which they reach the "trigger threshold" value of the collection. The process is repeated for the analysis, under the same conditions, of the third slice, which in this case reveals additional columns (3) with anarchic fills. The last analysis slice leads to the final result which shows 10 columns (3) whose probes (8) were maintained to avoid overflows and thus escape penalties. The collection for the coming years will then be organized according to the daily information of the filling rate of the columns (3) and the dates of the so-called "trigger threshold" values of the collection for the columns 15 (4). according to the invention, is particularly intended for communities in charge of collection and private collectors columns voluntarily.

Claims (5)

CLAIMS1) A method for optimizing the collection of voluntary input columns by sectoral analyzes of the parks, characterized in that they are carried out using probes (8) installed in one or more successive slices in the columns (2 ) during one or more analysis periods of one year, in that the information concerning the filling rate speeds of the columns (2) transmitted by the probes (8) to the central unit (6) are stored daily ; in that the central unit (6) will also memorize the dates at which the fill rates of the columns 2 will reach the so-called trigger threshold value of the collection and the central unit (6) will highlight two column families: The columns (4) whose filling speeds are stable and the columns (3) whose filling speeds are anarchic, in that the probes (8) of the columns (4) with stable filling speeds are then disassembled to leave active only the probes (8) in the columns (3) whose filling speeds have proven to be anarchic. 2) Method according to claim 1, characterized in that the probes (8) disassembled and supplemented by other probes (8) additional are mounted on the second slice to obtain, in our example, 25% of the fleet equipped for a new twelve-month analysis; 3) Process according to claims 1 and 2, characterized in that the collection is managed thanks to the information transmitted from three different sources: - the information of the second slice of the probes 8 installed on the columns (2) in analysis, the information of the probes (8) left in the columns (3) with anarchic filling speeds of the analysis of the first slice, - the stored information of the probes (8) of the columns (4) with stable filling speeds of the first installment, 4) Process according to claims 1 and 3, characterized in that the central unit (6) will transmit daily to the terminal (7) of a collectorla list of columns (4) whose filling rates will reach the value called threshold for triggering the collection, knowing that this data transmission will be anticipated according to the planning times of the collection rounds. 5) Process according to any one of the preceding claims, characterized in that the process is repeated, in our example, for the four 25% slices of the park to be analyzed, in order to obtain a result on the 300-column park ( 1) columns (3) anarchic fills whose probes (8) will remain at home.