ITTO20121153A1 - METHOD AND MEASUREMENT DEVICE TO DETERMINE SALINITY ON A ROAD COVER, AND VEHICLE PROVIDED WITH SUCH A MEASURING DEVICE - Google Patents

Description

DESCRIPTION

"METHOD AND MEASURING DEVICE FOR DETERMINING SALINITY ON A ROAD SURFACE, AND VEHICLE FITTED WITH SUCH MEASURING DEVICE"

The present invention relates to a measurement method for determining the salinity on a road surface.

In the winter seasons, as is well known, the roads are crossed by vehicles that spread anti-ice substances. These substances, in most cases, contain salts to lower the freezing temperature of snow or humidity present on the road surface. In the presence of rains, the saline substances then tend to flow towards the sides of the roads, where there may be fields, lands, gardens, etc ... especially in extra-urban areas, so an excessive concentration of salts can alter the balance ecological.

For this reason, and for economic reasons, the need is felt to dose the distribution of saline substances on the road surface so as not to exceed the concentration of salts on the road surface. To obtain a correct dosage during vehicle missions, it is advisable to measure the concentration of salts already present on the roads, to recognize if it is actually necessary to spread additional anti-ice substances.

The purpose of the present invention is to provide a measurement method for determining the salinity on a road surface, which allows the above requirement to be fulfilled in a simple and economical way and, preferably, can be carried out relatively quickly, in a manner that to have a substantially real-time response to road conditions.

According to the present invention, a measurement method is provided for determining the salinity on a road surface, as defined in claim 1.

The present invention also relates to a measuring device for determining the salinity on a road surface according to claim 9, and to a vehicle according to claim 14.

The invention will now be described with reference to the attached drawings, which illustrate a non-limiting example of embodiment, in which:

Figures 1 and 2 are a schematic side view and a schematic plan view of a vehicle provided with a preferred embodiment of a device for carrying out the measurement method according to the present invention;

Figure 3 is a perspective view, on an enlarged scale and with parts removed for clarity, a component of the measuring device of Figure 1; and figure 4 is a cross section along the line IV-IV of figure 3.

In Figures 1 and 2, the reference number 1 indicates a vehicle (schematically illustrated) designed to spread an anti-ice substance on a road surface 2 during a road mission. For this purpose, the vehicle 1 comprises a tank 3 containing the anti-ice substance and a dispensing device 4, which is connected to the tank 3 and is preferably operated manually by a user, by means of a control element 5 arranged in the cabin. 6 of vehicle 1, in order to activate / deactivate the spreading of the anti-ice substance.

The vehicle 1 has, on board, a measuring device 10, which comprises a system 11 for the delivery of water, preferably distilled or demineralized water; a plant 12 for picking up or collecting material (dust, salt, crushed stone, snow, etc.), which is present on the road surface 2; and a container 15 having an internal chamber 16 (fig. 4) which houses a measurement probe 17, in particular a conductivity meter. The probe 17 is supplied in a manner not illustrated with alternating electrical voltage, and provides a measurement signal indicative of the value of the conductance or of the electrical conductivity of a liquid. The conductance or electrical conductivity value, in turn, is indicative of the salt concentration in the liquid.

As shown in figure 4, in the device 10 this liquid is defined by a mixture consisting of water 13, delivered by the system 11, and a sample of material 14, taken by the system 12 from the road surface 2.

Returning to Figure 2, the plant 11 comprises a tank 18, preferably containing demineralized or distilled water; and a pump 19, which sends the water from the tank 18 to the chamber 16 through a pipe 20, connected at one end to a hydraulic connection 21 (fig. 3) carried by the container 15. Preferably, the system 11 comprises at least one valve or tap 22, which is arranged between the pump 19 and the chamber 16 and is controlled to open / close the water flow towards the chamber 16 and possibly to regulate the flow rate of this water flow.

As an alternative to the pump 19, the water could reach the chamber 16 only by gravity, if the head of the tank 18 were sufficient. Furthermore, if the device 10 were installed on a bench or was of the transportable type, the system 11 could be absent and be replaced by the water mains.

Again with reference to Figure 2, the system 12 comprises at least one pickup mouth 23, preferably facing downwards, i.e. towards the road surface 2, and connected via a duct 24 to a mouth 25 (Fig. 1 and 3), which is carried by the container 15 and communicates permanently with the chamber 16. The system 12 also comprises an aspirator, or vacuum generator, for example of the Venturi effect type, indicated by the reference number 28. The aspirator 28 is preferably arranged between the mouths 23 and 25 and is operated in such a way as to generate a vacuum, sufficient to capture the sample of material 14, at the mouth 23. Preferably, the plant 12 has three mouths 23, which are placed side by side and spaced from each other along a direction orthogonal to the longitudinal axis of the vehicle 1, so as to pick up material from the edge of the road and from the center of the road. In this case, preferably, the plant 12 comprises a relative aspirator 28 for each mouth 23.

In combination with or as an alternative to the aspirator 28, the system 12 could comprise one or more brushes arranged in correspondence with the mouth 23 and motorized so as to remove a sample of material 14 from the road surface 2 and send it into the duct 24 and then into the mouth 25.

As shown in Figure 3, the chamber 16 preferably communicates with the external atmosphere through at least one vent mouth 30, to facilitate the flow of the sample of material 14 and of the water 13 into the chamber 16.

In the mixture formed by the material sample 14 and the water 13, any salts of the material sample 14 enter into solution in the water 13. Preferably, the water is introduced into the chamber 16 through a nozzle 33, which is supported by the container 15 inside the chamber 16 and is defined by a shower head, a sprayer or a nebulizer to divide the flow of water coming from the system 11 into a plurality of jets distributed in the chamber 16. This division of the flow causes a mixing effect or stirring between the water 13 and the sample of material 14, previously introduced into the container 15, to accelerate the dilution times. Conveniently, the nozzle 33 can be manually adjusted to calibrate the separation of the water flow and therefore the mixing. In combination with or as an alternative to the nozzle 33, to stir the mixture the device 10 could be provided with a system for blowing air from below into the chamber 16 and / or a motorized system for moving the container 15 around a reference position. compared to a fixed support.

The container 15 also has a mouth 36 made at the lower end of the chamber 16 and sealed by a door 37, which is opened to evacuate the contents of the chamber 16 after measurement. As an alternative to the illustrated example, the door 37 could be replaced by a fixed lower wall provided with a discharge mouth, possibly with a valve, a tap and / or an ejector to activate / deactivate the discharge. The device 10 also comprises an actuator 38 (schematically illustrated in Figure 3), which is controlled to open and close the door 37 remotely.

After the discharge, the chamber 16 is cleaned, by means of a rinse with water coming from the nozzle 33, so as to be able to proceed with a new measurement cycle on a further sample of material. Occasionally, however, it is advisable to clean chamber 16 thoroughly.

Preferably, the container 15 has a transparent lateral porthole 39 for visually checking the filling and emptying of the chamber 16.

With reference to Figure 4, the device 10 also comprises an electronic control unit 40 (schematically illustrated), which:

activates / deactivates the passage of water through connection 21 (for example by controlling pump 19 and / or valve 22),

activates / deactivates the introduction of material through the mouth 25 (for example by controlling the aspirator 28 and / or by controlling a valve not illustrated for the opening / closing of the duct 24), activates / deactivates the discharge through the mouth 36 (e.g. example by controlling the actuator 38),

so as to execute a predetermined cycle in response to a command from the user from the cabin 6.

The cycle comprises a withdrawal phase, with aspiration of the sample of material 14; a filling step, with water in such a quantity as to submerge the sample of material 14 and the probe 17; a measurement phase; an unloading phase; and a rinsing phase. If the rinsing phase is carried out keeping the mouth 36 closed, the cycle continues with a further discharge phase.

The parameters of the cycle, for example the duration of each phase and / or the quantities introduced into the chamber 16, are stored in the unit 40 and are preferably fixed. For example, the withdrawal phase could have a duration equivalent to a given road distance of the vehicle 1, for example equal to 4 meters; the filling phase could have a duration such as to introduce 1.5 liters of water into the chamber 16 (and / or a level sensor could be provided to indicate the reaching of a desired level); the measurement phase could have a duration of 10 seconds starting from the end of the filling phase; the unloading phase could have a duration of 5 seconds (and / or a sensor could be provided to determine the instant in which the chamber 16 is emptied); and the rinsing phase could last for 4 seconds. The overall cycle would have a duration of about 30 seconds, which is an extremely short time.

For the measurement step, the unit 40 comprises a data acquisition block 42, which receives the measurement signal from the probe 17 and optionally filters this measurement signal. The unit 40 then transmits information relating to the salinity detected to a display 41 in the cabin 6. In particular, the unit 40 comprises a comparison block 43, which compares the measured value with a stored threshold value indicative of the salinity maximum permissible on the road surface 2. If the measured value is greater than the threshold value, the unit 40 emits an inhibition signal; if the measured value is less than the threshold value, the unit 40 emits an consent signal. The inhibition and consent signals generate a light or acoustic signal in the cabin 6 so that the user recognizes the conditions of the road surface 2 and, consequently, deactivates or activates the dispensing device 4 by operating the control element 5. Alternatively or in combination with the actuation of the control element 5, the inhibition and consent signals automatically control the deactivation and activation of the dispensing device 4.

Advantageously, the unit 40 could be configured so as to adjust the dispensing device 4 to dose the quantity of anti-ice substance spread on the road surface 2 as a function of the measured value, and not only in an on-off mode.

From the above it is evident that the device 10 allows to determine the salinity on the road surface 2 in order to recognize if it is necessary to spread the anti-ice substance, or if the current salinity on the road surface 2 is already sufficient.

Device 10 is relatively simple and has a relatively low number of components. In particular, it uses water coming from the attachment 21 both to dilute the sample of material 14 and to rinse the chamber 16, and it uses the same water to obtain a mixing effect with the sample of material 14. Furthermore, the unit 40 determines the conditions of the road surface 2 in a relatively rapid manner, so that the device 10 can be advantageously installed on the vehicle 1 and used during travel and the removal of the de-icing substance. In particular, it is possible to automate the operations for verifying the salinity and for activating the dispensing device 4 so that the user does not have to carry out manual commands, but only check the correct execution of the various phases.

Finally, from the foregoing it is evident that modifications and variations may be made to the device 10 and to the method described with reference to the attached figures which do not go beyond the scope of the present invention, as defined in the attached claims.

In particular, the container 15 could have a different shape from that shown by way of example.

Claims (1)

CLAIMS 1.- Measurement method to determine the salinity on a road surface (2), the method being characterized by the fact that it includes the phases of: taking a sample of material (14) from the road surface (2); introducing the sample of material (14) and a given quantity of water (13) into a container (15), so as to form a mixture; determining the conductance or electrical conductivity value of said mixture by means of a probe (17); discharging said mixture from said container (15) after the measurement; clean said container (15) after discharging the mixture. 2.- Method according to Claim 1, characterized in that said mixture is mixed before the measurement step. 3. A method according to Claim 2, characterized in that the mixing is carried out by means of water introduced into said container (15) in the form of sprays, shower, or nebulization, after having already introduced the said material sample (14). 4. A method according to any of the preceding claims, characterized in that said sample of material (14) is taken by aspiration. 5. A method according to any of the preceding claims, characterized in that the cleaning is carried out by rinsing said container (15) with water. 6. A method according to any one of the preceding claims, characterized in that the discharge is carried out by allowing the contents of the container (15) to flow through a discharge mouth (36) by pravity. 7. A method according to any one of the preceding claims, characterized by carrying out said steps on board a vehicle (1), and taking said material sample (14) during the advancement of said vehicle (1). 8.- Method according to any one of the preceding claims, characterized in that it also comprises the steps of: compare the measured value with a threshold value; and decide whether to spread an anti-icing substance on the road surface (2) according to the comparison made. 9.- Measuring device (10) for determining the salinity on a road surface (2) according to the method of any one of the preceding claims, the measuring device being characterized in that it comprises: sampling means (12) for taking a sample of material (14) from said road surface (2); a container (15) carrying: a) an inlet (25 for receiving said material sample (14); b) a hydraulic connection (21) connectable to a source of water; c) a discharge mouth (36); a probe (17), for measuring conductance or electrical conductivity, arranged in said container (15). 10. A device according to Claim 9, characterized in that it comprises a nozzle (33) communicating with said hydraulic connection (21), arranged in said container (15) and defined by a shower head, a sprayer or a nebulizer. 11. A device according to Claim 9 or 10, characterized in that said withdrawal means (12) comprise an aspirator (28). 12. A device according to any of claims 9 to 11, characterized in that said discharge mouth (36) is made in correspondence with a lower end wall of said container (15). 13.- Device according to any of claims 9 to 12, characterized in that it comprises: first activation means (19,22) controlled to activate / deactivate the introduction of water through said hydraulic connection (21); second activation means (28) controlled to activate / deactivate material through said inlet (25); third activation means (38) controlled to activate / deactivate the discharge through said discharge mouth (36); an electronic control unit (40) configured so as to automatically control said first, second and third activation means according to a memorized cycle. 14. A vehicle comprising a measuring device (10) made according to any one of claims 9 to 13; said water source comprising a water reservoir (18). 15.- Vehicle according to claim 14, characterized in that it further comprises: a further reservoir (3) for containing an anti-ice substance; dispensing means (4) for spreading said anti-ice substance on the road surface (2); comparator means (43) configured so as to compare the value measured by said measuring device (10) with a threshold value and so as to provide a consent and / or inhibit signal based on the result of the comparison.