RU2487971C1 - Device for automatic dispensing of chemical reagents in their application on surface of artificial coating - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: device comprises underframe of special equipment to support: tank with chemicals and system to feed and apply said chemicals onto artificial coating surface. Note here that underframe of special equipment is mounted on base vehicle chassis frame while said tank is connected to said system to feed and apply said chemicals onto artificial coating surface. Additionally, device comprises ACS, adhesion factor definition device and processor. Note here that ACS first output is connected to second input of system to feed and apply said chemicals onto artificial coating surface. Adhesion factor measurement device is connected to processor first input. Processor output is connected to ACS input while ACS second output is connected to processor second input. Note also that adhesion factor measurement device is connected to base vehicle bumper while ACS and processor are arranged in drive cabin.

EFFECT: higher reliability.

3 dwg

Description

The invention relates to a device for applying liquid chemical reagents during the winter maintenance of the carriageway of roads, streets, squares and surfaces of artificial coatings of airfields.

A device for spreading bulk materials is known (the textbook "Road vehicles," auth. N.Ya. Kharhuty, published by the city of Leningrad, 1968, p. 407). The device comprises: a car chassis, a sand bunker with inclined walls and holes at the bottom of the bunker, a reciprocating tray, a rotating disk with ribs. Bulk material through the holes in the hopper enters the swinging tray and the rotating disk. The ribs of the disc allow you to scatter bulk material. The disadvantage of this device is its inefficiency. Bulk material sometimes hangs over the holes in the hopper, the spreading material does not enter the tray, the rotating disk is idle.

Another well-known device is the "Device for spreading anti-icing and other bulk materials" (patent RU 2139970 C1, patent holder - open joint-stock company "Bryansk Arsenal"). The known device for spreading anti-icing bulk materials is installed on a vehicle. The device comprises: a lifting body with a grill mounted on the frame of the base chassis of the vehicle, a storage hopper with a screw and a spreading disc. The storage hopper is equipped with a shutter at the outlet.

A device for spreading anti-icing and other bulk materials works as follows. The device is mounted on a vehicle.

The body through the grill is filled with anti-icing material. Large stony formations are delayed by the lattice. When lifting the body, the anti-icing material enters the storage hopper. The material entering the storage hopper is captured by the screw. The rotating auger directs the anti-icing material from the sides of the storage hopper into the middle, where there is an opening with a shutter. Under the action of its own weight, the anti-ice material falls through the hole onto a rotating spreading ribbed disk. Dosing of material is carried out by changing the number of revolutions of the screw and the spreading disc, as well as by the position of the shutter installed on the outlet of the storage hopper. The dosage of the material is determined visually, which is a disadvantage of this device.

Closest to the claimed invention in technical essence is the "airfield machine for applying liquid deicing materials BUCHER GILETTA CL-10050 ABU", having the maximum number of similar significant features with the features of the claimed device and therefore adopted as a prototype.

The known prototype device (Fig. 1) contains: a subframe for the chassis of special equipment 1, a tank 2, a system 3 for feeding and applying chemical reagents to the surface of the artificial coating, a control panel 4. In this case, a subframe of the chassis of special equipment 1 is placed on the chassis of the base vehicle. Tank 2 is connected to a system 3 for feeding and applying chemical reagents to the surface of the artificial coating. Tank 2 and the chemical supply and application system 3 are mounted on a subframe of the special equipment chassis 1. The control panel 4 is placed in the cab of the base vehicle. The output of the control panel 4 is connected to the second input of the system 3 for supplying and applying chemical reagents to the surface of the artificial coating.

The work of the known prototype device.

Tank 2 is filled with a liquid chemical reagent (solution) using a pipeline. The system 3 for supplying and applying chemical reagents to the surface of the artificial coating is equipped with a pump driven by a hydraulic motor, valves for the dosed distribution of chemical reagents and nozzles for applying the solution to the surface of the artificial coating. The pump provides the flow of chemical agents from the tank 2 through the valves to the nozzles for applying the solution to the surface of the artificial coating. The control panel 4 is equipped with control buttons. The control panel 4 is provided with program control. It is possible to enter into the memory of the control panel 4 three control programs with fixed parameters of dosed solution application. The driver, having visually determined the surface condition of the artificial coating, includes an appropriate program of dosed application of a chemical reagent on the coating surface.

A disadvantage of the known prototype device.

Dosed application of chemical reagents to the surface of the coating is determined visually by the driver of the base car, which is not always justified and leads to a large overrun of chemical reagents.

The aim of the proposed device (figure 2) is to save chemicals by automatically dosing the application of chemicals in accordance with the surface condition of the artificial coating.

The goal in the "Device for automatic dosing of chemical reagents when applying them to the surface of the artificial coating" is achieved there, which, as in the prototype, contains a subframe of the chassis of the special equipment, on which is placed: a tank with a chemical reagent and a system for supplying and applying chemical reagents to the surface artificial cover. In this case, the subframe of the special equipment chassis is mounted on the chassis frame of the base vehicle, and the tank is connected to the system for supplying and applying chemical reagents to the surface of the artificial coating.

Additionally, the device includes: automatic control system, device for determining the coefficient of adhesion, processor. The first output of the automatic control system is connected to the second input of the system for supplying and applying a chemical reagent to the surface of the artificial coating. The device for measuring the coefficient of adhesion is connected to the first input of the processor, the output of which is connected to the input of the automatic control system, and the second output of the automatic control system is connected to the second input of the processor, the device for measuring the coefficient of adhesion is mechanically connected to the bumper of the base vehicle, and the automatic control system and the processor are located in the driver's cab of the base car.

In the known technical solutions, features similar to the distinguishing features of the claimed device are not found, as a result of which it can be considered that the proposed device corresponds to the inventive step.

The use of this device in its implementation allows you to save chemicals when applying them to the surface of the artificial coating. Savings are made by automatically dispensing the application of chemicals in accordance with the surface condition of the artificial turf.

The essence of the proposed "Device for automatic dosing of chemical reagents when applying them to the surface of the artificial coating" is illustrated by drawings, which show:

figure 1 is a structural diagram of a prototype;

figure 2 is a structural diagram of the proposed device;

figure 3 - algorithm for automatic dosing of chemical reagents when applying them to the surface of the artificial coating.

The proposed device for automatic dosing of chemical reagents when applying them to the surface of the artificial coating, as a prototype, contains a subframe of the chassis of the special equipment 1, which houses: a tank 2 with a chemical reagent and a system 3 for feeding and applying chemical reagents to the surface of the artificial coating. In this case, the subframe of the chassis of the special equipment 1 is installed on the chassis frame of the base vehicle, the tank 2 is connected to the system 3 for feeding and applying chemical reagents to the surface of the artificial coating.

The device additionally includes: automatic control system 5, device for determining the coefficient of adhesion 6, processor 7. The first output of the automatic control system 5 is connected to the second input of the system 3 for supplying and applying a chemical reagent to the surface of the artificial coating. The device for measuring the coefficient of adhesion 6 is connected to the first input of the processor 7, the output of which is connected to the input of the automatic control system 5. The second output of the automatic control system 5 is connected to the second input of the processor 7. Moreover, the device for measuring the coefficient of adhesion 6 is mechanically connected to the bumper of the base vehicle, and the system automatic control 5 and the processor 7 are placed in the driver's cab of the base car.

The design of the proposed device.

The subframe of the special equipment chassis 1 is made of stainless steel. On the subframe of the chassis of the special equipment, a tank 2 for chemical reagents and a system 3 for feeding and applying a chemical reagent to the surface of the artificial coating are installed. The subframe of the special equipment chassis 1 is mounted on the chassis frame of the base vehicle (KAMAZ-43253 chassis can be used as the base vehicle). Tank 2 is a modular design of fiberglass blocks, which allows you to maintain rigidity and ensure the elasticity of the structure. The loading of the tank 2 is carried out using a hose. The system 3 for supplying and applying a chemical reagent to the surface of an artificial coating is equipped with a pump driven by a hydraulic motor, valves and nozzles for applying a chemical reagent.

The supply of a chemical reagent to the nozzles is carried out by a pump, and the valves provide a dosed distribution of chemical reagents.

The device for measuring the coefficient of adhesion 6 contains a measuring wheel, brake load, torque sensor, calculator (patent RU 2388865 C1 "Portable device for measuring the coefficient of adhesion of a wheel with artificial turf"). The device for measuring the coefficient of adhesion 6 is attached to the bumper of the base car. While driving, the base car pushes the adhesion coefficient measuring device 6. The measuring wheel rolls along the surface of the coating and is braked by the brake device until the braking moment M becomes equal to the torque Mg of the measuring wheel (M = Mg). When they are equal, the coefficient of adhesion is calculated. measuring wheel with artificial turf surface. Cohesion coefficient determines the surface condition of artificial turf. The calculated value of the coefficient of adhesion enters the processor 7.

Processor 7 (processor - manufactured in the USA, type - dsPIC 30 or dsPIC 33) has programmable program memory, random access memory, analog-to-digital converters, register, real-time timers, built-in interfaces, digital and analog inputs and outputs for input and output of information . The value of the coefficient of adhesion is recorded in the memory of the processor 7. The value of the coefficient of adhesion by the processor 7 is converted into a control signal, which is fed to the automatic control system 5.

The automatic control system 5 has a program for the automatic dosed deposition of chemicals on the surface of the coating. In accordance with the state of the surface of the artificial turf (Kstsp value.) One of the programs (low, medium and high density) is included. From the output of the automatic control system 5, the processor 7 receives information of the dosed application of the solution on the coating surface, which is recorded in the memory of the processor 7.

The work of the proposed device.

With the beginning of the movement of the automatic chemical dosing device, the coefficient of adhesion of the wheel to the surface of the artificial coating is determined. (The work of the proposed device is represented by the algorithm, see figure 3.) Cohesion coefficient (KSCP.) Determines the state of the surface of the coating - the surface is clean, dry, wet, wet, dirty or covered with ice. A chemical reagent is applied to the surface with ice. The dosage density of the deposition of a chemical reagent is determined by the coefficient of adhesion in accordance with the nature of the ice cover on the surface of the artificial coating. In the device for determining the coefficient of adhesion 6 is determined by the numerical value Kspp., Which is supplied to the processor 7. In the processor 7, the coefficient of adhesion is recorded in the memory and the control signal is converted. The control signal enters the automatic control system 5. With the arrival of the control signal, the automatic control system 5 turns on the corresponding program of the dosage density of the deposition of a chemical reagent on the coating surface. In this case, the metered application of a chemical reagent is carried out in accordance with the state of the surface of the artificial coating. The signal of the dosed chemical reagent application program from the output of the automatic control system 5 enters the processor 7, where it is recorded in the memory, and also the compliance of the coefficient of adhesion of the dosed density of the chemical reagents to the coating surface is checked. With a change in the surface condition (CSC), the program for dosed deposition of a chemical reagent on the surface of an airfield or road surface accordingly changes.

The positive effect of the implementation of the proposed device is to save the chemical reagent, since the density of the chemical reagent is determined automatically in accordance with the state of the surface of the artificial coating (numerical value of the coefficient of adhesion).

The implementation of the proposed device allows for work in the dark, since the density of the chemical reagent is determined by the value of the coefficient of adhesion automatically. In known devices, the density of the solution is determined by the driver of the base car - visually, which in the dark is not always justified.

The implementation of the proposed device eliminates excess chemical reagent on the surface of the artificial coating, which eliminates the spray solution and chemical reagent on vehicle parts, causing them to rust and premature wear.

Claims (1)

A device for automatically dispensing chemical reagents when applying them to the surface of an artificial coating containing a subframe of the chassis of the special equipment, on which is placed: a tank with chemical reagents and a system for feeding and applying chemical reagents to the surface of the artificial coating, while the subframe of the chassis of the special equipment is mounted on the chassis frame of the base vehicle, the tank is connected to a system for supplying and applying chemical reagents to the surface of the artificial coating, characterized in that in the device Relatively included: an automatic control system, a device for determining the coefficient of adhesion, a processor, while the first output of the automatic control system is connected to the second input of the supply and deposition of chemicals on the surface of the artificial coating, the device for measuring the coefficient of adhesion is connected to the first input of the processor, the output of which is connected to the input of the automatic control system, and the second output of the automatic control system is connected to the second input of the processor, and The adhesion coefficient measurement device is mechanically connected to the bumper of the base vehicle, and the automatic control system and processor are located in the driver’s cabin of the base vehicle.

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