RU2652758C2 - Car wash control system - Google Patents

Abstract

FIELD: vehicles (general issues).

SUBSTANCE: invention relates to systems for maintenance - cleaning and washing vehicles. Car wash control system contains an electronic computer, an input unit, a cash register, a telecommunications equipment for connecting to the Internet, a video camera, a sensor of a car presence in the car wash, a high pressure cleaner starter connected to a high pressure unit, a chemical fluid solenoid valve switch connected to a solenoid valve for supplying the chemical fluid, a chemical fluid flow meter, a vacuum cleaner socket switch connected to a vacuum cleaner, a power supply panel, a socket unit connected to it, a power supply unit connected to the socket unit, a digital video recorder and a starting controller connected to the switches of the vacuum cleaner socket and the chemical fluid solenoid valve. System includes a pressure sensor for the liquid injection of the high pressure unit, a sensor of air temperature in the car wash, a terminal, an input unit and a cash register are part of the terminal, the power supply unit is designed as an uninterruptible power supply unit, the electronic computer and the telecommunication equipment for connecting to the Internet are connected to the power supply unit and are interconnected. Video camera is connected to the digital video recorder, and the starter of the high-pressure unit, the ultrasonic sensor of the car presence in the car wash, the counter of the chemical liquid flow, the starting controller, the temperature sensor for the liquid pumped by the high-pressure unit, the pressure sensor for the liquid injection of the high pressure unit, the digital video recorder and the terminal are connected to the electronic computer, and the starter of the high-pressure unit is connected to the socket unit.

EFFECT: improved control of the car wash with an increased degree of automation is achieved.

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Description

The invention relates to systems for maintenance - cleaning and washing of vehicles, namely to control and automate the processes associated with cleaning and washing of vehicles.

A known analogue is the car wash control system (patent for a utility model of the Russian Federation No. 89041, B60S 3/04, July 6, 2009), containing at least one time board visible from the road from passing vehicles and at least one counter for the number of passing vehicles funds.

The disadvantages of the analogue are a low degree of automation and narrow functionality.

Also known is a car wash control system, certificate for a utility model of the Russian Federation No. 132767, B60S 3/00, 06/20/2013, selected as a prototype, containing automation controls, a set of automation devices, an electricity supply panel and at least one washing box equipment, and automation controls include an outlet block connected to the aforementioned power shield and a video recorder connected to the latter, an electronic computer (computer) with a touch screen monitor and a cash register, a set of automation devices includes an outlet block connected to the said power supply shield and telecommunication equipment connected to the latter for connecting to the Internet and to a personal input unit, a power supply unit, interconnected first and second switches and a start controller connected to a starter of the high pressure washer (AED) and contactors of the outlet of the vacuum cleaner, the electromagnetic valve for supplying chemical liquid and lighting, while the first switch is connected to the mentioned computers, a video recorder, telecommunication m with equipment and a power supply unit, and the boxing equipment includes a video camera and a box controller connected to the second switchboard of the set of automation devices, to which an ultrasonic sensor for the presence of the car in the box and a chemical liquid flow meter connected to the power supply unit of the set of automation devices, as well as means placed in the box lighting, AED, vacuum cleaner, solenoid valve for chemical fluid supply.

The disadvantage of the prototype is the low degree of automation, which the lack of the ability to automatically turn off the equipment when an abnormal mode of operation reduces the reliability of the car wash, the lack of a rigid connection between the duration of the wash and its cost reduces the effectiveness of the commercial use of the car wash and protection from dishonesty of the staff, and the above disadvantages together are the reason for the impossibility use of the system in self-service, which limits the possibilities of application vtomoyki.

An object of the invention is the creation of a car wash control system with a higher degree of automation compared to the prototype.

Solving a technical problem in a car wash control system containing an electronic computer, input unit, cash register, telecommunication equipment for connecting to the Internet, a video camera, a car presence sensor in a car wash, a high pressure washer trigger connected to a high pressure apparatus, an electromagnetic valve switch chemical fluid associated with a solenoid valve for supplying chemical fluid, a counter of the flow of chemical fluid, the switch socket of the vacuum cleaner, connected a vacuum cleaner, an electricity supply panel, an outlet block connected to it, a power supply unit connected to an outlet block, a video recorder and a start controller connected to the switches of the vacuum cleaner outlet and a chemical valve of a chemical liquid are achieved by introducing a pressure sensor for pumping liquid of a high-pressure apparatus, a sensor the temperature of the car wash and the terminal, the input unit and the cash register are part of the terminal, the power supply is designed as an uninterruptible power supply, electronic computers and telecommunication equipment for connecting to the Internet are connected to the power supply and connected, the camcorder is connected to the DVR, and the starter of the high-pressure apparatus, an ultrasonic sensor for the presence of a car in the car wash, a chemical flow meter, a start controller, an air temperature sensor in the car wash the liquid discharge pressure of the high-pressure apparatus, the DVR and the terminal are connected to the electronic computer, and the high-pressure apparatus starter connected to the outlet block.

The car wash control system contains an electronic computer 1, an input unit 2, a cash register 3, telecommunication equipment for connecting to the Internet 4, a video camera 5, a sensor 6 for the presence of a car in the box, a starter 7 for a pressure washer 8 connected to the pressure washer 8 , a switch of a solenoid valve of a chemical liquid 9, connected to a solenoid valve 10 of a chemical liquid supply, a counter 11 of a flow of chemical liquid, a switch socket of a vacuum cleaner 12, connected to a vacuum cleaner 13 power supply 14, an outlet unit 15 connected to it, an outlet unit 15 connected to a power supply 16, a video recorder 17 and a start controller 18 connected to the switches of the outlet of the vacuum cleaner 12 and the chemical valve of the chemical fluid 9, also includes a high pressure pump 19 pressure 8, air temperature sensor 20 in a car wash pumped by high-pressure apparatus 8, terminal 21, input unit 2 and cash register 3 are part of terminal 21, power supply 16 is designed as a trouble-free unit power supply, electronic computing machine 1 and telecommunication equipment for connecting to the Internet 4 are connected to a power supply 16 and interconnected, a camcorder 5 is connected to a DVR 17, and a starter of the high-pressure apparatus 7, a sensor 6 for the presence of a car in a car wash, a chemical consumption counter 11 liquid, start-up controller 18, air temperature sensor 20 in the car wash 8, pressure sensor 19 for pumping liquid of the high-pressure apparatus 8, video recorder 17 and terminal 21 are connected to electronic computers th car 1 and the starter 7 detergent pressure vessel 8 is connected to the power outlets 15.

In FIG. 1 is an electrical functional diagram of a car wash control system.

In FIG. 2 shows a hydraulic functional diagram of a car wash control system.

Consider an example of a specific implementation of a car wash control system.

All equipment of the car wash control system is located in the car wash, which has the main and auxiliary rooms. Electronic computing machine 1, telecommunication equipment 4, power supply 16, video recorder 17 are located in a computer cabinet, which is located in the auxiliary room of the car wash. The outlet block 15 and the power supply shield 14 are mounted on the wall in the auxiliary room of the car wash. The actuator of the high-pressure apparatus 7, the starting controller 18 are placed in a cabinet for electrical equipment, which is located in the auxiliary room of the car wash. The high-pressure apparatus 8, the electromagnetic valve of the chemical fluid 10, the flow meter of the chemical fluid 11, the pressure sensor 19 are located on the rack in the auxiliary room. Terminal 21 with an input unit 2 and a cash register 3, a video camera 5, a sensor 6 for the presence of a car in the car wash, a vacuum cleaner 13, a temperature sensor 20 are located in the main room of the car wash, where the cars are washed.

Electronic computer 1 is made on the basis of a personal computer with an Intel processor, it runs the algorithm of the car wash control program and sends control signals from it to other objects of the system for car wash control. The input unit 2, which is part of terminal 21, is a Master Touch anti-vandal touch screen with a touch panel controller, which also allows you to display information about the remaining time of the washing program. Cash Register 3 is a PayVKP-80K fiscal registrar with a VKP80 II printer, which prints a check after paying for the wash. Telecommunication equipment 4 is represented by a 4G USB modem and a D-Link DSL-2640U / RA / U1 A router. Camcorder 5 is an RVi-IPC4I DNL IP video camera with a heater that serves for video recording of everything that happens in the main car wash room. Sensor 6 - a sensor for determining the presence of an object in the sensitivity zone of VBU-M30-100U-1111-SA, is used to determine the presence of a car in a car wash by the car wash monitoring system. The starter of the high-pressure apparatus 7 is a Shneider Electric Altivar 312 frequency converter, which serves to control the start-up of the high-pressure apparatus 8 using a digital signal from an electronic computer 1 and to ensure the smooth start-up of the high-pressure apparatus 8. A pump is used as the high-pressure apparatus 8 SCP 2150W by CAT. It serves to create the pressure of the water used to wash the car. The high-pressure apparatus 8 is connected by a hose to a water gun, which is used to wash the car in the main room of the car wash. The switch of the electromagnetic valve of the chemical fluid 9 is implemented on the relay of the starting controller 18. The electromagnetic valve of the chemical fluid 10 is the Danfoss valve EVB310B. The chemical flow meter 11 is a Promass-83F Coriolis flowmeter. Vacuum cleaner 13 - single-operator ZU1001 by WashTec, designed for cleaning the vehicle interior. The power supply panel 14 is made in the form of a switchboard. The outlet block 15 is the euro outlet block to which the starter of the high-pressure apparatus 7, the power supply 16, the DVR 17, and the start-up controller 18 are connected to provide power. The uninterruptible power supply 16 is an uninterruptible power supply SKAT-UPS 1000 rated for 700 W . It serves to provide uninterrupted power to the electronic computer 1 and telecommunication equipment 16. The DVR 17 is an IP-DVR RVi-IPN 16/2-PRO. Start controller 18 is part of Omron's solid state relay 051101. The outlet switch of the vacuum cleaner 12 is implemented on a solid-state relay of the start controller 18. As a pressure sensor 19, a pressure measuring transducer SDV with an RS-485 interface by NPK VIL is used. The temperature sensor 20 uses a compact temperature and humidity sensor with an RS485 interface and the Galltec + mela MODBUS RTU protocol. The temperature sensor is designed to take the temperature value in the main room of the car wash to use this value when monitoring the conditions for starting the equipment. Terminal 21 is designed as a self-service banking terminal based on an IFC 617-RF panel computer with a MEI CashFlow bill acceptor and an integrated network card. The equipment of this panel computer includes an input unit 2 and a cash register 3.

The actuator of the high-pressure apparatus 7, the sensor 6 of the presence of the car in the car wash, the counter 11 of the chemical fluid flow, the start controller 18, the temperature sensor 20 of the fluid pumped by the high-pressure apparatus 8, the pressure gauge 19 of the fluid injection of the high-pressure apparatus 8 are connected in series to the electronic computer 1 Using the RS-485 serial communication line of the open Modbus communication protocol, a twisted pair cable. This relationship is shown in the drawing by a solid line. Pluggable objects are connected in series in random order. To connect them to an electronic computer 1, a Bolid USB-RS485 interface converter is used. A twisted-pair connector from the last in the chain of listed series-connected objects is inserted into the interface converter, and a USB connector of the interface converter is inserted into the USB connector of electronic computer 1. Each object in the received network is assigned its own IP address. The DVR 17 and the terminal 21 are connected to the network card of the electronic computer 1 using the Ethernet standard with a twisted pair wire. The start controller 18 and the switches of the socket of the vacuum cleaner 12 and the electromagnetic valve of the chemical liquid 9 are implemented in an Omron solid state relay 051101. Using a relay, the signal from the electronic computer 1, the vacuum cleaner 13 and the solenoid valve of the chemical liquid 10 are switched with the socket unit 15. The actuator of the high-pressure apparatus 7 is connected to the electric motor of the high-pressure apparatus by 8 power wires. The camcorder 5 is connected to the DVR 17 using an IEEE 802.11 standard Wi-fi wireless network.

For washing cars, a stream of water under pressure is used, which is created by the high-pressure apparatus 8. Water for the high-pressure apparatus 8 is supplied from the water supply network 22 through a flexible hose. After the high-pressure apparatus, a water pressure sensor 19 and an ejector 23 are installed in the water line. The ejector 23 is designed to suck in a chemical liquid from a container with chemical liquid 24 and mix it into the water stream, which will be used to wash the car. The ejector 23 is connected by a flexible hose, designed for high pressure, with a water gun 25, which is used to wash the car. The suction of a chemical fluid from a container with a chemical fluid by the ejector 23 is only possible with the solenoid valve of the chemical fluid 11 open.

Consider a car wash control system in operation.

It describes the option of a car wash in self-service mode, when the client washes his car. However, washing operations can also be carried out by car wash personnel, this does not change the general algorithm of the car wash control system.

After the client of the car wash drove into the main room of the car wash or on the washing platform and got out of the car, he needs to choose a washing program using terminal 21 and pay for it. Payment is made in banknotes through the bill acceptor of terminal 21, which immediately after payment prints the check. The owner of the car wash can change the cost of any washing program by entering it through an electronic computer 1 or remotely via the Internet, since the electronic computer 1 is connected to the Internet via telecommunication equipment 4. The program can be selected by clicking on one of the buttons with the name of the washing program on the touch screen of terminal 21. Information about choosing a washing program from terminal 21 is transmitted to an electronic computer 1, starting the execution algorithm of the selected program s.

The algorithm is as follows.

After selecting a washing program, a request is sent to terminal 21 for the customer to make payment for the selected washing program. The touch screen of the terminal displays a message about the need to deposit funds, and the bill acceptor goes into the mode of accepting notes. After confirming the payment of the required amount by pressing the appropriate button on the touch screen of the terminal, a check begins on the prerequisites for starting the car wash - the presence of the car in the car using sensor 6 and finding the readings of the water pressure sensors 19 and the air temperature in the car wash 20 in the range of acceptable values, for example, pressure up to 150 kg / cm ² , temperatures above 5 degrees Celsius. When the launch conditions are met, an electronic signal is received from the electronic computer 1 to start the washing equipment determined by the selected program. For example, it can be a starter of the high-pressure apparatus 7, starting the high-pressure apparatus 8, with which you can make a washing program, which is called "rinsing". Exceeding the fluid pressure may be due to clogging of the washer fluid supply channels or equipment malfunction, and a decrease in temperature can lead to equipment breakdown, therefore these operating modes are excluded by refusing to start when the washing program algorithm is executed. The washing process does not start and a signal is given to the owner of the car wash about the need for repair work. If this event occurs during the washing process, the high-pressure apparatus 8 is turned off to prevent damage to it and other equipment.

The high-pressure apparatus 8 creates a pressure of water, which is sprayed through nozzles. The nozzles are located in the water gun 25, which the client manually directs to the area being washed by the car, washing away the dirt from it. If, for example, it is necessary to carry out a program called the “main wash”, then, together with the launch of the high-pressure apparatus 8, the start-up controller 18 receives a signal for switching the power circuit of the electromagnetic valve of the chemical liquid 10 to open the valve and mix water with chemistry for a more intense effect on the contaminated surface of the car. In addition, at the beginning of the washing program, the algorithm starts the timer for the selected program. For example, for a rinse program, this is five minutes. In the time allotted for the selected program, the client uses his equipment to service his car. After the time has passed, a signal is sent to turn off the equipment. This ensures a tight connection between the duration of the wash and its cost.

The proposed technical solution improves the reliability of the car wash due to the automatic shutdown of the high-pressure apparatus 8 in the event of an emergency mode of operation. The proposed technical solution increases the efficiency of the commercial use of car washes and protects against dishonesty of personnel by providing a tight connection between the duration of the wash and its cost. The proposed technical solution expands the possibilities of using a car wash, since the proposed degree of automation allows the car wash to be operated in self-service mode.

Claims (1)

A car wash control system comprising an electronic computer, an input unit, a cash register, telecommunication equipment for connecting to the Internet, a video camera, a car presence sensor in a car wash, a high pressure washer actuator associated with a high pressure apparatus, a chemical fluid electromagnetic valve switch associated with a solenoid valve for supplying a chemical liquid, a flow meter for a chemical liquid, a switch for a vacuum cleaner socket connected to a vacuum cleaner, an electric panel Automatic connection, the outlet block connected to it, the power supply connected to the outlet block, a DVR and a start controller connected to the switches of the vacuum cleaner outlet and the chemical valve of the chemical liquid, characterized in that a pressure sensor for pumping liquid into the high-pressure apparatus, an air temperature sensor in the car wash, and the terminal, input unit and cash register are part of the terminal, the power supply unit is designed as an uninterruptible power supply unit, an electronic computer and telecommunication equipment The equipment for connecting to the Internet is connected to the power supply and connected, the camcorder is connected to the DVR, and the high-pressure starter, the presence of the car in the car wash, the chemical flow meter, the start controller, the temperature sensor in the car wash, the pressure sensor the high-pressure apparatus, the DVR and the terminal are connected to the electronic computer, and the starter of the high-pressure apparatus is connected to the outlet block.

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