CN116279316A - Intelligent environment detection and adjustment method and system for self-service car washer - Google Patents

Abstract

The application relates to an intelligent environment detection and adjustment method and system of a self-service car washer, comprising the following steps: when receiving a low water quantity sensing signal sent by a water quantity detection terminal, terminating the water supplementing state of a water storage tank terminal of the self-service car washer which does not run in a preset group; acquiring the working states of all self-service car washes in a preset group and the water quantity state in a water storage tank of the self-service car washes; and sending a switching instruction to the first car washer, so that the first car washer receiving the switching instruction is switched to the water storage tank terminal to supply water to the first car washer. When detecting that self-service car washer water supply branch pipe water yield reduces, the auxiliary pipe is opened to the outlet pipe water delivery to intelligent control, or the moisturizing pipe is opened in the control in order to be with this self-service car washer water storage tank water delivery, makes the consumer can continue normal use self-service car washer under the unusual environment condition that water supply system water yield is unstable, reduces, has the effect of protecting consumer's consumption experience.

Description

Intelligent environment detection and adjustment method and system for self-service car washer

Technical Field

The application relates to the technical field of intelligent analysis, in particular to an intelligent environment detection and adjustment method and system of a self-service car washer.

Background

Currently, self-service car washes are spread over sites such as various large gas stations, service areas, parking lots, towns, villages, communities and the like, which means that the self-service car washes are commonly used in domestic markets.

However, since the self-service car washer is arranged in a public area, the manager of the operator is usually informed of the presence of the car washer for maintenance only when the fault of the car body is detected. And to the factor influence of external environment, for example the unstable, the condition of reduction of water supply system water yield, not only the operator is difficult to in time handle, and self-service car washer also lacks an intelligent detection and governing system, and the unstable consumption experience that will destroy the consumer of output water yield is unfavorable for the long-term development of trade.

Disclosure of Invention

In order to cope with the unstable and reduced water supply amount of the water supply system, a consumer can normally use the self-service car washer, and the consumption experience of the consumer is protected.

The first object of the present invention is achieved by the following technical solutions:

an intelligent environment detection and adjustment method of a self-service car washer comprises the following steps:

When receiving a low water quantity sensing signal sent by a water quantity detection terminal, identifying identity information of the self-service car washer which is bound in advance by the water quantity detection terminal;

based on the identity information, terminating the water supplementing state of the water storage tank terminals of the self-service car washes which are not operated in the preset groups, wherein each self-service car wash is provided with one water storage tank terminal;

if the low water quantity sensing signal sent by the water quantity detection terminal is still received at the moment, the working states of all the self-service car washes in the preset group and the water quantity state in the water storage tank of the self-service car washes are obtained, wherein the working states comprise an operating state and an unoperated state;

the self-service car washer which is in an operation state in a preset group and is provided with the water tank terminal is set as a first car washer, a switching instruction is sent to the first car washer, the water tank terminal of the first car washer which receives the switching instruction is enabled to close an original water supply branch pipe, and the water tank terminal is switched to be provided with the water tank terminal to supply water to the first car washer.

Through adopting above-mentioned technical scheme, when receiving low water yield response signal, make and predetermine the self-service car washer of the interior water yield of group and stop the supplementary action of all being supplementary water yield, if still receive low water yield response signal, obtain the operating condition of all self-service car washers in the predetermineeing the group and self-service car washer water storage tank in the water yield state, set up the self-service car washer that is in the operating condition and water level is higher than the default as first car washer, send the switching command to first car washer, make the water storage tank terminal of the first car washer that receives the switching command close its corresponding water supply branch pipe, stop the outside water supply of this car washer promptly, and open its water storage tank and be used for the accessory pipe of intercommunication outlet pipe in order to carry water to the outlet pipe, make its water storage tank provide the output water, thereby reduce the input water yield of occupation, not only make self-service car washer that self output water yield is stable, can also make outside water supply divide to other water storage tank water levels to be less than default in the water storage tank rationally. This application is when detecting running state and its water tank interior water quantity of water high self-service car washer water supply branch pipe water unstable, reducing, and this water supply branch pipe of intelligent closure stops supplying water, makes this self-service car washer's water tank open the auxiliary pipe draw water and input in the outlet pipe of self-service car washer squirt, has the effect that makes the consumer can normally use self-service car washer under the unusual environment condition that water supply system water yield is unstable, reduces, the consumer's of protection consumption experience.

The present application may be further configured in a preferred example to: the self-service car washer which is in an operation state in a preset group and is provided with a water tank terminal is set as a first car washer, a switching instruction is sent to the first car washer, the water tank terminal of the first car washer which receives the switching instruction is closed to an original water supply branch pipe, and after the step of switching to the water tank terminal which is provided with the water tank terminal to supply water to the first car washer, the following steps are executed:

the method comprises the steps of receiving an input water quantity value currently acquired by a water quantity detection terminal, analyzing and calculating the number of self-service car washes which meet the normal use based on the input water quantity value, and setting the number as the number of the car washes capable of running;

setting the self-service car washer which is in an operation state in a preset group and is provided with a water tank terminal with a water level lower than a preset value as a second car washer;

and setting the number of the second car washes as the number of the second car washes, and when the number of the operable car washes is smaller than the number of the second car washes, sending a switching instruction to the second car washes, so that the water storage tank terminal of the second car washes receiving the switching instruction closes an original water supply branch pipe and is switched to the water storage tank terminal to supply water to the second car washes.

Through adopting above-mentioned technical scheme, the self-service car washer quantity that its satisfies normal use is calculated according to the input water yield value analysis, set up this quantity into the self-service car washer quantity of running, set up the self-service car washer that is in running state and is equipped with the water tank water level and be less than preset value into the second car washer, set up the quantity of second car washer into second car washer quantity, when the quantity of running car washer is less than second car washer quantity, when the outside water supply is not enough for making all second car washers normal use promptly, send the switching command to the second car washer, make the water tank terminal control of the second car washer that receives the switching command close corresponding water supply branch pipe, and to the outlet pipe water delivery, stop the outside water supply input of this car washer promptly, and open its accessory pipe that is used for the intercommunication outlet pipe water delivery, make its own water tank provide the output water, thereby reduce and occupy the outside water yield, make self output water yield stable.

The present application may be further configured in a preferred example to: the step of setting the number of the second car washes as the number of the second car washes, when the number of the operable car washes is smaller than the number of the second car washes, sending a switching instruction to the second car washes, enabling a water storage tank terminal of the second car washes receiving the switching instruction to close an original water supply branch pipe, and switching to be the water storage tank terminal equipped with the water storage tank terminal to supply water to the second car washes, comprises the steps of:

When the number of the operable car washes is smaller than that of the second car washes, the second car washes are ordered according to the order from high to low of the water in the water storage tanks arranged in the second car washes, and the ordering is set as an emission order;

and setting the difference value between the number of the second car washes and the number of the operable car washes as the emission number, and sending a switching instruction to the second car washes with the same number as the emission number according to the emission sequence.

Through adopting above-mentioned technical scheme, when the quantity of the operable car washes is less than the quantity of the second car washes, order the second car washes according to the order from high to low of the water yield in the water storage tank, and set for this ordering as sending out order, set for the difference of second car washes quantity and operable car washes quantity as sending out quantity, send out the switching instruction to the second car washes with sending out quantity the same quantity according to sending out order, make the water level be less than the default but the water yield is relatively more the water storage tank terminal close its corresponding water supply branch pipe, switch over to the water storage tank terminal that is equipped to supply water to this second car washes, thereby make outside water supply enough make the water level be less than the default and the self-service car washes normal use of water yield relatively less.

The present application may be further configured in a preferred example to: the method also comprises the steps of:

And sending a calling instruction to a water storage tank terminal of the self-service car washer in a non-running state in a preset group, so that the water storage tank terminal which receives the calling instruction controls to open a water supplementing pipe so as to deliver water to the water storage tank terminal which receives the switching instruction.

Through adopting above-mentioned technical scheme, when the water yield is not enough in the water storage tank of self-service car washer, the moisturizing pipe of other self-service car washer water storage tanks that are in unoperated state is opened in the water storage tank of this self-service car washer of control pumping input, make its output water yield reach normal use value and maintain stably, the water storage tank water yield of the self-service car washer that provides output water at the water storage tank terminal that switches to being equipped is not enough, and the consumer has not accomplished the washing, invoke the water in the self-service car washer water storage tank that is in unoperated state when washing yet, have the effect that makes the consumer can normally use self-service car washer under the unstable, the reduced abnormal environment circumstances of water supply system water yield, the consumer's of protection consumption experience.

The present application may be further configured in a preferred example to: the method comprises the following steps that a calling instruction is sent to a water storage tank terminal of the self-service car washer in a non-running state in a preset group, so that after the step that the water storage tank terminal receiving the calling instruction controls to open a water supplementing pipe to deliver water to the water storage tank terminal receiving a switching instruction, the following steps are executed:

When a water quantity normal signal sent by a water quantity detection terminal is received, a water delivery stopping instruction is sent to the water storage tank terminal, so that the water storage tank terminal stops delivering water to the water outlet pipe;

a water supplementing instruction is sent to a water storage tank terminal of the self-service car washer which is in an unoperated state in a preset group;

and when receiving the filling signal sent by the water storage tank terminal, sending a termination instruction to the water storage tank terminal sending the filling signal.

By adopting the technical scheme, when the external input water quantity value is recovered to be normal or is close to be normal, the water quantity detection terminal sends a water quantity normal signal, and after receiving the water quantity normal signal, the water storage tank terminal sends a water delivery stopping instruction to enable the water storage tank terminal to control the closing of the water storage tank auxiliary pipe so as to stop water delivery to the water outlet pipe; the water storage tank of the self-service car washer in a non-running state in the preset group is sent out to supplement water, so that the water storage tank of the self-service car washer starts to supplement water from an external water supply branch pipe; when the water level sensor in the water storage tank detects that the water quantity is sufficient, a filling signal is sent out, and after the filling signal is received, a termination instruction is sent out to the water storage tank terminal sending out the filling signal, so that the water storage tank stops supplementing the water quantity from the external water supply branch pipe.

The present application may be further configured in a preferred example to: the method for sending the water replenishing instruction to the water tank terminal of the self-service car washer in the non-running state in the preset group comprises the following steps:

the method comprises the steps of obtaining a pre-working state of the self-service car washer in a non-running state in a preset group, wherein the pre-working state comprises reservation use information of the self-service car washer and the current water storage amount of a water storage tank of the self-service car washer;

and sending a water replenishing instruction to the self-service car washer water storage tank terminal in the pre-working state according to the priority rule in the order of priority, wherein the priority of the priority rule is three grades of high, medium and low.

Through adopting above-mentioned technical scheme, obtain the pre-operation state of self-service car washer that is in the unoperated state in the preset group, and according to priority rule from high to low order to the car washer water storage tank terminal that has obtained pre-operation state according to the priority, make self-service car washer water storage tank carry out the water yield according to preset priority rule in proper order and supply, thereby make the self-service car washer that the priority is high supplement the water yield of its water storage tank in advance, it can control the self-service car washer of the water yield of replenishment in a certain quantity to supply in the step by step, reduce the input water yield that occupies outside water supply system, make the self-service car washer water yield that is working remain stable, protect consumer's consumption experience.

The present application may be further configured in a preferred example to: the method also comprises the steps of:

when receiving a low-temperature early warning signal sent by a temperature detection terminal arranged in the self-service car washer, sending a heating instruction to a heating system terminal;

when receiving the high-temperature early warning signal sent by the temperature detection terminal installed in the self-service car washer, sending a heating stopping instruction to the heating system terminal.

Through adopting above-mentioned technical scheme, when receiving the low temperature early warning signal that comes from installing the temperature detection terminal that sends in self-service car washer, send the heating instruction to the heating system terminal in this self-service car washer, thereby prevent to appear that the moisture freezes because of the low temperature makes the output water yield unstable and leads to damaging self-service car washer internals even, have the use experience that can protect the consumer, prevent equipment damage, reduce the effect that influences economic benefits because of equipment damage leads to.

The present application may be further configured in a preferred example to: when receiving a low-temperature early warning signal sent by a temperature detection terminal installed in the self-service car washer, the step of sending a heating instruction to a heating system terminal comprises the following steps:

when a temperature detection terminal in the self-service car washer with high or medium priority detects that the water temperature in a water storage tank is lower than a low-temperature threshold value, a low-temperature early warning signal sent by the temperature detection terminal is received;

When receiving a high-temperature early warning signal sent by a temperature detection terminal arranged in the self-service car washer, the step of sending a heating stopping instruction to a heating system terminal comprises the following steps:

when the temperature detection terminal in the self-service car washer which is being heated detects that the water temperature in the water storage tank is higher than the high-temperature threshold value, a high-temperature early warning signal sent by the temperature detection terminal is received.

By adopting the technical scheme, according to the priority rule, the temperature detection terminal in the self-service car washer with the priority in the middle or high level sends out a low-temperature early warning signal when detecting that the water temperature in the water storage tank is lower than the low-temperature threshold value, so that the car washer with the high priority is heated first, stable output water quantity is provided for consumers with preset use, and meanwhile, the protection equipment prevents the damage to the water pipe and the water storage tank caused by freezing of water; when the temperature detection terminal detects that the water temperature of the water storage tank in the heating self-service car washer reaches a certain high-temperature threshold value, a high-temperature early warning signal is sent out, so that the water temperature is kept in a certain range, damage to a user and a car body caused by overhigh water temperature is prevented, and meanwhile, the internal parts of the self-service car washer are prevented from being burnt due to overhigh temperature in the self-service car washer. The car washing machine has the effects of protecting the personal safety and the car body safety of consumers, protecting the consumption experience of the consumers and preventing the car washing machine equipment from being burnt out at high temperature.

The second object of the present invention is achieved by the following technical solutions:

an intelligent environment detection and adjustment system of a self-service car washer, comprising:

the water quantity information sending module is used for acquiring an external input water quantity value in real time and sending corresponding electric signals according to different preset values of the current water quantity value;

the information identification module is used for identifying the identity information of the self-service car washer and identifying the working state and the pre-working state of the self-service car washer;

the data processing module is used for analyzing and calculating the running power of the water pump at the auxiliary pipe according to the input water quantity value acquired in real time and the current water quantity gear;

the classifying module is used for processing and inducing the priority level of the self-service car washer according to the priority rule;

the temperature information sending module is used for acquiring the temperature in the water storage tank of the self-service car washer in real time and sending corresponding electric signals according to different thresholds reached by the current temperature value;

the processing instruction sending module is used for sending different processing instructions according to different water quantity information electric signals and temperature information electric signals;

the water quantity control processing module is used for generating corresponding control processing modes according to different water quantity processing instructions;

And the temperature control processing module is used for generating corresponding control processing modes according to different temperature processing instructions.

By adopting the technical scheme, the water quantity information sending module obtains the external input water quantity in real time and sends out corresponding electric signals according to different preset values of the current input water quantity; the information identification module identifies identity information of the self-service car washer and a preset group in which the information identification module is positioned; the information acquisition module acquires the water level state of a water storage tank of the self-service car washer, the working state of the self-service car washer, the pre-working state of the self-service car washer, the number of the operable car washers and the number of the second car washers; the data processing module analyzes and calculates the number of the self-service car washes which are normally used based on the input water volume value according to the input water volume value obtained in real time, and compares the number of the operable car washes with the number of the second car washes and calculates the difference value of the number of the operable car washes; the sequencing module sequences the water quantity in the water storage tank of the car washer from high to low; the classifying module processes and generalizes the priority level of the self-service car washer according to the priority rule; the temperature information sending module obtains the temperature in the water storage tank of the self-service car washer in real time, and sends corresponding electric signals according to the fact that the current temperature value reaches different thresholds; the processing instruction sending module is used for sending different processing instructions according to different water quantity information electric signals and temperature information electric signals; the water quantity control processing module generates corresponding control processing modes according to different water quantity processing instructions, and the temperature control processing module generates corresponding control processing modes according to different temperature processing instructions.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the running state is detected, and the water quantity of the water supply branch pipe of the self-service car washer with high water quantity in the water storage tank is unstable and reduced, the water supply branch pipe is intelligently closed to stop water supply, so that the water storage tank of the self-service car washer is opened to be pumped into the water outlet pipe of the water gun of the self-service car washer by the auxiliary pipe, and the self-service car washer has the effect of enabling a consumer to normally use the self-service car washer under the abnormal environment condition that the water quantity of the water supply system is unstable and reduced and protecting the consumption experience of the consumer;

2. when the water storage tank is used for supplementing water, the water storage tank in the self-service car washer with higher priority level is supplemented in advance according to a preset priority rule, so that a certain water storage amount is reserved in the water storage tank in the equipment when a consumer who is scheduled to use the self-service car washer uses the self-service car washer; the self-service car washing machine with the water supplementing quantity is controlled within a certain quantity according to the priority, so that the water input quantity occupying an external water supply system is reduced, the water quantity of the working self-service car washing machine is kept stable, and the consumption experience of consumers is further protected;

3. the intelligent heating system arranged in the self-service car washer can heat the inside of the car body when in low-temperature weather, so that unstable water output and even damage to the parts in the self-service car washer caused by freezing of water at low temperature are prevented; after the water temperature reaches a certain threshold value, heating is stopped, so that the water temperature is kept in a certain range, damage to a user and a car body caused by overhigh water temperature is prevented, and meanwhile, the internal parts of the self-service car washer are prevented from being burnt out due to overhigh temperature. The car washer has the effects of protecting the personal safety of consumers and car body safety and preventing the influence on economic benefits caused by high and low temperature damage to car washer equipment.

Drawings

FIG. 1 is a flow chart of an embodiment of a method for intelligent environmental detection and adjustment of a self-service car washer of the present application;

FIG. 2 is a flowchart of an implementation of step S40 in an embodiment of a method for detecting and adjusting an intelligent environment of a self-service car washer according to the present application;

fig. 3 is a flowchart of an implementation of step S60 in an embodiment of a method for detecting and adjusting an intelligent environment of a self-service car washer according to the present application.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-3.

In an embodiment, as shown in fig. 1, the application discloses an intelligent environment detection and adjustment method of a self-service car washer, which specifically includes the following steps:

s10: when receiving a low water quantity sensing signal sent by a water quantity detection terminal, identifying identity information of the self-service car washer which is bound in advance by the water quantity detection terminal;

in the embodiment, the water quantity detection terminal is a water flow sensor arranged in an external water supply branch pipe of the self-service car washer; the low water quantity sensing signal is an electric signal sent when the water quantity sensor detects that the input water quantity value is lower than a preset low water quantity threshold value; the identity information is preset identification information corresponding to each self-service car washer.

Specifically, when a water flow sensor arranged in a water supply branch pipe of the self-service car washer detects that the input water quantity value of external water supply is lower than a low water quantity threshold value, a low water quantity sensing signal is sent; after receiving the low water quantity sensing signal, identifying the identity information of the self-service car washer which is bound in advance by the water flow sensor.

S20: based on the identity information, terminating the water supplementing state of the water storage tank terminals of the self-service car washes which are not operated in the preset groups, wherein each self-service car wash is provided with one water storage tank terminal;

in this embodiment, the preset group is a group formed by a plurality of self-service car washes connected by the same group of pipelines; the water storage tank terminal is the water storage tank, and the moisturizing state is for receiving the moisturizing instruction, through the self-service car washer of water supply branch pipe at the moisturizing water storage tank water yield.

Specifically, based on the identity information of the identified self-service car washer, a termination instruction is sent to all the water storage tank terminals in the water supplementing state in the preset group to which the self-service car washer belongs, so that the water storage tank terminals receiving the termination instruction terminate the water supplementing action, and each self-service car washer is provided with one water storage tank terminal.

S30: if the low water quantity sensing signal sent by the water quantity detection terminal is still received at the moment, the working states of all the self-service car washes in the preset group and the water quantity state in the water storage tank of the self-service car washes are obtained, wherein the working states comprise an operating state and an unoperated state;

In this embodiment, the working states of the self-service car washer include an operating state and an unoperated state, that is, the self-service car washer is currently being used and is not being used; the water quantity state in the water storage tank is the water quantity in the water storage tank of the self-service car washer.

Specifically, if the self-service car washer in the water replenishing state is used for stopping water replenishing, a low water quantity sensing signal sent by the water flow sensor is still received, and then the working states of all self-service car washers in the preset group where the self-service car washer bound by the water flow sensor is located and the water quantity state in the water storage tank are obtained.

S40: the self-service car washer which is in an operation state in a preset group and is provided with the water tank terminal is set as a first car washer, a switching instruction is sent to the first car washer, the water tank terminal of the first car washer which receives the switching instruction is enabled to close an original water supply branch pipe, and the water tank terminal is switched to be provided with the water tank terminal to supply water to the first car washer.

In this embodiment, the first car washer is a self-service car washer that is in an operation state and the water level in the water storage tank is higher than a preset value; the switching instruction is a control instruction sent to the first car washer when a low water quantity sensing signal sent by the water quantity detection terminal is still received after the water supplementing action of the water storage tank is terminated, so that the water storage tank terminal of the first car washer receiving the switching instruction closes a corresponding water supply branch pipe, stops the input of external water supply, and opens a secondary pipe to deliver water to a water outlet pipe of the self-service car washer; the auxiliary pipe is a pipeline for communicating the water storage tank in the self-service car washer with the water outlet pipe.

Specifically, the self-service car washer which is running in the preset group and is provided with the water level in the water storage tank higher than the preset value is set as the first car washer, a switching instruction is sent to the first car washer, the water storage tank terminal of the first car washer which receives the switching instruction is enabled to close the corresponding water supply branch pipe, namely, the introduction of external water supply is stopped, the auxiliary pipe of the water storage tank in the self-service car washer, which is used for communicating the water outlet pipe of the water storage tank, is opened, so that the water storage tank transmits water to the water outlet pipe through the auxiliary pipe, and the purpose that the provided water storage tank terminal supplies water for the first car washer is achieved.

In one embodiment, after step S40, the following steps are performed:

s41: the method comprises the steps of receiving an input water quantity value currently acquired by a water quantity detection terminal, analyzing and calculating the number of self-service car washes which meet the normal use based on the input water quantity value, and setting the number as the number of the car washes capable of running;

s42: setting the self-service car washer which is in an operation state in a preset group and is provided with a water tank terminal with a water level lower than a preset value as a second car washer;

s43: and setting the number of the second car washes as the number of the second car washes, and when the number of the operable car washes is smaller than the number of the second car washes, sending a switching instruction to the second car washes, so that the water storage tank terminal of the second car washes receiving the switching instruction closes an original water supply branch pipe and is switched to the water storage tank terminal to supply water to the second car washes.

In the embodiment, the input water quantity value is the water quantity value input by an external water supply pipeline detected by a water flow sensor; the number of the operable car washes is the number of the self-service car washes which meets the normal use based on the current external input water flow, and the number is obtained through a plurality of historical experiments: according to the running conditions of the self-service car washer tested by different input water quantity values, the number of the self-service car washers which can normally run in different input water quantity value ranges is recorded; the second car washes are self-service car washes which are running in preset groups and the water level in the water storage tank is lower than a preset value, and the number of the second car washes is the number of the second car washes.

Specifically, the input water quantity value of external water supply obtained by the water flow sensor is received, the number of self-service car washes which are used normally based on the input water quantity value is obtained according to the history experiment record, the number is set to be the number of the self-service car washes which are used for running, the self-service car washes which are in a running state and are provided with water storage boxes with water levels lower than a preset value are set to be second car washes, the number of the second car washes is set to be the number of the second car washes, the number of the operable car washes is compared with the number of the second car washes, when the number of the operable car washes is smaller than the number of the second car washes, namely, the external water supply is insufficient for enabling all the second car washes to be used normally at the same time, a switching instruction is sent to the second car washes, namely, the water storage box terminal of the second car washer which receives the switching instruction is closed corresponding to the water supply branch pipe, namely, the input of the external water supply is stopped, and the self-service car washes in the water storage boxes are opened to be used for communicating with the auxiliary pipes of the water storage boxes to supply water to the water outlet pipes, and the self-service car washes are realized.

In one embodiment, step S43 includes the steps of:

s431: when the number of the operable car washes is smaller than that of the second car washes, the second car washes are ordered according to the order from high to low of the water in the water storage tanks arranged in the second car washes, and the ordering is set as an emission order;

s432: and setting the difference value between the number of the second car washes and the number of the operable car washes as the emission number, and sending a switching instruction to the second car washes with the same number as the emission number according to the emission sequence.

In the embodiment, the sending sequence is sequence information which is arranged for the second car washer according to the sequence from high to low of the water quantity in the water storage tank; the number of the sent carwashes is the difference between the number of the second carwashes and the number of the operable carwashes, namely the number value of the number of the second carwashes minus the number of the operable carwashes.

Specifically, comparing the number of the operable car washes with the number of the second car washes, when the number of the operable car washes is smaller than the number of the second car washes, ordering the second car washes according to the water quantity in the water storage tank of the second car washes in a sequence from high to low, setting the ordering information as an emission sequence, calculating the difference value between the number of the second car washes and the number of the operable car washes, setting the difference value as the emission sequence, and sending a switching instruction to the second car washes with the same number as the emission sequence according to the emission sequence, so that the water storage tank terminal of the second car washes receiving the switching instruction closes the corresponding water supply branch pipe, namely, stops the input of external water supply, and opens the auxiliary pipe of the water storage tank in the self-service car washes for communicating the water outlet pipe of the second car washes to enable the water storage tank to deliver water to the water outlet pipe, thereby realizing that the equipped water storage tank terminal supplies water for the second car washes.

In an embodiment, the method further comprises the steps of:

s50: when the water storage tank terminal receives an alarm signal sent by the water level detection terminal, a calling signal sent by the water storage tank terminal is received;

s60: and sending a calling instruction to a water storage tank terminal of the self-service car washer which is in an unoperated state in the preset group, so that the water storage tank terminal which receives the calling instruction opens a water supplementing pipe to deliver water to the water storage tank terminal which sends a calling signal.

In the embodiment, the water level detection terminal is a water level sensor arranged in a water storage tank of the self-service car washer; the alarm signal is an electric signal sent when a water level sensor arranged in the self-service car washer for switching to the water delivery of the equipped water storage tank terminal detects that the water level in the water storage tank of the self-service car washer is lower than a preset value; the calling instruction is a control instruction sent when receiving the calling signal, so that the water storage tank terminal receiving the calling instruction can convey water to the water storage tank terminal sending the calling signal by opening the water supplementing pipe; the water replenishing pipe is a pipeline communicated with the water storage tank of the self-service car washer which is called and needs to be called.

Specifically, when the water level sensor arranged in the self-service car washer switched to the water delivery of the prepared water storage tank terminal detects that the water level in the water storage tank of the self-service car washer is lower than a preset value, an alarm signal is sent to the water storage tank terminal, after the water storage tank terminal receives the alarm signal, a calling signal is sent, after the calling signal is received, a calling instruction is sent to the water storage tank terminal arranged in the self-service car washer in a non-running state in a preset group, so that the water storage tank terminal receiving the calling instruction opens a water supplementing pipe to deliver water to the water storage tank terminal sending the calling signal: the water storage tank terminal receiving the calling instruction opens the water supplementing pipe so as to convey the water in the water storage tank to the water storage tank of the self-service car washer which sends the calling signal and needs the water to be called, and ensure that the water storage tank which needs the water to be called has sufficient water quantity, thereby ensuring that the car washer keeps sufficient output water quantity.

In one embodiment, after the step of step S60, the following steps are performed:

s61: when a water quantity normal signal sent by a water quantity detection terminal is received, a water delivery stopping instruction is sent to the water storage tank terminal, so that the water storage tank terminal stops delivering water to the water outlet pipe;

s62: a water supplementing instruction is sent to a water storage tank terminal of the self-service car washer which is in an unoperated state in a preset group;

s63: and when receiving the filling signal sent by the water storage tank terminal, sending a termination instruction to the water storage tank terminal sending the filling signal.

In this embodiment, the water quantity normal signal is an electrical signal sent when the water quantity detection terminal detects that the current input water quantity value is restored to a normal value range or is close to the normal value range, and the normal value range is an input water quantity value range which is determined according to a historical experiment and can enable all self-service car washing machines in a preset group to be normally used at the same time; the water delivery stopping instruction is a control instruction which is sent when the auxiliary pipe is closed by the self-service car washer for switching the water delivery of the water storage tank after the water delivery stopping instruction receives a water quantity normal signal sent by the water quantity sensor; the water replenishing instruction is a control instruction sent when the water tank in an unoperated state is replenished with water after receiving a water quantity normal signal sent by the water quantity detection terminal; the full signal is an electric signal which is sent out for stopping water replenishing when the water level sensor in the water storage tank which is replenishing water detects that the water level of the water storage tank exceeds a preset water level value.

Specifically, when the water quantity detection terminal detects that the input water quantity value is restored to the normal value range or is close to the normal value range, a water quantity normal signal is sent, after the water quantity normal signal is received, a water storage tank terminal of the self-service car washer which is switched to be provided with water storage tank for water delivery is sent to a water storage tank terminal of the self-service car washer to stop water delivery so that the water storage tank terminal closes a secondary pipe communicated with a main pipe, namely, water delivery of the water storage tank is stopped, and water delivery is provided again through a water supply branch pipe; a water supplementing instruction is sent to a water storage tank terminal of the self-service car washer which is in a non-running state in a preset group, so that a water supply branch pipe is opened to supplement water quantity through the water supply branch pipe; when the water level sensor in the water storage tank terminal which is supplementing water quantity detects that the water level in the water storage tank is higher than a preset value, the water storage tank terminal sends a supplementing signal, and after receiving the supplementing signal, the water storage tank terminal sends a termination instruction to stop supplementing water quantity through a water supply pipeline.

In one embodiment, step S62 includes the steps of:

s621: the method comprises the steps of obtaining a pre-working state of the self-service car washer in a non-running state in a preset group, wherein the pre-working state comprises reservation use information of the self-service car washer and the current water storage amount of a water storage tank of the self-service car washer;

S622: and sending a water replenishing instruction to the self-service car washer water storage tank terminal in the pre-working state according to the priority rule in the order of priority, wherein the priority of the priority rule is three grades of high, medium and low.

In this embodiment, the reservation use information of the car washer is information of a consumer reserving the self-service car washer by using the self-service car washer application program, and the reservation use information includes reserved, reserved time and unreserved information; the priority rule is a settable logic rule, and default setting is as follows:

the distance reservation time is less than 2hours, and the water level of the water storage tank is between a low water level value and a high water level value;

the distance reservation time is less than 4hours, the water level of the water storage tank is below a low water level value, and the priority is high;

the distance reservation time is more than 4hours, the water level of the water storage tank is below a high water level value, and the priority is middle;

the distance reservation time is more than 4hours, and the water level of the water storage tank is above a high water level value;

and in a non-reserved state, the priority is low;

the priority order is high > medium > low; the high water level value and the low water level value are both preset water level range values.

Specifically, a pre-working state of the self-service car washer in a non-running state is obtained, the pre-working state comprises reservation use information of the self-service car washer and water storage quantity in a water storage tank of the self-service car washer, according to a set priority rule, a water supplementing instruction is sent to the water storage tank terminal of the self-service car washer which has obtained the pre-working state according to a descending order of priority from high to low, so that the water supplementing instruction starts to supplement water quantity according to the priority order, and the water supplementing action of the water storage tank of the self-service car washer in the current priority is not interrupted: if the water storage tank of the self-service car washer with medium priority is supplementing water, the current supplementing action cannot be interrupted due to the high-priority self-service car washer.

In an embodiment, the method further comprises the steps of:

s70: when receiving a low-temperature early warning signal sent by a temperature detection terminal arranged in the self-service car washer, sending a heating instruction to a heating system terminal;

s80: when a high-temperature early warning signal sent by a temperature detection terminal arranged in the self-service car washer is received, a heating stopping instruction is sent to a heating system terminal;

in the embodiment, the temperature detection terminal is a temperature sensor arranged in the self-service car washer; the heating instruction is a control instruction which is sent when a heating system in the self-service car washer starts heating after receiving the low-temperature early warning signal; the heating stopping instruction is a control signal sent when a heating system in the self-service car washer stops heating after receiving the high-temperature early warning signal.

Specifically, when a low-temperature early warning signal sent by a temperature sensor arranged in the self-service car washer is received, a heating instruction is sent to a heating system terminal arranged in the self-service car washer to enable a heating system to start heating; when receiving the high-temperature early warning signal sent by the temperature sensor arranged in the self-service car washer, sending a heating stopping instruction to the heating system terminal arranged in the self-service car washer to stop heating of the heating system.

In one embodiment, step S70 includes the steps of:

s71: when a temperature detection terminal in the self-service car washer with high or medium priority detects that the water temperature in a water storage tank is lower than a low-temperature threshold value, a low-temperature early warning signal sent by the temperature detection terminal is received;

in this embodiment, the low temperature threshold is a preset low water temperature limit; the low-temperature early warning signal is an electric signal sent when a temperature sensor arranged in the self-service car washer detects that the water temperature in a water storage tank of the self-service car washer is lower than a preset low-temperature threshold value.

Specifically, when a built-in temperature sensor of the self-service car washer with the priority level being in a high level or a medium level detects that the water temperature in a water storage tank of the self-service car washer is lower than a preset low temperature threshold value, a low temperature early warning signal is sent.

Step S80 includes the steps of:

s81: when the temperature detection terminal in the self-service car washer which is being heated detects that the water temperature in the water storage tank is higher than the high-temperature threshold value, a high-temperature early warning signal sent by the temperature detection terminal is received;

in this embodiment, the high temperature threshold is a preset high water temperature limit; the high-temperature early warning signal is an electric signal sent when a temperature sensor arranged in the self-service car washer detects that the water temperature in a water storage tank of the self-service car washer is higher than a preset high-temperature threshold value.

Specifically, when the built-in temperature sensor of the self-service car washer in a heating state detects that the water temperature in the water storage tank is higher than a preset high water temperature limit value, a high-temperature early warning signal is sent.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic of each process, and should not limit the implementation process of the embodiment of the present application in any way.

In an embodiment, an intelligent environment detection and adjustment system of a self-service car washer is provided, and the intelligent environment detection and adjustment system of the self-service car washer corresponds to the intelligent environment detection and adjustment method of the self-service car washer in one-to-one correspondence. This intelligent environment of self-service car washer detects, governing system includes:

the water quantity information sending module is used for acquiring the external input water quantity in real time and sending corresponding electric signals according to different preset values of the current input water quantity;

the information identification module is used for identifying the identity information of the self-service car washer and the preset group in which the identity information is located;

the information acquisition module is used for acquiring the water level state of the water storage tank of the self-service car washer, the working state of the self-service car washer, the pre-working state of the self-service car washer, the number of the operable car washers and the number of the second car washers;

The data processing module is used for analyzing and calculating the number of the self-service car washes which are normally used based on the input water quantity value according to the input water quantity value acquired in real time, and comparing the number of the operable car washes with the number of the second car washes and calculating the difference value of the number of the operable car washes;

the sequencing module is used for sequencing the water quantity in the water storage tank of the car washer in order from high to low;

the classifying module is used for processing and inducing the priority level of the self-service car washer according to the priority rule;

the temperature information sending module is used for acquiring the temperature in the water storage tank of the self-service car washer in real time and sending corresponding electric signals according to different thresholds reached by the current temperature value;

the processing instruction sending module is used for sending different processing instructions according to different water quantity information electric signals and temperature information electric signals;

the water quantity control processing module is used for generating corresponding control processing modes according to different water quantity processing instructions;

and the temperature control processing module is used for generating corresponding control processing modes according to different temperature processing instructions.

Specific limitation of the intelligent environment detection and adjustment system of the self-service car washer can be referred to above for limitation of the intelligent environment detection and adjustment method of the self-service car washer, and will not be described herein. The intelligent environment detection and adjustment system of the self-service car washer can be realized by all or part of software, hardware and combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

The above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims (9)

1. The intelligent environment detection and adjustment method of the self-service car washer is characterized by comprising the following steps:

when receiving a low water quantity sensing signal sent by a water quantity detection terminal, identifying identity information of the self-service car washer which is bound in advance by the water quantity detection terminal;

based on the identity information, terminating the water supplementing state of the water storage tank terminals of the self-service car washes which are not operated in the preset groups, wherein each self-service car wash is provided with one water storage tank terminal;

if the low water quantity sensing signal sent by the water quantity detection terminal is still received at the moment, the working states of all the self-service car washes in the preset group and the water quantity state in the water storage tank of the self-service car washes are obtained, wherein the working states comprise an operating state and an unoperated state;

The self-service car washer which is in an operation state in a preset group and is provided with the water tank terminal is set as a first car washer, a switching instruction is sent to the first car washer, the water tank terminal of the first car washer which receives the switching instruction is enabled to close an original water supply branch pipe, and the water tank terminal is switched to be provided with the water tank terminal to supply water to the first car washer.

2. The intelligent environment detection and adjustment method of a self-service car washer according to claim 1, wherein the self-service car washer which is in an operation state in a preset group and has a water level of a water tank terminal higher than a preset value is set as a first car washer, a switching instruction is sent to the first car washer, the water tank terminal of the first car washer which receives the switching instruction is made to close an original water supply branch pipe, and after the step of switching to the water tank terminal which is provided to supply water to the first car washer, the following steps are executed:

the method comprises the steps of receiving an input water quantity value currently acquired by a water quantity detection terminal, analyzing and calculating the number of self-service car washes which meet the normal use based on the input water quantity value, and setting the number as the number of the car washes capable of running;

setting the self-service car washer which is in an operation state in a preset group and is provided with a water tank terminal with a water level lower than a preset value as a second car washer;

And setting the number of the second car washes as the number of the second car washes, and when the number of the operable car washes is smaller than the number of the second car washes, sending a switching instruction to the second car washes, so that the water storage tank terminal of the second car washes receiving the switching instruction closes an original water supply branch pipe and is switched to the water storage tank terminal to supply water to the second car washes.

3. The intelligent environment detection and adjustment method for self-service car washes according to claim 2, wherein the step of setting the number of second car washes as the number of second car washes, when the number of operable car washes is smaller than the number of second car washes, sending a switching instruction to the second car washes, making a water tank terminal of the second car washes receiving the switching instruction close an original water supply branch pipe, and switching to the water tank terminal equipped to supply water to the second car washes, includes the steps of:

when the number of the operable car washes is smaller than that of the second car washes, the second car washes are ordered according to the order from high to low of the water in the water storage tanks arranged in the second car washes, and the ordering is set as an emission order;

and setting the difference value between the number of the second car washes and the number of the operable car washes as the emission number, and sending a switching instruction to the second car washes with the same number as the emission number according to the emission sequence.

4. The intelligent environment detection and adjustment method of the self-service car washer according to claim 1, further comprising the steps of:

when the water storage tank terminal receives an alarm signal sent by the water level detection terminal, a calling signal sent by the water storage tank terminal is received;

and sending a calling instruction to a water storage tank terminal of the self-service car washer which is in an unoperated state in the preset group, so that the water storage tank terminal which receives the calling instruction opens a water supplementing pipe to deliver water to the water storage tank terminal which sends a calling signal.

5. The intelligent environment detection and adjustment method for a self-service car washer according to claim 4, wherein after the step of sending a call instruction to a water tank terminal of the self-service car washer in a non-running state in a preset group, the water tank terminal receiving the call instruction opens a water replenishing pipe to deliver water to the water tank terminal sending the call signal, the following steps are executed:

when a water quantity normal signal sent by a water quantity detection terminal is received, a water delivery stopping instruction is sent to the water storage tank terminal, so that the water storage tank terminal stops delivering water to the water outlet pipe;

a water supplementing instruction is sent to a water storage tank terminal of the self-service car washer which is in an unoperated state in a preset group;

And when receiving the filling signal sent by the water storage tank terminal, sending a termination instruction to the water storage tank terminal sending the filling signal.

6. The intelligent environment detection and adjustment method for a self-service car washer according to claim 5, wherein the step of sending a water replenishment instruction to a water tank terminal of the self-service car washer in an unoperated state within a preset group comprises the steps of:

the method comprises the steps of obtaining a pre-working state of the self-service car washer in a non-running state in a preset group, wherein the pre-working state comprises reservation use information of the self-service car washer and the current water storage amount of a water storage tank of the self-service car washer;

and sending a water replenishing instruction to the self-service car washer water storage tank terminal in the pre-working state according to the priority rule in the order of priority, wherein the priority of the priority rule is three grades of high, medium and low.

7. An intelligent environmental detection and adjustment method for a self-service car washer according to any of claims 1-6, further comprising the steps of:

when receiving a low-temperature early warning signal sent by a temperature detection terminal arranged in the self-service car washer, sending a heating instruction to a heating system terminal;

when receiving the high-temperature early warning signal sent by the temperature detection terminal installed in the self-service car washer, sending a heating stopping instruction to the heating system terminal.

8. The intelligent environment detecting and adjusting method for a self-service car washer according to claim 7, wherein the step of sending a heating command to the heating system terminal when receiving a low-temperature early warning signal sent from a temperature detecting terminal installed in the self-service car washer comprises the steps of:

when a temperature detection terminal in the self-service car washer with high or medium priority detects that the water temperature in a water storage tank is lower than a low-temperature threshold value, a low-temperature early warning signal sent by the temperature detection terminal is received;

when receiving a high-temperature early warning signal sent by a temperature detection terminal arranged in the self-service car washer, the step of sending a heating stopping instruction to a heating system terminal comprises the following steps:

when the temperature detection terminal in the self-service car washer which is being heated detects that the water temperature in the water storage tank is higher than the high-temperature threshold value, a high-temperature early warning signal sent by the temperature detection terminal is received.

9. Intelligent environment detection, governing system of self-service car washer, its characterized in that includes:

the water quantity information sending module is used for acquiring the external input water quantity in real time and sending corresponding electric signals according to different preset values of the current input water quantity;

The information identification module is used for identifying the identity information of the self-service car washer and the preset group in which the identity information is located;

the information acquisition module is used for acquiring the water level state of the water storage tank of the self-service car washer, the working state of the self-service car washer, the pre-working state of the self-service car washer, the number of the operable car washers and the number of the second car washers;

the data processing module is used for analyzing and calculating the number of the self-service car washes which are normally used based on the input water quantity value according to the input water quantity value acquired in real time, and comparing the number of the operable car washes with the number of the second car washes and calculating the difference value of the number of the operable car washes;

the sequencing module is used for sequencing the water quantity in the water storage tank of the car washer in order from high to low;

the classifying module is used for processing and inducing the priority level of the self-service car washer according to the priority rule;

the temperature information sending module is used for acquiring the temperature in the water storage tank of the self-service car washer in real time and sending corresponding electric signals according to different thresholds reached by the current temperature value;

the processing instruction sending module is used for sending different processing instructions according to different water quantity information electric signals and temperature information electric signals;

the water quantity control processing module is used for generating corresponding control processing modes according to different water quantity processing instructions;

And the temperature control processing module is used for generating corresponding control processing modes according to different temperature processing instructions.

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