CN114081743A - Control method and control system of oxygen inhalation cabin and computer storage medium - Google Patents

Abstract

The application discloses a control method, a control system and a computer storage medium of an oxygen inhalation cabin, wherein the method comprises the following steps: acquiring oxygen inhalation demand information of an store oxygen inhalation cabin, wherein the store oxygen inhalation cabin comprises a plurality of independent oxygen inhalation cabins, and the oxygen inhalation demand information comprises the required number of the oxygen inhalation cabins, information of people to be inhaled, data of the required data of the oxygen inhalation and payment data; selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and an oxygen inhalation cabin selection strategy; generating a control instruction of a target oxygen inhalation cabin according to the information of the person to be inhaled and the data of the demand of oxygen inhalation; after the person waiting for oxygen inhalation enters the target oxygen inhalation cabin, verifying whether payment is finished according to the payment data; and when the payment is finished, controlling the target oxygen inhalation cabin to provide oxygen inhalation service for the people to be inhaled according to the control instruction. The control to all the oxygen inhalation cabins in the store is realized, the manpower consumption that each oxygen inhalation cabin needs to be controlled independently is reduced, and the management and operation cost is reduced.

Description

Control method and control system of oxygen inhalation cabin and computer storage medium

Technical Field

The application relates to the field of medical health care equipment, in particular to a control method and a control system of an oxygen inhalation cabin and a computer storage medium.

Background

The oxygen inhalation cabin is a device widely applied in the fields of medical treatment, health preserving and the like. With the popularization of high-pressure oxygen therapy, the application of the oxygen inhalation cabin is rapidly developed. The oxygen inhalation chamber can effectively relieve the oxygen deficiency problem caused by cerebral thrombosis, cerebral hemorrhage, cerebral trauma, vertigo and other diseases, and can solve the oxygen supply problem for drunk or dizzy people by oxygen quantity.

In view of the applicability of oxygen inhalation chambers, they are typically located in stores at places where people gather, such as near large communities or shopping malls.

However, after a plurality of oxygen inhalation chambers are installed in a store, each oxygen inhalation chamber needs to be controlled independently, so that the labor cost is high, and the management and operation cost is increased.

Disclosure of Invention

In order to realize the control of all the oxygen inhalation cabins in a store, reduce the manpower consumption that each oxygen inhalation cabin needs to be controlled independently and reduce the management operation cost, the application provides a control method and a control system of the oxygen inhalation cabin and a computer storage medium.

In a first aspect, the present application provides a method for controlling an oxygen inhalation cabin, which adopts the following technical scheme:

a method of controlling an oxygen inhalation chamber comprising:

acquiring oxygen inhalation demand information of store oxygen inhalation cabins, wherein each store oxygen inhalation cabin comprises a plurality of independent oxygen inhalation cabins, and the oxygen inhalation demand information comprises the number of oxygen inhalation cabin demands, information of people to be inhaled, data of the oxygen inhalation demand and payment data;

selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and an oxygen inhalation cabin selection strategy;

generating a control instruction of the target oxygen inhalation cabin according to the information of the personnel to be inhaled and the data of the demand for oxygen inhalation;

after the person to be oxygen-inhaled enters the target oxygen-inhalation cabin, verifying whether payment is finished or not according to the payment data;

and when the payment is finished, controlling the target oxygen inhalation cabin to provide oxygen inhalation service for the people to be inhaled according to the control instruction.

By adopting the technical scheme, in a store of the oxygen inhalation cabins, the plurality of oxygen inhalation cabins are included, oxygen inhalation demand information is collected firstly, the oxygen inhalation demand information comprises the required number of the oxygen inhalation cabins, information of people to be inhaled, required data to be inhaled and payment data, a target oxygen inhalation cabin is selected from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and an oxygen inhalation cabin selection strategy, a control instruction of the target oxygen inhalation cabin is generated according to the information of the people to be inhaled and the required data to be inhaled, after the people to be inhaled enter the target oxygen inhalation cabin, whether payment is finished or not is verified according to the payment data, and when the payment is finished, the target oxygen inhalation cabin is controlled according to the control instruction to provide oxygen inhalation service for the people to be inhaled. The automatic management and control of all the oxygen inhalation cabins are realized, the manual participation in the distribution and management of the oxygen inhalation cabins is not needed, the labor consumption of each oxygen inhalation cabin which needs to be controlled independently is reduced, and the management and operation cost is reduced.

Optionally, the required number of the oxygen inhalation cabins is one, and selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and an oxygen inhalation cabin selection policy includes:

determining a machine state of each oxygen inhalation cabin in the store, wherein the machine state comprises a working state or a non-working state;

when an oxygen inhalation cabin in a non-working state exists, selecting a target oxygen inhalation cabin from the oxygen inhalation cabin in the non-working state;

when the oxygen inhalation cabin in the non-working state does not exist, acquiring the residual working time of each oxygen inhalation cabin in the working state;

and selecting the oxygen inhalation cabin with the shortest residual working time from the oxygen inhalation cabins in the working state as a target oxygen inhalation cabin.

By adopting the technical scheme, when the required number of the oxygen inhalation cabins is one, the machine state of each oxygen inhalation cabin in the store oxygen inhalation cabin is determined, the machine state comprises a working state or a non-working state, the working state represents that the oxygen inhalation cabin is occupied, and the non-working state represents that the oxygen inhalation cabin is not used, so that one non-working state oxygen inhalation cabin is selected as a target oxygen inhalation cabin as long as the non-working state exists; and if the oxygen inhalation cabin in the non-working state does not exist, acquiring the residual working time of each oxygen inhalation cabin in the working state, and selecting the oxygen inhalation cabin with the shortest residual working time from the oxygen inhalation cabins in the working state as the target oxygen inhalation cabin. When the oxygen inhalation cabin is selected, the personnel to be inhaled are taken out of a store independently, so that the personnel can be randomly distributed only in a non-working state according to the condition of one person, and when the oxygen inhalation cabin is in all working states, the oxygen inhalation cabin with the shortest residual working time can be reserved to serve as a target oxygen inhalation cabin, so that the requirement is met in the shortest time.

Optionally, the number of the oxygen inhalation cabin demands is multiple, and the selecting of the target oxygen inhalation cabin from the store oxygen inhalation cabins according to the number of the oxygen inhalation cabin demands and the oxygen inhalation cabin selection policy includes:

determining a machine state of each oxygen inhalation cabin in the store, wherein the machine state comprises a working state or a non-working state;

judging whether the number of the oxygen inhalation chambers in the non-working state is less than the required number of the oxygen inhalation chambers;

if not, selecting a target oxygen inhalation cabin from the oxygen inhalation cabins in the non-working state according to the required number of the oxygen inhalation cabins;

if the number of the oxygen inhalation chambers is less than the preset value, all the oxygen inhalation chambers in the non-working state are used as first oxygen inhalation chambers;

subtracting the number of the first oxygen inhalation cabins from the required number of the oxygen inhalation cabins to obtain the number of second oxygen inhalation cabins;

acquiring the residual working time of each oxygen inhalation cabin in the working state;

and selecting the oxygen inhalation cabins with the number of the second oxygen inhalation cabins with the shortest residual working time from the oxygen inhalation cabins in the working state as the second oxygen inhalation cabins, and taking the first oxygen inhalation cabin and the second oxygen inhalation cabin as target oxygen inhalation cabins.

By adopting the technical scheme, when the required number of the oxygen inhalation cabins is multiple, the machine state of each oxygen inhalation cabin in the store is determined, the machine state comprises a working state or a non-working state, the working state indicates that the oxygen inhalation cabin is occupied, the non-working state indicates that the oxygen inhalation cabin is not used, whether the number of the oxygen inhalation cabins in the non-working state is smaller than the required number of the oxygen inhalation cabins or not is judged, and if the number of the oxygen inhalation cabins in the non-working state is not smaller than the required number of the oxygen inhalation cabins, a target oxygen inhalation cabin is selected from the oxygen inhalation cabins in the non-working state according to the required number of the oxygen inhalation cabins; if the oxygen content is less than the preset value, all the oxygen inhalation chambers in the non-working state are used as first oxygen inhalation chambers. Subtracting the number of the first oxygen inhalation cabins from the required number of the oxygen inhalation cabins to obtain the number of the second oxygen inhalation cabins; acquiring the residual working time of each oxygen inhalation cabin in the working state; and selecting the oxygen inhalation cabins with the number of the second oxygen inhalation cabins with the shortest residual working time from the oxygen inhalation cabins in the working state as the second oxygen inhalation cabins, and taking the first oxygen inhalation cabin and the second oxygen inhalation cabin as target oxygen inhalation cabins. When the oxygen inhalation cabin is selected, the target oxygen inhalation cabin can be selected at will when the number of the oxygen inhalation cabins in the non-working state is large according to the situation of multiple persons considering that the persons to be inhaled can queue multiple persons at the same time; when the number of the oxygen inhalation cabins in the non-working state is small, all the oxygen inhalation cabins in the non-working state are selected as first oxygen inhalation cabins, then the oxygen inhalation cabin with the shortest residual working time length is selected from the oxygen inhalation cabins in the working state to serve as a second oxygen inhalation cabin, and the first oxygen inhalation cabin and the second oxygen inhalation cabin are both target oxygen inhalation cabins, so that the requirements of part of people are met firstly, and the requirements of the rest of other people are met in the shortest time.

Optionally, after selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and the oxygen inhalation cabin selection policy, the method further includes:

detecting whether a control connection circuit of the target oxygen inhalation cabin is normal or not, wherein one or more target oxygen inhalation cabins are provided;

when the abnormal oxygen inhalation cabin with the abnormal control connecting circuit exists in the target oxygen inhalation cabin, the normal oxygen inhalation cabin is selected from the store oxygen inhalation cabins to replace the abnormal oxygen inhalation cabin.

By adopting the technical scheme, after the target oxygen inhalation cabin is selected, in order to prevent the circuit from being broken and prevent the control instruction from being sent to the oxygen inhalation cabin, whether the control connection circuit of the target oxygen inhalation cabin is normal needs to be detected firstly, and if abnormal oxygen inhalation cabins exist, the normal oxygen inhalation cabin needs to be selected again to replace the abnormal oxygen inhalation cabin. Thereby ensuring that each oxygen inhalation cabin can be used and not influencing the use of customers.

Optionally, the information of the person waiting to inhale oxygen includes clothing thickness data and age data, the data of the demand for inhaling oxygen includes oxygen inhalation duration, oxygen concentration and air pressure, and the control instruction of the target oxygen inhalation cabin is generated according to the information of the person waiting to inhale oxygen and the data of the demand for inhaling oxygen, including:

determining clothing thickness data and age data of the person to be oxygen inhaled in the target oxygen inhalation cabin according to the information of the person to be oxygen inhaled;

selecting a corresponding temperature value from a preset temperature setting table according to the clothes thickness data and the age data;

generating a temperature control instruction of the target oxygen inhalation cabin according to the temperature value;

obtaining oxygen inhalation time, oxygen concentration and air pressure according to the data of the demand for oxygen inhalation, and generating a working time control instruction, an oxygen valve control instruction and an air pressure valve control instruction of the target oxygen inhalation cabin according to the oxygen inhalation time, the oxygen concentration and the air pressure;

and obtaining a control instruction of the target oxygen inhalation cabin according to the temperature control instruction, the working time control instruction, the oxygen valve control instruction and the air pressure valve control instruction.

By adopting the technical scheme, the information of the person to be subjected to oxygen inhalation comprises clothes thickness data and age data, the data of the demand of the person to be subjected to oxygen inhalation comprises oxygen inhalation time, oxygen concentration and air pressure, a corresponding temperature value is selected from a preset temperature setting table according to the clothes thickness data and the age data, a temperature control instruction of the target oxygen inhalation cabin is generated according to the temperature value, the oxygen inhalation time, the oxygen concentration and the air pressure are obtained according to the data of the demand of the person to be subjected to oxygen inhalation, and a working time control instruction, an oxygen valve control instruction and an air pressure valve control instruction of the target oxygen inhalation cabin are generated according to the oxygen inhalation time, the oxygen concentration and the air pressure. The control of the oxygen inhalation cabin comprises temperature control, time length control, oxygen control and air pressure control, and the experience of the oxygen inhalation cabin can be improved through comprehensive control.

Optionally, the method further comprises:

and when the payment is not finished, generating prompt information, wherein the prompt information is used for prompting the person waiting for oxygen inhalation to pay.

By adopting the technical scheme, under the condition that payment is not finished, although the target oxygen inhalation cabin is determined in advance, the person waiting for oxygen inhalation also enters the oxygen inhalation cabin, but the payment is prompted to be carried out firstly.

In a second aspect, the present application provides a control system for an oxygen inhalation cabin, which adopts the following technical scheme:

the system comprises a store management center and store oxygen uptake cabins, wherein each store oxygen uptake cabin comprises a plurality of independent oxygen uptake cabins;

each oxygen inhalation cabin is provided with an oxygen inhalation cabin controller;

the store management center is connected with the oxygen inhalation cabin controller of each oxygen inhalation cabin and is used for executing the control method of the oxygen inhalation cabin in the first aspect.

In a third aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, implements the method of controlling an oxygen inhalation chamber of the first aspect.

By adopting the technical scheme, the control method of the oxygen inhalation cabin generates the computer program, and the computer program is stored in the computer readable storage medium to be loaded and executed by the processor, and the computer program can be conveniently read and stored through the computer readable storage medium.

In summary, the present application includes the following beneficial technical effects:

in a store of the oxygen inhalation cabins, a plurality of oxygen inhalation cabins are included, oxygen inhalation demand information is collected firstly, the oxygen inhalation demand information comprises the required number of the oxygen inhalation cabins, information of people to be inhaled, required data of the oxygen inhalation and payment data, a target oxygen inhalation cabin is selected from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and a selection strategy of the oxygen inhalation cabins, a control instruction of the target oxygen inhalation cabin is generated according to the information of the people to be inhaled and the required data of the oxygen inhalation, whether payment is finished or not is verified according to the payment data after the people to be inhaled enter the target oxygen inhalation cabin, and when the payment is finished, the target oxygen inhalation cabin is controlled according to the control instruction to provide oxygen inhalation service for the people to be inhaled. The automatic management and control of all the oxygen inhalation cabins are realized, the manual participation in the distribution and management of the oxygen inhalation cabins is not needed, the labor consumption of each oxygen inhalation cabin which needs to be controlled independently is reduced, and the management and operation cost is reduced.

Drawings

Fig. 1 is a schematic flow chart of a control method of the oxygen inhalation chamber of the present application.

Fig. 2 is a schematic view of a first flow path of a selected target oxygen inhalation chamber of the present application.

Figure 3 is a second schematic flow diagram of a selected target oxygen inhalation chamber of the present application.

Fig. 4 is a schematic flow chart of the generation of control commands for the target oxygen inhalation cabin of the present application.

Fig. 5 is a schematic structural diagram of a control system of the oxygen inhalation cabin of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a control method of an oxygen inhalation cabin.

Referring to fig. 1, the method includes:

101, acquiring oxygen inhalation demand information of an oxygen inhalation cabin of a store.

The store of the oxygen inhalation cabin comprises a plurality of oxygen inhalation cabins, oxygen inhalation demand information is collected firstly, the store oxygen inhalation cabin comprises a plurality of independent oxygen inhalation cabins, and the oxygen inhalation demand information comprises the required number of the oxygen inhalation cabins, information of personnel to be inhaled, data of the requirements to be inhaled and payment data.

And 102, selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and an oxygen inhalation cabin selection strategy.

The number of the required oxygen inhalation cabins is determined according to the number of people to be inhaled, and can be one or more, the oxygen inhalation cabin selection strategy is a preset oxygen inhalation cabin selection mode, and the target oxygen inhalation cabins with the same number as the required number of the oxygen inhalation cabins are selected from the store oxygen inhalation cabins.

And 103, generating a control instruction of the target oxygen inhalation cabin according to the information of the person to be inhaled and the data of the demand of oxygen inhalation.

Under the condition that information of people to be inhaled and data of demand for oxygen inhalation are determined, parameters such as oxygen concentration and air pressure required to be provided by the target oxygen inhalation cabin can be determined, and therefore a control instruction of the target oxygen inhalation cabin is generated.

And 104, after the person to be oxygen-inhaled enters the target oxygen-inhalation cabin, verifying whether the payment is finished according to the payment data.

After the target oxygen inhalation cabin is determined, after the person to be inhaled enters the target oxygen inhalation cabin, whether the person to be inhaled pays or not needs to be determined, verification can be performed according to payment data, the payment mode can be WeChat or Payment, the person can receive the payment data after the payment is completed, and if the payment is completed, step 105 is executed.

And 105, controlling the target oxygen inhalation cabin to provide oxygen inhalation service for the people to be inhaled according to the control instruction.

The implementation principle of the application is as follows: in a store of the oxygen inhalation cabins, a plurality of oxygen inhalation cabins are included, oxygen inhalation demand information is collected firstly, the oxygen inhalation demand information comprises the required number of the oxygen inhalation cabins, information of people to be inhaled, required data of the oxygen inhalation and payment data, a target oxygen inhalation cabin is selected from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and a selection strategy of the oxygen inhalation cabins, a control instruction of the target oxygen inhalation cabin is generated according to the information of the people to be inhaled and the required data of the oxygen inhalation, whether payment is finished or not is verified according to the payment data after the people to be inhaled enter the target oxygen inhalation cabin, and when the payment is finished, the target oxygen inhalation cabin is controlled according to the control instruction to provide oxygen inhalation service for the people to be inhaled. The automatic management and control of all the oxygen inhalation cabins are realized, the manual participation in the distribution and management of the oxygen inhalation cabins is not needed, the labor consumption of each oxygen inhalation cabin which needs to be controlled independently is reduced, and the management and operation cost is reduced.

It should be noted that, under the condition that payment is not completed, although the target oxygen inhalation cabin is determined in advance, the person to be inhaled also enters the oxygen inhalation cabin, but the operation is not performed, and prompt information is generated to prompt the person to be inhaled to pay first. The prompt message can be a voice message or an indicator light message.

In the above embodiment shown in fig. 1, the number of oxygen inhalation cabin requirements mentioned in step 102 may be one or more, and then the description is separately made for one or more cases, first, the following description is made of a process of selecting a target oxygen inhalation cabin when there is only one oxygen inhalation cabin requirement by the embodiment shown in fig. 2, and the specific steps are as follows:

and 201, determining the machine state of each oxygen inhalation cabin in the store oxygen inhalation cabin, wherein the machine state comprises a working state or a non-working state.

When the number of the oxygen inhalation cabin demands is one, the machine state of each oxygen inhalation cabin in the store oxygen inhalation cabin is determined, the machine state comprises a working state or a non-working state, the working state represents that the oxygen inhalation cabin is occupied, and the non-working state represents that the oxygen inhalation cabin is not used.

202, when the oxygen inhalation cabin in the non-working state exists, selecting a target oxygen inhalation cabin from the oxygen inhalation cabin in the non-working state.

Wherein, as long as the oxygen inhalation cabin is in the non-working state, one oxygen inhalation cabin in the non-working state is selected as the target oxygen inhalation cabin.

203, when the oxygen inhalation cabin in the non-working state does not exist, acquiring the residual working time of each oxygen inhalation cabin in the working state.

If the oxygen inhalation cabin in the non-working state does not exist, the remaining working time of each oxygen inhalation cabin in all the oxygen inhalation cabins in the working state is obtained, for example, the working time of the oxygen inhalation cabin A is 1 hour, and the working time is 50 minutes before, so that the remaining working time is 10 minutes.

And 204, selecting the oxygen inhalation cabin with the shortest residual working time from the oxygen inhalation cabins in the working state as a target oxygen inhalation cabin.

The implementation principle of the application is as follows: when the oxygen inhalation cabin is selected, the personnel to be inhaled are taken out of a store independently, so that the personnel can be randomly distributed only in a non-working state according to the condition of one person, and when the oxygen inhalation cabin is in all working states, the oxygen inhalation cabin with the shortest residual working time can be reserved to serve as a target oxygen inhalation cabin, so that the requirement is met in the shortest time.

The process of selecting a target oxygen inhalation cabin when the required number of oxygen inhalation cabins is multiple is explained by the embodiment shown in fig. 3, and the specific steps are as follows:

and 301, determining the machine state of each oxygen inhalation cabin in the store, wherein the machine state comprises a working state or a non-working state.

When the number of the oxygen inhalation cabin demands is multiple, the machine state of each oxygen inhalation cabin in the store oxygen inhalation cabin is determined, the machine state comprises a working state or a non-working state, the working state represents that the oxygen inhalation cabin is occupied, and the non-working state represents that the oxygen inhalation cabin is not used.

And 302, judging whether the number of the oxygen inhalation chambers in the non-working state is less than the required number of the oxygen inhalation chambers.

Judging whether the number of the oxygen inhalation chambers in the non-working state is less than the required number of the oxygen inhalation chambers, and if not, executing a step 303; if so, step 304 is performed.

303, selecting a target oxygen inhalation cabin from the oxygen inhalation cabins in the non-working state according to the required number of the oxygen inhalation cabins.

The number of the oxygen inhalation cabins in the non-working state is enough, and only the target oxygen inhalation cabin needs to be randomly selected from the oxygen inhalation cabins in the non-working state according to the required number of the oxygen inhalation cabins.

And 304, taking all the oxygen inhalation chambers in the non-working state as first oxygen inhalation chambers.

The number of the oxygen inhalation cabins in the non-working state is small, and most of the oxygen inhalation cabins are used, so that all the oxygen inhalation cabins in the non-working state are used as the first oxygen inhalation cabin.

And 305, subtracting the number of the first oxygen inhalation chambers from the required number of the oxygen inhalation chambers to obtain the number of the second oxygen inhalation chambers.

And 306, acquiring the residual working time of each oxygen inhalation cabin in the working state.

307, selecting the oxygen inhalation chambers with the shortest remaining working time from the oxygen inhalation chambers in the working state, using the selected oxygen inhalation chambers as second oxygen inhalation chambers, and using the first oxygen inhalation chamber and the second oxygen inhalation chambers as target oxygen inhalation chambers.

The implementation principle of the application is as follows: when the number of the oxygen inhalation chambers is multiple, and when the number of the oxygen inhalation chambers is large, the target oxygen inhalation chamber can be selected at will under the condition of multiple persons in consideration of the fact that the persons to be inhaled can queue multiple persons at the same time; when the number of the oxygen inhalation cabins in the non-working state is small, all the oxygen inhalation cabins in the non-working state are selected as first oxygen inhalation cabins, then the oxygen inhalation cabin with the shortest residual working time length is selected from the oxygen inhalation cabins in the working state to serve as a second oxygen inhalation cabin, and the first oxygen inhalation cabin and the second oxygen inhalation cabin are both target oxygen inhalation cabins, so that the requirements of part of people are met firstly, and the requirements of the rest of other people are met in the shortest time.

In the above embodiment shown in fig. 2 and 3, after the target oxygen inhalation cabin is selected, the method further comprises:

detecting whether a control connection circuit of a target oxygen inhalation cabin is normal or not, wherein one or more target oxygen inhalation cabins are provided;

when the abnormal oxygen inhalation cabin with the abnormal control connecting circuit exists in the target oxygen inhalation cabin, the normal oxygen inhalation cabin is selected from the store oxygen inhalation cabins to replace the abnormal oxygen inhalation cabin.

After the target oxygen inhalation cabin is selected, in order to prevent the occurrence of circuit break, the control instruction cannot be sent to the oxygen inhalation cabin, whether the control connection circuit of the target oxygen inhalation cabin is normal or not needs to be detected, and if an abnormal oxygen inhalation cabin exists, the normal oxygen inhalation cabin needs to be selected again to replace the abnormal oxygen inhalation cabin. Thereby ensuring that each oxygen inhalation cabin can be used and not influencing the use of customers.

In the above embodiment shown in fig. 1, the information of the person to be inhaled in step 103 specifically includes clothing thickness data and age data, the data of the demand for oxygen inhalation specifically includes oxygen inhalation duration, oxygen concentration and air pressure, and the generation process of the control instruction of the target oxygen inhalation cabin is specifically shown in fig. 4, and includes:

401, determining clothes thickness data and age data of the person to be inhaled in the target oxygen inhalation cabin according to the information of the person to be inhaled.

402, according to the clothes thickness data and the age data, selecting a corresponding temperature value from a preset temperature setting table.

When the preset temperature setting table is set, the situation that people entering the oxygen inhalation cabin wear different temperatures in summer and winter needs to be considered, the same temperature is inapplicable, the adaptation feelings of different ages to different temperatures are different, and then different temperature values need to be set according to the thickness and the age of the garment.

And 403, generating a temperature control instruction of the target oxygen inhalation cabin according to the temperature value.

And 404, obtaining oxygen inhalation time, oxygen concentration and air pressure according to the required data of oxygen to be inhaled, and generating a working time control instruction, an oxygen valve control instruction and an air pressure valve control instruction of the target oxygen inhalation cabin according to the oxygen inhalation time, the oxygen concentration and the air pressure.

And 405, obtaining a control instruction of the target oxygen inhalation cabin according to the temperature control instruction, the working time control instruction, the oxygen valve control instruction and the air pressure valve control instruction.

The implementation principle of the application is as follows: the information of the person to be subjected to oxygen inhalation comprises clothing thickness data and age data, the data of the requirement to be subjected to oxygen inhalation comprises oxygen inhalation duration, oxygen concentration and air pressure, a corresponding temperature value is selected from a preset temperature setting table according to the clothing thickness data and the age data, a temperature control instruction of a target oxygen inhalation cabin is generated according to the temperature value, the oxygen inhalation duration, the oxygen concentration and the air pressure are obtained according to the data of the requirement to be subjected to oxygen inhalation, and a working duration control instruction, an oxygen valve control instruction and an air pressure valve control instruction of the target oxygen inhalation cabin are generated according to the oxygen inhalation duration, the oxygen concentration and the air pressure. The control of the oxygen inhalation cabin comprises temperature control, time length control, oxygen control and air pressure control, and the experience of the oxygen inhalation cabin can be improved through comprehensive control.

In the above embodiments, the method for controlling an oxygen inhalation cabin is described in detail, and a control system of an oxygen inhalation cabin using the method is described below by way of embodiments, as shown in fig. 5, the present application provides a control system of an oxygen inhalation cabin, including:

the system comprises a store management center 501 and store oxygen uptake cabins, wherein each store oxygen uptake cabin comprises a plurality of independent oxygen uptake cabins 502;

each oxygen inhalation cabin 502 is provided with an oxygen inhalation cabin controller 5021;

the store management center 501 is connected to the oxygen inhalation cabin controller 5021 of each oxygen inhalation cabin 502, and the store management center 501 is used for executing the control method of the oxygen inhalation cabin in the above embodiment.

The implementation principle of the application is as follows: the store management center 501 realizes automatic management and control of all the oxygen inhalation cabins 502, does not need to participate in distribution and management of the oxygen inhalation cabins manually, reduces the manpower consumption of each oxygen inhalation cabin which needs to be controlled independently, and reduces the management and operation cost.

The embodiment of the application also discloses a computer readable storage medium, and the computer readable storage medium stores a computer program, wherein when the computer program is executed by a processor, the method for controlling the oxygen inhalation cabin in the embodiment is adopted.

The computer program may be stored in a computer readable medium, the computer program includes computer program code, the computer program code may be in a source code form, an object code form, an executable file or some intermediate form, and the like, the computer readable medium includes any entity or device capable of carrying the computer program code, a recording medium, a usb disk, a removable hard disk, a magnetic disk, an optical disk, a computer memory, a Read Only Memory (ROM), a Random Access Memory (RAM), an electrical carrier signal, a telecommunication signal, a software distribution medium, and the like, and the computer readable medium includes but is not limited to the above components.

The control method of the oxygen inhalation cabin in the above embodiment is stored in the computer readable storage medium through the computer readable storage medium, and is loaded and executed on the processor, so as to facilitate the storage and application of the method.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (8)

1. A method of controlling an oxygen inhalation chamber, comprising:

acquiring oxygen inhalation demand information of store oxygen inhalation cabins, wherein each store oxygen inhalation cabin comprises a plurality of independent oxygen inhalation cabins, and the oxygen inhalation demand information comprises the number of oxygen inhalation cabin demands, information of people to be inhaled, data of the oxygen inhalation demand and payment data;

selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and an oxygen inhalation cabin selection strategy;

generating a control instruction of the target oxygen inhalation cabin according to the information of the personnel to be inhaled and the data of the demand for oxygen inhalation;

after the person to be oxygen-inhaled enters the target oxygen-inhalation cabin, verifying whether payment is finished or not according to the payment data;

and when the payment is finished, controlling the target oxygen inhalation cabin to provide oxygen inhalation service for the people to be inhaled according to the control instruction.

2. The method of controlling an oxygen inhalation chamber of claim 1, wherein the required number of said oxygen inhalation chambers is one,

the method for selecting the target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and the oxygen inhalation cabin selection strategy comprises the following steps:

determining a machine state of each oxygen inhalation cabin in the store, wherein the machine state comprises a working state or a non-working state;

when an oxygen inhalation cabin in a non-working state exists, selecting a target oxygen inhalation cabin from the oxygen inhalation cabin in the non-working state;

when the oxygen inhalation cabin in the non-working state does not exist, acquiring the residual working time of each oxygen inhalation cabin in the working state;

and selecting the oxygen inhalation cabin with the shortest residual working time from the oxygen inhalation cabins in the working state as a target oxygen inhalation cabin.

3. The method of controlling an oxygen inhalation chamber according to claim 1, wherein the required number of said oxygen inhalation chambers is plural,

the method for selecting the target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and the oxygen inhalation cabin selection strategy comprises the following steps:

determining a machine state of each oxygen inhalation cabin in the store, wherein the machine state comprises a working state or a non-working state;

judging whether the number of the oxygen inhalation chambers in the non-working state is less than the required number of the oxygen inhalation chambers;

if not, selecting a target oxygen inhalation cabin from the oxygen inhalation cabins in the non-working state according to the required number of the oxygen inhalation cabins;

if the number of the oxygen inhalation chambers is less than the preset value, all the oxygen inhalation chambers in the non-working state are used as first oxygen inhalation chambers;

subtracting the number of the first oxygen inhalation cabins from the required number of the oxygen inhalation cabins to obtain the number of second oxygen inhalation cabins;

acquiring the residual working time of each oxygen inhalation cabin in the working state;

and selecting the oxygen inhalation cabins with the number of the second oxygen inhalation cabins with the shortest residual working time from the oxygen inhalation cabins in the working state as the second oxygen inhalation cabins, and taking the first oxygen inhalation cabin and the second oxygen inhalation cabin as target oxygen inhalation cabins.

4. The method for controlling an oxygen inhalation cabin according to claim 2 or 3, wherein after selecting a target oxygen inhalation cabin from the store oxygen inhalation cabins according to the required number of the oxygen inhalation cabins and the oxygen inhalation cabin selection strategy, the method further comprises:

detecting whether a control connection circuit of the target oxygen inhalation cabin is normal or not, wherein one or more target oxygen inhalation cabins are provided;

when the abnormal oxygen inhalation cabin with the abnormal control connecting circuit exists in the target oxygen inhalation cabin, the normal oxygen inhalation cabin is selected from the store oxygen inhalation cabins to replace the abnormal oxygen inhalation cabin.

5. The method for controlling the oxygen inhalation chamber of claim 4, wherein the information of the person to be inhaled comprises clothing thickness data and age data, the data of the demand for oxygen inhalation comprises oxygen inhalation duration, oxygen concentration and air pressure,

the generating of the control instruction of the target oxygen inhalation cabin according to the information of the person to be inhaled and the data of the demand for oxygen inhalation comprises the following steps:

determining clothing thickness data and age data of the person to be oxygen inhaled in the target oxygen inhalation cabin according to the information of the person to be oxygen inhaled;

selecting a corresponding temperature value from a preset temperature setting table according to the clothes thickness data and the age data;

generating a temperature control instruction of the target oxygen inhalation cabin according to the temperature value;

obtaining oxygen inhalation time, oxygen concentration and air pressure according to the data of the demand for oxygen inhalation, and generating a working time control instruction, an oxygen valve control instruction and an air pressure valve control instruction of the target oxygen inhalation cabin according to the oxygen inhalation time, the oxygen concentration and the air pressure;

and obtaining a control instruction of the target oxygen inhalation cabin according to the temperature control instruction, the working time control instruction, the oxygen valve control instruction and the air pressure valve control instruction.

6. The method of controlling an oxygen inhalation chamber of claim 1, further comprising:

and when the payment is not finished, generating prompt information, wherein the prompt information is used for prompting the person waiting for oxygen inhalation to pay.

7. A control system of an oxygen inhalation cabin is characterized by comprising:

the system comprises a store management center and store oxygen uptake cabins, wherein each store oxygen uptake cabin comprises a plurality of independent oxygen uptake cabins;

each oxygen inhalation cabin is provided with an oxygen inhalation cabin controller;

the store management center is connected with the oxygen uptake cabin controller of each oxygen uptake cabin and is used for executing the control method of the oxygen uptake cabin of any one of the preceding claims 1-6.

8. A computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, carries out a method of controlling an oxygen inhalation chamber according to any one of claims 1 to 6.

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