CN116036333A - Control system and control method for disinfection cabinet - Google Patents

Abstract

The application discloses a disinfection cabinet control system and a control method thereof, wherein the system comprises: the man-machine interaction module is used for receiving interaction instructions input by a user; the environment detection module is used for detecting environment parameters in the disinfection cabinet, and comprises at least one of a humidity sensor, a temperature sensor and a UV sensor; a working assembly comprising at least one ultraviolet lamp, at least one heating module, at least one fan; and the control module is configured to receive the interaction instruction of the man-machine interaction module and control the working assembly to work according to the interaction instruction. The disinfection cabinet control system has the functions of sterilization, disinfection and heating and drying, comprehensive and complex operation is realized under a single man-machine interaction module, the operation logic is stronger, and convenience is brought to user operation.

Description

Control system and control method for disinfection cabinet

Technical Field

The present disclosure relates generally to the field of sterilizer control technology, and in particular, to a sterilizer control system and control method.

Background

The sterilizing cabinet is a tool for drying, sterilizing, preserving heat and dehumidifying articles such as tableware, towels, clothes, hairdressing and beauty appliances and medical instruments in a mode of ultraviolet rays, far laser rays, high temperature, ozone and the like, the appearance of the sterilizing cabinet is generally cabinet-shaped, most of the cabinet body is made of stainless steel, and the panel is made of toughened glass or stainless steel.

The sterilizing cabinet has multiple comprehensive functions, various types of sterilizable articles, and different sterilization parameters because each article has different tolerance degrees to temperature, ultraviolet irradiation intensity and time. There is a need to design an intelligent and compact control system for a disinfection cabinet.

Disclosure of Invention

In view of the foregoing drawbacks or shortcomings of the prior art, it is desirable to provide a sterilizer control system and control method.

First aspect the present application provides a sterilizer control system comprising:

the man-machine interaction module is used for receiving interaction instructions input by a user;

the environment detection module is used for detecting environment parameters in the disinfection cabinet, and comprises at least one of a humidity sensor, a temperature sensor and a UV sensor;

a working assembly comprising at least one ultraviolet lamp, at least one heating module, at least one fan;

and the control module is configured to receive the interaction instruction of the man-machine interaction module and control the working assembly to work according to the interaction instruction.

According to the technical scheme provided by the embodiment of the application, the terminal comprises a communication module, wherein the communication module is configured to be connected with a terminal signal so as to receive a control instruction sent by the terminal; the control module is configured to control the working assembly to work according to the control instruction.

According to the technical scheme provided by the embodiment of the application, the man-machine interaction module has at least two action modes, including:

the touch control display screen is used for displaying the working mode and/or working parameters and/or environment parameters of the disinfection cabinet and/or receiving an adjusting instruction input by a user;

the action component is used for responding to the external force action of the user and executing the action; each of the action modes is performed by a corresponding action component;

the action detection sensor is used for detecting trigger actions and/or action positions of the action components in different action modes;

the control module is further configured to: controlling the working assembly to work according to the operation of a user on the touch display screen and/or the action detection parameters of the action detection sensor, and controlling the touch display screen to display the working mode and/or the working parameters;

the control module is also configured to control the touch display screen to display the environmental parameters according to the detection data of the environmental detection module.

According to the technical scheme provided by the embodiment of the application, the action mode of the man-machine interaction module comprises at least two of a rotation mode, a pressing mode and a sliding mode; the motion detection sensor applied to the rotation mode is an angle encoder, the motion detection sensor applied to the pressing mode is a pressing switch, and the motion detection sensor applied to the sliding mode is a distance sensor or a pressing switch.

According to the technical scheme provided by the embodiment of the application, the working modes of the disinfection cabinet comprise an ultraviolet sterilization mode, a high-temperature drying mode, a low-temperature drying mode, an intelligent storage mode and an exhaust mode; the control module is configured to:

when an interaction instruction of the man-machine interaction module enters an ultraviolet sterilization mode, starting the ultraviolet lamp to work for a first set period of time according to the set intensity;

when the high-temperature drying mode is entered according to the interaction instruction of the man-machine interaction module, starting the heating module and the fan to work for a second set time according to a high-temperature program;

when the low-temperature drying mode is entered according to the interaction instruction of the man-machine interaction module, starting the heating module and the fan to work for a third set time according to a low-temperature program;

and when the intelligent storage mode is entered according to the interaction instruction of the man-machine interaction module, the ultraviolet sterilization mode, the low-temperature drying mode and the exhaust mode are alternately and circularly started to continuously work for a fourth set duration. According to the technical scheme provided by the embodiment of the application, the fans comprise an air inlet fan and an air outlet fan, and the number k of the heating modules is more than or equal to 2; the control module is configured to control the heating module and the fan to operate according to the following high temperature program:

starting m heating modules to work simultaneously, wherein 1<m is less than or equal to k;

starting an air inlet fan to run at a full rotation speed;

the method comprises the steps that when the signal of a receiving temperature sensor judges that the temperature in a cabinet is larger than or equal to a first set temperature or the signal of a surface temperature sensor arranged on the surface of a heating module judges that the surface temperature is larger than or equal to a second set temperature, an air outlet fan is started;

when the temperature in the cabinet is judged to be smaller than the third set temperature, the air outlet fan is turned off;

when the high-temperature drying mode is judged to be longer than a fifth set time, starting the air outlet fan to work for a sixth set time;

the control module is configured to control the heating module and the fan to operate according to the following low temperature program:

starting n heating modules to work simultaneously, wherein n is more than or equal to 1 and less than m;

starting an air inlet fan to run according to a set proportion of full rotation speed, wherein the set proportion is smaller than 1;

when the signal of the receiving temperature sensor judges that the temperature in the cabinet is more than or equal to the fourth set temperature or when the signal of the receiving surface temperature sensor arranged on the surface of the heating module judges that the surface temperature is more than or equal to the fifth set temperature, the air outlet fan is started;

when the temperature in the cabinet is judged to be smaller than the sixth set temperature, the air outlet fan is turned off;

and when the low-temperature drying mode is judged to be longer than the fifth set time, starting the air outlet fan to work for the sixth set time.

According to the technical scheme provided by the embodiment of the application, the disinfection cabinet is internally provided with the placed articles, and the control system further comprises:

the image acquisition device is arranged outside the disinfection cabinet and is used for acquiring the label image of the fabric component;

the control module is further configured to:

identifying the text information in the fabric component label image through a character identification system;

extracting fabric component information from the identified text information;

extracting working parameters corresponding to the fabric component information from a fabric working parameter database according to the fabric component information; the fabric working parameter database stores the working parameters corresponding to the fabric component information and different working modes, wherein the working parameters comprise sterilization intensity information, sterilization duration information, drying temperature information and drying duration information;

and starting the working assembly to work according to the working parameters corresponding to the fabric components according to the interaction information obtained from the man-machine interaction module.

A second aspect the present application provides a method of controlling a disinfection cabinet, the action assembly comprising a first action assembly having different action positions corresponding to the number of modes of operation of the disinfection cabinet; the method comprises the following steps:

after a power supply of the disinfection cabinet is started for a first set period of time, controlling a touch control display screen to display a working mode corresponding to the action position of the first action assembly;

after receiving first action position information detected by a first action detection sensor after a user drives a first action assembly to act, the first action position information is the action position information of the first action assembly;

determining a corresponding working mode according to the first action position information, and displaying the determined working mode on a touch display screen;

after receiving a confirmation instruction sent by a user through the touch display screen or defaulting to a seventh set duration, controlling the working assembly to start working, and displaying a current working mode and set working parameters in the current working mode on the touch display screen;

after the working assembly starts working, receiving first action position information detected by a first action detection sensor, and adjusting and determining a set working parameter in a working mode according to the detected first action position information to obtain an adjusted working parameter;

starting the working assembly to work according to the set working parameters or the adjusted working parameters in the determined working mode;

receiving detection information of an environment detection module, and alternately displaying environment parameters in the disinfection cabinet on a touch display screen; the environmental parameters include humidity, temperature, UV intensity.

According to the technical scheme provided by the embodiment of the application, the action assembly comprises a second action assembly, and the second action assembly has a default working state and a trigger working state; the method further comprises the steps of:

after receiving the action of triggering the second action assembly by the user, receiving triggering working state information detected by a second action detection sensor;

displaying a confirmation frame for ending the work on the touch display screen, so that a user can select to exit or not exit in the confirmation frame by driving the first action component to act;

controlling a working assembly in a current working mode to stop working according to the exit selection;

continuing the current working mode according to the non-exit selection;

when the set time length in the current working mode is judged to reach the set time length, the working assembly in the current working mode is controlled to stop working, and the buzzer and/or the indicator lamp are controlled to flash.

According to the technical scheme provided by the embodiment of the application, a corresponding working mode is determined according to the first action position information, and the step of displaying the determined working mode on the touch display screen is further included;

identifying the text information in the fabric component label image through a character identification system; before a user puts the disinfected fabric into the disinfection cabinet, the fabric component label image is acquired by the image acquisition device when the component label of the fabric is close to the image acquisition device;

extracting fabric component information from the identified text information;

extracting working parameters corresponding to the fabric component information from a fabric working parameter database according to the fabric component information; the fabric working parameter database stores the working parameters corresponding to the fabric component information and different working modes, wherein the working parameters comprise sterilization intensity information, sterilization duration information, drying temperature information and drying duration information;

and taking the extracted working parameters as the set working parameters in the current working mode.

In the technical scheme of this application, through providing a sterilizer control system, through setting up ultraviolet lamp and heating module in the sterilizer for the sterilizer control system of this application has the function of disinfection and heating stoving simultaneously.

According to the technical scheme provided by the embodiment of the application, the touch display screen is arranged on the interaction module for human-computer interaction, so that the human-computer interaction module has at least two action modes, comprehensive complex operation is realized under a single human-computer interaction module, the operation logic is stronger, and convenience is brought to user operation.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 is a schematic block diagram of embodiment 1 of the present application;

fig. 2 is a schematic structural view of the sterilizer applied in embodiment 1;

FIG. 3 is a flow chart of the high temperature drying procedure in embodiment 1 of the present application;

FIG. 4 is a flow chart of the low temperature drying procedure in embodiment 1 of the present application;

fig. 5 is an exploded view of the man-machine interaction module in embodiment 1 of the present application;

fig. 6 is a schematic diagram of a cross-sectional structure of a man-machine interaction module in embodiment 1 of the present application;

FIG. 7 is a schematic structural view of a third actuating assembly in embodiment 1 of the present application;

FIG. 8 is a schematic diagram of a first interaction mode in embodiment 2 of the present application;

FIG. 9 is a schematic diagram of a second interaction mode in embodiment 2 of the present application;

FIG. 10 is a schematic diagram of a second interaction mode in embodiment 2 of the present application;

FIG. 11 is a schematic diagram of a second interaction mode in embodiment 2 of the present application;

FIG. 12 is a schematic diagram of a second interaction mode in embodiment 2 of the present application;

FIG. 13 is a flow chart of example 3 of the present application;

10. a man-machine interaction module; 20. an environment detection module; 30. a working assembly; 31a, ultraviolet lamp beads; 31b, an ultraviolet lamp tube; 32. a heating module; 33a, an air intake fan; 33b, an air outlet fan; 40. a control module; 71. a cabinet door; 70. a cabinet body; 50. a communication module; 11. a touch display screen; 12. a circuit board; 13. an encoder; 15. a rotating wheel; 14. installing a cavity; 16. a mounting member; 17. a micro-switch; 15-1, a mounting groove; 81. a protective shell; 73. a chute; 82. a laser ranging sensor; 75. and (5) observing the window.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the invention are shown in the drawings.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

Referring to fig. 1, the present embodiment provides a control system for a disinfection cabinet, including:

the man-machine interaction module 10 is used for receiving interaction instructions input by a user;

an environment detection module 20 for detecting environmental parameters in the disinfection cabinet, including at least one of a humidity sensor, a temperature sensor, and a UV sensor;

a working assembly 30 comprising at least one ultraviolet lamp, at least one heating module 32, at least one fan (33 a,33 b);

the control module 40 is configured to receive the interaction instruction of the man-machine interaction module 10 and control the working assembly 30 to work according to the interaction instruction.

In some embodiments of the present application, the control module 40 is composed of a control circuit formed by a microprocessor with a single-chip microcomputer or an ARM processor as a core; the humidity sensor is a humidity sensor SHT30, is arranged on the inner wall of the disinfection cabinet and is used for detecting the humidity of the working environment in the disinfection cabinet; the model of the temperature sensor is an NTC thermistor 3950; the device is arranged on the inner wall of the disinfection cabinet and is used for detecting the temperature of the working environment in the disinfection cabinet; the temperature sensor in the application also comprises a temperature sensor for detecting the surface temperature of the heating module, and the model is RH130 ℃/15A; the model of the UV sensor is TSL250R-LF; it is installed on the inner wall of the disinfection cabinet and is not blocked by the articles. The setting of the sensor enriches the diversity of environmental parameter collection in the disinfection cabinet, and the collection parameters display the environmental parameters through the touch display screen arranged on the man-machine interaction module 10, so that a user can conveniently check various environmental parameters in the disinfection cabinet.

As shown in fig. 2, the control system of the present embodiment is applied to a sterilizing cabinet structure in which the man-machine interaction module 10 is provided on a cabinet door 71.

The ultraviolet lamp comprises an ultraviolet lamp tube 31b and ultraviolet lamp beads 31a, the ultraviolet lamp tube 31b is located at the top of the sterilizing cabinet cavity 74, and the ultraviolet lamp beads 31a are arranged corresponding to each layer of storage rack 76, so that articles on each layer of storage rack can be sterilized.

The ultraviolet lamp beads 31a are arranged above the supporting carrier of each layer of commodity shelf; wherein, in the present embodiment, the shelf 76 is provided with multiple layers, and is slidably installed in the disinfection cabinet along a first direction, wherein the first direction is a direction perpendicular to the plane of the cabinet door; wherein the ultraviolet lamp beads 31a are arranged below the sliding rail of the commodity shelf 76 and are used for sterilizing the commodity on the commodity shelf 76 below. The ultraviolet rays can be divided into UVA, UVB and UVC according to the wavelength, most of bacteria on the surface of an object can be effectively killed by the UVC, but the ultraviolet rays have the defect of poor penetrability due to the influence of the wavelength, so that the penetrability cannot be improved by increasing the light dose singly, and the material of the object can be damaged by the light dose which is too high; therefore, in this embodiment, the ultraviolet lamps are disposed above each layer of shelf 76, so that the uniformity of the light distribution of the UVC on the object surface is increased on the premise of ensuring reasonable illumination intensity, and thus the sterilization efficiency of the UVC is effectively improved.

The ultraviolet lamp comprises an ultraviolet lamp tube and ultraviolet lamp beads, the ultraviolet lamp tube is located at the top of the disinfection cabinet, and the ultraviolet lamp beads are arranged corresponding to each layer of storage rack, so that objects on each layer of storage rack can be disinfected. The cabinet door 71 is also provided with a viewing window 75.

In some embodiments of the present application, as shown in fig. 1, the control system further includes a communication module 50, where the communication module 50 is configured to be in signal connection with a terminal to receive a control instruction sent by the terminal; the control module 40 is configured to control the working assembly to work according to the control instruction. The communication module may be a mobile communication module (e.g. a 4G communication module, a 5G communication module) or a short-range communication module (e.g. a WIFI communication module, a bluetooth communication module or a zigbee communication module). The communication module is arranged, so that a user can remotely control the sterilizing cabinet through a terminal (such as a mobile phone, a computer or a PAD).

In some embodiments of the present application, the human-machine interaction module 10 has a plurality of motion modes, at least two motion modes, wherein the motion modes include a rotation mode, a pressing mode, and a sliding mode. Specifically, the man-machine interaction module 10 includes:

1. the touch display screen 11 is used for displaying the working mode and/or working parameters and/or environmental parameters of the disinfection cabinet and/or receiving the adjustment instruction input by a user; the working modes can comprise an ultraviolet sterilization mode, a high-temperature drying mode, a low-temperature drying mode, an intelligent storage mode and an exhaust mode; the control module 40 is configured to:

a. when an interaction instruction of the man-machine interaction module enters an ultraviolet sterilization mode, starting the ultraviolet lamp to work for a first set period of time according to the set intensity; the set intensity may be, for example, an operating intensity of the ultraviolet lamp when operating at a rated operating current; the intensity can also be set by the user through the man-machine interaction module. The first set period of time is, for example, 20 minutes.

b. When the high-temperature drying mode is entered according to the interaction instruction of the man-machine interaction module, starting the heating module and the fan to work for a second set time according to a high-temperature program; the second set period of time is, for example, 30 minutes;

in some embodiments of the present application, the fans include an air inlet fan 33a and an air outlet fan 33b, and the number k of the heating modules is greater than or equal to 2; as shown in fig. 3, the control module is configured to control the heating module and fan to operate according to the following high temperature program:

s11, when the current working mode is judged to be a high-temperature drying mode, starting m heating modules to work simultaneously, wherein 1<m is less than or equal to k; for example, in the present embodiment, k=2, then m=2; wherein the heating module is a PTC module which is composed of ceramic sheets wrapped by aluminum foil;

s12, starting the air inlet fan to run at the full rotation speed;

s13, receiving signals of a temperature sensor to judge that the temperature in the cabinet is larger than or equal to a first set temperature, or receiving signals of a surface temperature sensor arranged on the surface of the heating module to judge that the surface temperature is larger than or equal to a second set temperature, and starting an air outlet fan; the first set temperature is 60 ℃, and the second set temperature is 100 ℃;

s14, when the temperature in the cabinet is judged to be smaller than the third set temperature, the air outlet fan is turned off; the third set temperature is 60 degrees celsius.

And S15, when the high-temperature drying mode is judged to be continuously set to be longer than a fifth set time, starting the air outlet fan to work for a sixth set time. The fifth set period of time is 30 minutes, and the sixth set period of time is 2 minutes.

c. When the low-temperature drying mode is entered according to the interaction instruction of the man-machine interaction module, starting the heating module and the fan to work for a third set time according to a low-temperature program; the third set period of time is, for example, 40 minutes; as shown in fig. 4, the control module is configured to control the heating module and fan to operate according to the following low temperature program:

s21, starting n heating modules to work simultaneously, wherein n is more than or equal to 1 and less than or equal to m; in this embodiment n=1.

S22, starting an air inlet fan to run according to a set proportion of full rotation speed, wherein the set proportion is smaller than 1; in this embodiment, the set ratio is equal to 0.7;

s23, when the signal of the receiving temperature sensor judges that the temperature in the cabinet is more than or equal to a fourth set temperature or when the signal of the receiving surface temperature sensor arranged on the surface of the heating module judges that the surface temperature is more than or equal to a fifth set temperature, starting an air outlet fan; in this embodiment, the fourth set temperature is 40 degrees celsius and the fifth set temperature is 80 degrees celsius;

s24, when the temperature in the cabinet is judged to be smaller than the sixth set temperature, the air outlet fan is turned off; the sixth set temperature is 40 ℃;

and S25, when the low-temperature drying mode is judged to be continuously set to be longer than a fifth set time, starting the air outlet fan to work for a sixth set time. The fifth set period of time is 30 minutes, and the sixth set period of time is 2 minutes.

d. And when the intelligent storage mode is entered according to the interaction instruction of the man-machine interaction module, the ultraviolet sterilization mode, the low-temperature drying mode and the exhaust mode are alternately and circularly started to continuously work for a fourth set duration. The fourth set period is, for example, 20 days; in the working period, each mode works for 30 minutes and is alternately and circularly carried out; in the exhaust mode, only the air inlet fan works.

When the number k of the heating modules is equal to 2, the two working modes, namely the high-temperature drying mode and the low-temperature drying mode, can be realized, and when k is more than or equal to 3, the temperature drying modes with multiple levels can be realized. For example, when k is equal to 3, 3 heating modules are started to realize a high-temperature drying mode, 2 heating modules are started to realize a medium-temperature drying mode, and one heating module is started to realize a low-temperature drying mode.

2. The action component is used for responding to the external force action of the user and executing the action; each of the action modes is performed by a corresponding action component; in this embodiment, the man-machine interaction module has two action modes, namely a rotation mode and a pressing mode: for example, the action component for realizing the rotation action is a first action component, and the action component for realizing the pressing action is a second action component; the first action component is implemented specifically by the following structure, as shown in fig. 5 and 6:

a circuit board 12 mounted on a cabinet door or cabinet body of the disinfection cabinet, and an encoder 13 rotatably mounted perpendicular to the surface of the circuit board 12, wherein the encoder 13 is provided with a hollow mounting cavity 14; wherein the encoder model is for example EC35.

The rotating wheel 15 is sleeved and fixed with the encoder 13;

the touch display 11 is located at a side of the rotating wheel 15 away from the circuit board 12, and is fixed on the circuit board 12 by a mounting member 16 penetrating through the mounting cavity 14.

When the rotating wheel is rotated, the encoder 13 is driven to rotate, and the encoder transmits the rotation angle to the control module 40. The angle of rotation of the encoder identifies the actuation position of the first actuation assembly.

The second action component is realized, for example, specifically by the following structure:

the circuit board 12 is provided with a mounting cavity, and the mounting part is provided with a mounting cavity which is provided with a pressing part which penetrates into the mounting cavity and is contacted with the micro switch; the mounting piece is connected with the circuit board through an elastic piece; the mounting member is movable within the mounting cavity along an axial direction of the mounting cavity. The microswitch 17 is, for example, of the ohm-dragon microswitch Z-15GQ-B type.

One side of the rotating wheel 15 far away from the circuit board 12 is provided with a disc-shaped mounting groove 15-1, and the touch display screen 11 is arranged in the mounting groove 15-1.

3. The action detection sensor is used for detecting trigger actions and/or action positions of the action components in different action modes; for example, the first motion component corresponds to the motion detection sensor which is an encoder; the second motion component, the corresponding motion detection sensor is a micro switch 17;

the control module 40 is further configured to: controlling the working assembly to work according to the operation of a user on the touch display screen 11 and/or the action detection parameters of the action detection sensor, and controlling the touch display screen 11 to display the working mode and/or the working parameters;

the working parameters corresponding to the ultraviolet sterilization mode include ultraviolet lamp intensity, set working time length and residual working time length;

the working parameters corresponding to the high-temperature drying mode include set working time, residual working time, temperature information and humidity information;

the working parameters corresponding to the low-temperature drying mode comprise set working time, residual working time, temperature information and humidity information;

the working parameters corresponding to the intelligent storage mode comprise set working time, residual working time, temperature information, humidity information and ultraviolet lamp intensity;

the control module is used for controlling the touch display screen to display the environmental parameters according to the detection data of the environmental detection module. The set working time length is obtained by a storage set value in a corresponding storage mode or is obtained by a user through input through a touch display screen in the corresponding working mode.

In some embodiments, the action mode of the man-machine interaction module may also be a third action component, as shown in fig. 7, where the specific third action component includes:

a circuit board 12 having the second operation unit mounted on a surface thereof; the edge of the circuit board 12 is wrapped by a protective case 81;

a sliding groove 73 is arranged on the cabinet body 70 or the cabinet door of the disinfection cabinet; a protective shell 81 is inserted into the chute and can slide in the chute 73;

the side of the protective shell is provided with a laser ranging sensor 82, and the model of the laser ranging sensor is SW-LDS50A; the distance between the edge of the protective shell and the side edge of the chute is detected; the different sliding positions of the protective shell in the sliding groove are used as the action position state of the third action assembly.

In this embodiment, at least two groups of action components and touch control display screen combine as man-machine interaction module for in the sterilizer control system that this application provided, can realize the comprehensive output of many instructions through an integrative module, the input control of multidimension degree, make complicated instruction input have more clear control logic, provide convenience for user operation.

Example 2

Corresponding to embodiment 1, this embodiment provides a control method of a disinfection cabinet, taking the case that the action assembly in embodiment 1 includes a first action assembly and a second action assembly as an example, where the action assembly includes the first action assembly, and the first action assembly has different action positions corresponding to the number of working modes of the disinfection cabinet; the method provided by the embodiment specifically comprises the following steps:

s301, after a power supply of the disinfection cabinet is started for a first set time period, the first set time period is 2S; when the power supply of the disinfection cabinet is started, a welcome interface is preliminarily displayed on the touch control display screen, and a working mode corresponding to the action position of the first action assembly is displayed after 2 seconds, such as ultraviolet sterilization; for example, the encoder can respectively detect 4 first action position information corresponding to four rotation positions 4 of the rotating wheel in the first action assembly, and the four first action position information respectively corresponds to an ultraviolet sterilization mode, a high-temperature drying mode, a low-temperature drying mode and an intelligent storage mode;

s301, receiving first action position information detected by a first action detection sensor after a user drives a first action assembly to act, wherein the first action position information is the action position information of the first action assembly; in this embodiment, the first motion position information corresponds to angle information of the encoder; for example, the ultraviolet sterilization mode corresponds to 0 degree, the high temperature drying mode corresponds to 45 degrees, the low temperature drying mode corresponds to 90 degrees, and the intelligent storage mode corresponds to 135 degrees. Thus, as shown in FIG. 8, a user may choose between four modes of operation by rotating the wheel to issue an interactive command.

S302, determining a corresponding working mode according to the first action position information, and displaying the determined working mode on a touch display screen; for example, the user rotates the rotating wheel to enable the first action position information to correspond to a high-temperature drying mode, and then the high-temperature drying mode is displayed on the touch display screen;

s302, after receiving a confirmation instruction or a default seventh set duration sent by a user through the touch display screen 11, controlling the working assembly to start working, and displaying a current working mode and set working parameters in the current working mode on the touch display screen; the seventh set period is, for example, 3s; the touch control display screen 11 can synchronously display a confirmation touch button when the first action component acts, and after a user rotates the rotating wheel to select a working mode, the confirmation touch button is clicked to enable the disinfection cabinet to enter the working mode for working; when the user does not trigger the 'confirm' touch button, defaulting to enter the working mode to work within 3s after the first action component stops acting;

the confirmation button can be arranged in a hidden mode, namely, the operation of clicking the screen by a user is detected, and the working assembly can be controlled to start working.

S302, after the working assembly starts working, receiving first action position information detected by a first action detection sensor, and adjusting and determining a set working parameter in a working mode according to the detected first action position information to obtain an adjusted working parameter; that is, after the disinfection cabinet enters into the working mode selected by the user, when the touch display screen displays the working parameters, the working parameters can be further set through the first action component, for example, the working time is set to be 30min in the current working mode, the disinfection cabinet can be adjusted to 20min by rotating the rotating wheel, and then the working parameters are enabled to be effective after clicking the screen or waiting for 3 s. Thus, as shown in fig. 9, the user may implement modification of the operating parameters by clicking on the screen to issue an interactive command.

S303, starting the working assembly to work according to the set working parameters or the adjustment working parameters in the determined working mode;

s304, receiving detection information of the environment detection module, and alternately displaying environment parameters in the disinfection cabinet on the touch display screen; the environmental parameters include humidity, temperature, UV intensity. For example, when the current operation mode is the "low temperature drying mode", as shown in fig. 10, the "remaining operation time" and the "temperature information" are alternately displayed on the touch display screen.

The action assembly comprises a second action assembly, wherein the second action assembly has a default working state and a trigger working state; the method further comprises the steps of:

s305, after the user triggers the second action assembly to act, receiving triggering working state information detected by a second action detection sensor; triggering of the micro switch 17 is realized by a user pressing the touch display screen to drive the fixed component to move along the direction vertical to the circuit board; then, as shown in fig. 11, the user can select the temporary disinfection cabinet to work currently by pressing the touch display screen to drive the fixing component to trigger the micro switch 17.

S306, displaying a confirmation frame for ending the work on the touch display screen, so that a user can select to exit or not exit in the confirmation frame by driving the first action component to act; once the micro switch is triggered, displaying a confirmation frame for ending the work on the touch display screen; the touch display screen is provided with a 'Yes' selection touch button and a 'No' selection touch button; the user can realize the selection between the two touch buttons by rotating the rotating wheel; and confirms the selection by clicking the touch screen.

S307, controlling the working assembly in the current working mode to stop working according to the exit selection; the user selects a 'yes' selection touch button to stop supplying power to the heating module;

s308, continuing the current working mode according to the non-exit selection; selecting a 'no' selection touch button by a user, and continuing the current 'low-temperature drying mode', so that the corresponding working assembly works according to the set parameters;

and S309, when the set time length in the current working mode is judged to reach the set time length, the working assembly in the current working mode is controlled to stop working, and the buzzer 72 and/or the indicator light 71 are controlled to flash. For example, when the current set time of the "low temperature drying mode" is 30min, as shown in fig. 12, when the countdown time is up, the buzzer and/or the indicator lamp are controlled to flash so as to remind the user that the work is completed.

According to the technical scheme provided by the embodiment, the combined use of the first action component, the second action component and the touch display screen in the scheme is described in detail, comprehensive and complex operation is realized under a single man-machine interaction module, the operation logic is stronger, and the use and understanding of a user are facilitated.

Example 3

The present embodiment further includes, on the basis of embodiment 1:

the image acquisition device is arranged outside the disinfection cabinet and is used for acquiring the label image of the fabric component; the image acquisition device is a camera;

as shown in fig. 13, the control module 40 is further configured to:

s401, acquiring the latest image acquired by the image acquisition device 60;

s402, recognizing character information in the fabric component label image through a character recognition system; the character recognition system is a recognition module designed based on a convolutional neural network module, a training image set is obtained by shooting a plurality of fabric labels, and characters of fabric components in the labels in the training image set are marked and then input into the recognition module, so that the character recognition system can accurately recognize the character information in the fabric labels, particularly the character information about the fabric;

s403, extracting fabric component information from the identified text information; for example, the character recognition system recognizes that the text information in the fabric component label image is "component: 55% flax and 45% cotton, and the extracted fabric component information is flax cotton.

S404, extracting working parameters corresponding to the fabric component information from a fabric working parameter database according to the fabric component information; the fabric working parameter database stores the working parameters corresponding to the fabric component information and different working modes, wherein the working parameters comprise sterilization intensity information, sterilization duration information, drying temperature information and drying duration information;

the fabric operating parameter database is shown in table 1 below, for example:

table 1 fabric working parameter database

Assuming that the man-machine interaction module in embodiment 2 confirms that the working mode currently selected by the user is the "high temperature drying mode", the working parameters corresponding to the fabric component information being "linen cotton" and corresponding to the "high temperature drying mode" are queried from the above table 1, and the working time period is set to 25min respectively for the "first set temperature=70 min".

The variety of fabric is very numerous, and the user will be very difficult through remedying the operating parameter that different fabric compositions correspond, and the technical scheme of this application provides intelligent parameter setting scheme for the user for the different disinfections and the disinfection to different fabrics all can accomplish intelligent and targeted disinfections and stoving, thereby have protected different fabrics, have further brought the facility for the user.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the invention referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the invention. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (10)

1. A sterilizer control system, comprising:

the man-machine interaction module is used for receiving interaction instructions input by a user;

the environment detection module is used for detecting environment parameters in the disinfection cabinet, and comprises at least one of a humidity sensor, a temperature sensor and a UV sensor;

a working assembly comprising at least one ultraviolet lamp, at least one heating module, at least one fan;

and the control module is configured to receive the interaction instruction of the man-machine interaction module and control the working assembly to work according to the interaction instruction.

2. The decontamination cabinet control system of claim 1, further comprising a communication module configured to be in signal connection with a terminal to receive control instructions sent by the terminal; the control module is configured to control the working assembly to work according to the control instruction.

3. A sterilizer control system according to claim 1, wherein the human-machine interaction module has at least two modes of action, including:

the touch control display screen is used for displaying the working mode and/or working parameters and/or environment parameters of the disinfection cabinet and/or receiving an adjusting instruction input by a user;

the action component is used for responding to the external force action of the user and executing the action; each of the action modes is performed by a corresponding action component;

the action detection sensor is used for detecting trigger actions and/or action positions of the action components in different action modes;

the control module is further configured to: controlling the working assembly to work according to the operation of a user on the touch display screen and/or the action detection parameters of the action detection sensor, and controlling the touch display screen to display the working mode and/or the working parameters;

the control module is also configured to control the touch display screen to display the environmental parameters according to the detection data of the environmental detection module.

4. A sterilizer control system according to claim 3, wherein the action mode of the human-machine interaction module includes at least two of a rotation mode, a pressing mode and a sliding mode; the motion detection sensor applied to the rotation mode is an angle encoder, the motion detection sensor applied to the pressing mode is a pressing switch, and the motion detection sensor applied to the sliding mode is a distance sensor or a pressing switch.

5. The sterilizer control system of claim 1, wherein the sterilizer operating modes include an ultraviolet sterilization mode, a high temperature drying mode, a low temperature drying mode, an intelligent storage mode, and an exhaust mode; the control module is configured to:

when an interaction instruction of the man-machine interaction module enters an ultraviolet sterilization mode, starting the ultraviolet lamp to work for a first set period of time according to the set intensity;

when the high-temperature drying mode is entered according to the interaction instruction of the man-machine interaction module, starting the heating module and the fan to work for a second set time according to a high-temperature program;

when the low-temperature drying mode is entered according to the interaction instruction of the man-machine interaction module, starting the heating module and the fan to work for a third set time according to a low-temperature program;

and when the intelligent storage mode is entered according to the interaction instruction of the man-machine interaction module, the ultraviolet sterilization mode, the low-temperature drying mode and the exhaust mode are alternately and circularly started to continuously work for a fourth set duration.

6. The decontamination cabinet control system of claim 5, wherein the fans comprise an air intake fan and an air outlet fan, and the number k of heating modules is greater than or equal to 2; the control module is configured to control the heating module and the fan to operate according to the following high temperature program:

starting m heating modules to work simultaneously, wherein 1<m is less than or equal to k;

starting an air inlet fan to run at a full rotation speed;

the method comprises the steps that when the signal of a receiving temperature sensor judges that the temperature in a cabinet is larger than or equal to a first set temperature or the signal of a surface temperature sensor arranged on the surface of a heating module judges that the surface temperature is larger than or equal to a second set temperature, an air outlet fan is started;

when the temperature in the cabinet is judged to be smaller than the third set temperature, the air outlet fan is turned off;

when the high-temperature drying mode is judged to be longer than a fifth set time, starting the air outlet fan to work for a sixth set time;

the control module is configured to control the heating module and the fan to operate according to the following low temperature program:

starting n heating modules to work simultaneously, wherein n is more than or equal to 1 and less than m;

starting an air inlet fan to run according to a set proportion of full rotation speed, wherein the set proportion is smaller than 1;

when the signal of the receiving temperature sensor judges that the temperature in the cabinet is more than or equal to the fourth set temperature or when the signal of the receiving surface temperature sensor arranged on the surface of the heating module judges that the surface temperature is more than or equal to the fifth set temperature, the air outlet fan is started;

when the temperature in the cabinet is judged to be smaller than the sixth set temperature, the air outlet fan is turned off;

and when the low-temperature drying mode is judged to be longer than the fifth set time, starting the air outlet fan to work for the sixth set time.

7. A control system for a disinfection cabinet according to any one of claims 1-6, wherein said control system for placing articles in said disinfection cabinet further comprises:

the image acquisition device is arranged outside the disinfection cabinet and is used for acquiring the label image of the fabric component;

the control module is further configured to:

identifying the text information in the fabric component label image through a character identification system;

extracting fabric component information from the identified text information;

extracting working parameters corresponding to the fabric component information from a fabric working parameter database according to the fabric component information; the fabric working parameter database stores the working parameters corresponding to the fabric component information and different working modes, wherein the working parameters comprise sterilization intensity information, sterilization duration information, drying temperature information and drying duration information;

and starting the working assembly to work according to the working parameters corresponding to the fabric components according to the interaction information obtained from the man-machine interaction module.

8. A control method applied to the control system of a disinfection cabinet according to any one of claims 1-7, characterized in that when the control system has the structure according to any one of claims 3-7, the action assembly comprises a first action assembly having different action positions corresponding to the number of operation modes of the disinfection cabinet; the method comprises the following steps:

after a power supply of the disinfection cabinet is started for a first set period of time, controlling a touch control display screen to display a working mode corresponding to the action position of the first action assembly;

after receiving first action position information detected by a first action detection sensor after a user drives a first action assembly to act, the first action position information is the action position information of the first action assembly;

determining a corresponding working mode according to the first action position information, and displaying the determined working mode on a touch display screen;

after receiving a confirmation instruction sent by a user through the touch display screen or defaulting to a seventh set duration, controlling the working assembly to start working, and displaying a current working mode and set working parameters in the current working mode on the touch display screen;

after the working assembly starts working, receiving first action position information detected by a first action detection sensor, and adjusting and determining a set working parameter in a working mode according to the detected first action position information to obtain an adjusted working parameter;

starting the working assembly to work according to the set working parameters or the adjusted working parameters in the determined working mode;

receiving detection information of an environment detection module, and alternately displaying environment parameters in the disinfection cabinet on a touch display screen; the environmental parameters include humidity, temperature, UV intensity.

9. The control method of claim 8, wherein the action assembly comprises a second action assembly having a default operating state and a trigger operating state; the method further comprises the steps of:

after the user triggers the second action assembly to act, receiving triggering working state information detected by a second action detection sensor;

displaying a confirmation frame for ending the work on the touch display screen, so that a user can select to exit or not exit in the confirmation frame by driving the first action component to act;

controlling a working assembly in a current working mode to stop working according to the exit selection;

continuing the current working mode according to the non-exit selection;

when the set time length in the current working mode is judged to reach the set time length, the working assembly in the current working mode is controlled to stop working, and the buzzer and/or the indicator lamp are controlled to flash.

10. The control method according to claim 8 or 9, characterized in that,

determining a corresponding working mode according to the first action position information, and displaying the determined working mode on a touch display screen;

identifying the text information in the fabric component label image through a character identification system; before a user puts the disinfected fabric into the disinfection cabinet, the fabric component label image is acquired by the image acquisition device when the component label of the fabric is close to the image acquisition device;

extracting fabric component information from the identified text information;

extracting working parameters corresponding to the fabric component information from a fabric working parameter database according to the fabric component information; the fabric working parameter database stores the working parameters corresponding to the fabric component information and different working modes, wherein the working parameters comprise sterilization intensity information, sterilization duration information, drying temperature information and drying duration information;

and taking the extracted working parameters as the set working parameters in the current working mode.

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