CN109847081A - A kind of disinfection cabinet course of work control method - Google Patents
A kind of disinfection cabinet course of work control method Download PDFInfo
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- CN109847081A CN109847081A CN201711232554.4A CN201711232554A CN109847081A CN 109847081 A CN109847081 A CN 109847081A CN 201711232554 A CN201711232554 A CN 201711232554A CN 109847081 A CN109847081 A CN 109847081A
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- disinfection cabinet
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- ultraviolet radiator
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Abstract
The present invention relates to a kind of disinfection cabinet course of work control methods, it is controlled for the course of work to disinfection cabinet, it is characterized by comprising following steps: after step 1, disinfection cabinet enter operating mode, the acquisition intracorporal humidity value H of disinfection cabinet chamber in real time, and judge humidity value H and preset the relationship between humidity value A, if H >=A, into high humidity control model, if H < A, ultraviolet radiator control model is opened into gap.Compared with the prior art, the advantages of the present invention are as follows: control method of the invention can be according to disinfection cabinet inside cavity environment, the autonomous corresponding disinfection mode of selection, the high energy saving sterilizing of one mode, and another mode is that ultraviolet radiator, moderate energy conservation are opened in gap;It the performances such as can also block according to ozone pests occurrence rule and to ultraviolet light, control the switch state of ultraviolet radiator in disconnected sterilisation housing;It is additionally contemplates that the decomposition of ozone room temperature, pyrolytic characteristic, controls ultraviolet radiator gap opening times.
Description
Technical field
The present invention relates to a kind of disinfection cabinet course of work control methods.
Background technique
For existing disinfection cabinet in disinfecting process, ozone concentration is uncontrollable, and excessive ozone be easy to cause ozone to reveal,
Excessive ozone can shorten the service life of ozone generating means simultaneously, and also will increase Overall Power Consumption, higher operating costs;Separately
Outside, it after each sterilizing operation, needs to handle excessive ozone, improve in the production cost and client's use process of complete machine
Application cost;At the end of disinfection, superfluous ozone keeps disinfection cabinet inside cavity peculiar smell serious, and after enabling, ozone is diffused into sky
In gas, it be easy to cause environmental pollution.
Summary of the invention
The technical problem to be solved by the present invention is to for the above-mentioned prior art provide it is a kind of can be to ozone in the course of work
The disinfection cabinet course of work control method that concentration is controlled.
The technical scheme of the invention to solve the technical problem is: a kind of disinfection cabinet course of work control method,
It is controlled for the course of work to disinfection cabinet, it is characterised in that: include the following steps
After step 1, disinfection cabinet enter operating mode, the intracorporal humidity value H of disinfection cabinet chamber is acquired in real time, and judge the humidity
It value H and presets the relationship between humidity value A and is transferred to step 2 if H >=A, if H < A, is transferred to step 4;
Step 2 opens ultraviolet radiator, opens the first timer, and records ozone concentration in the disinfection cavity of disinfection cabinet and reach
The time TIM1 that needs when to balance, ozone concentration reaches balance and refers to ozone in the disinfection cavity of malicious cabinet in the disinfection cavity of disinfection cabinet
Concentration is greater than setting threshold range;
Step 3, the relationship for judging TIM1 Yu preset value T_base0, when TIM1 is less than or equal to preset value T_base0, into
Enter mode two;If TIM1 is greater than preset value T_base0, the first timer continues timing, until the secondary disinfecting time T >=T is set
Fixed, T is set as disinfection cabinet preset operating time, closes ultraviolet radiator, into drying stage, enters after drying stage and waits
In the stage, after loitering phase, disinfecting process terminates;
Step 4 opens ultraviolet radiator, waits, and records when ozone concentration in the disinfection cavity of disinfection cabinet reaches balance
Ozone concentration value R judges the pass of R Yu presetting first ozone base value R_base0 and presetting second ozone base value R_base1
System, as R < R_base0, the failure of output ultraviolet radiator or disinfection cabinet exception error signal, as R_base0≤R≤R_base1,
Into mode two, as R > R_base1, into mode one;
Wherein mode one: whole process closes ultraviolet radiator, until secondary disinfecting time T >=T setting-T drying-T is waited, wherein
T is set as disinfection cabinet preset operating time, and the time required to T drying is default drying stage, T is waited as needed for default loitering phase
Time;Subsequently into drying stage, the drying stage working time is T drying, enters loitering phase after drying stage, waits
The stage work time is that T is waited, and after loitering phase, mode one terminates;
Mode two includes step a~step d:
Step a, ultraviolet radiator is closed, the second timer is opened;
Step b, the intracorporal ozone real value R of disinfection cabinet chamber is calculatedReal valueWhen=R-k1*TIM2, R is the disinfection cavity of disinfection cabinet
Ozone concentration value R, k1 when interior ozone concentration reaches balance are the natural decomposition coefficient under ozone normal temperature condition, 0 < k1≤
0.6, TIM2 is the timing time of the second timer;
Step c, judge ozone real value RReal valueWith goal-selling concentration value RTargetRelationship, if RReal value< RTarget, open again
Ultraviolet radiator is opened, while continuing to calculate the intracorporal ozone real value R of disinfection cabinet chamberReal value;Otherwise return step b;
If step d, RReal value>=R_base1, R_base1 are default ozone concentration maximum value, are again switched off ultraviolet radiator,
Step e is executed, d is otherwise returned to step;
Step e, judge whether the timing time TIM2 of the second timer is more than or equal to T setting-T waiting-T drying, wherein T
It is set as disinfection cabinet preset operating time, the time required to T drying is default drying stage, T is waited as needed for default loitering phase
Time, if not being, return step b, if so, the drying stage working time is T drying into drying stage, drying stage terminates
Enter loitering phase afterwards, the loitering phase working time is that T is waited, and after loitering phase, mode two terminates.
Compared with the prior art, the advantages of the present invention are as follows: control method of the invention can be according in disinfection cabinet cavity
Portion's environment, the autonomous corresponding disinfection mode of selection, the high energy saving sterilizing of one mode, another mode is that ultraviolet light is opened in gap
Lamp, moderate energy conservation;It the performances such as can also block according to ozone pests occurrence rule and to ultraviolet light, control ultraviolet radiator in disconnected sterilisation housing
Switch state;It is additionally contemplates that the decomposition of ozone room temperature, pyrolytic characteristic, controls ultraviolet radiator gap opening times.
Detailed description of the invention
Fig. 1 is disinfection cabinet course of work control method flow chart in the embodiment of the present invention.
Fig. 2 is one work flow diagram of mode in the embodiment of the present invention.
Fig. 3 is two work flow diagram of mode in the embodiment of the present invention.
Specific embodiment
The present invention will be described in further detail below with reference to the embodiments of the drawings.
Disinfection cabinet course of work control method as shown in Figure 1, controls for the course of work to disinfection cabinet, packet
Include following steps
After step 1, disinfection cabinet enter operating mode, the intracorporal humidity value H of disinfection cabinet chamber is acquired in real time, and judge the humidity
It value H and presets the relationship between humidity value A and is transferred to step 2 if H >=A, if H < A, is transferred to step 4;
Step 2 opens ultraviolet radiator, opens the first timer, and records ozone concentration in the disinfection cavity of disinfection cabinet and reach
The time TIM1 that needs when to balance, ozone concentration reaches balance and refers to ozone in the disinfection cavity of malicious cabinet in the disinfection cavity of disinfection cabinet
Concentration is greater than setting threshold range;
Step 3, the relationship for judging TIM1 Yu preset value T_base0, when TIM1 is less than or equal to preset value T_base0, into
Enter mode two;If TIM1 is greater than preset value T_base0, the first timer continues timing, until the secondary disinfecting time T >=T is set
Fixed, T is set as disinfection cabinet preset operating time, closes ultraviolet radiator, into drying stage, enters after drying stage and waits
In the stage, after loitering phase, disinfecting process terminates;
Step 4 opens ultraviolet radiator, waits, and records when ozone concentration in the disinfection cavity of disinfection cabinet reaches balance
Ozone concentration value R judges the pass of R Yu presetting first ozone base value R_base0 and presetting second ozone base value R_base1
System, as R < R_base0, the failure of output ultraviolet radiator or disinfection cabinet exception error signal, as R_base0≤R≤R_base1,
Into mode two, as R > R_base1, into mode one;
Wherein mode one: whole process closes ultraviolet radiator, until secondary disinfecting time T >=T setting-T drying-T is waited, wherein
T is set as disinfection cabinet preset operating time, and the time required to T drying is default drying stage, T is waited as needed for default loitering phase
Time;Subsequently into drying stage, the drying stage working time is T drying, enters loitering phase after drying stage, waits
The stage work time is that T is waited, and after loitering phase, mode one terminates;It is shown in Figure 2.
Mode two includes step a~step d:
Step a, ultraviolet radiator is closed, the second timer is opened;
Step b, the intracorporal ozone real value R of disinfection cabinet chamber is calculatedReal valueWhen=R-k1*TIM2, R is the disinfection cavity of disinfection cabinet
Ozone concentration value R, k1 when interior ozone concentration reaches balance are the natural decomposition coefficient under ozone normal temperature condition, 0 < k1≤
0.6, TIM2 is the timing time of the second timer;
Step c, judge ozone real value RReal valueWith goal-selling concentration value RTargetRelationship, if RReal value< RTarget, open again
Ultraviolet radiator is opened, while continuing to calculate the intracorporal ozone real value R of disinfection cabinet chamberReal value;Otherwise return step b;
If step d, RReal value>=R_base1, R_base1 are default ozone concentration maximum value, are again switched off ultraviolet radiator,
Step e is executed, d is otherwise returned to step;
Step e, judge whether the timing time TIM2 of the second timer is more than or equal to T setting-T waiting-T drying, wherein T
It is set as disinfection cabinet preset operating time, the time required to T drying is default drying stage, T is waited as needed for default loitering phase
Time, if not being, return step b, if so, the drying stage working time is T drying into drying stage, drying stage terminates
Enter loitering phase afterwards, the loitering phase working time is that T is waited, and after loitering phase, mode two terminates.It is shown in Figure 3.
Claims (1)
1. a kind of disinfection cabinet course of work control method, controls for the course of work to disinfection cabinet, it is characterised in that: packet
Include following steps
After step 1, disinfection cabinet enter operating mode, the intracorporal humidity value H of disinfection cabinet chamber is acquired in real time, and judge humidity value H
With preset the relationship between humidity value A, if H >=A, step 2 is transferred to, if H < A, is transferred to step 4;
Step 2 opens ultraviolet radiator, opens the first timer, and records ozone concentration in the disinfection cavity of disinfection cabinet and reach flat
The time TIM1 needed when weighing apparatus, ozone concentration reaches balance and refers to ozone concentration in the disinfection cavity of malicious cabinet in the disinfection cavity of disinfection cabinet
Greater than setting threshold range;
Step 3, the relationship for judging TIM1 Yu preset value T_base0, when TIM1 is less than or equal to preset value T_base0, into mould
Formula two;If TIM1 is greater than preset value T_base0, the first timer continues timing, until secondary disinfecting time T >=T setting, T
It is set as disinfection cabinet preset operating time, closes ultraviolet radiator, into drying stage, enters after drying stage and wait rank
Section, after loitering phase, disinfecting process terminates;
Step 4 opens ultraviolet radiator, waits, and records ozone when ozone concentration in the disinfection cavity of disinfection cabinet reaches balance
Concentration value R judges the relationship of R Yu presetting first ozone base value R_base0 and presetting second ozone base value R_base1, works as R
When < R_base0, the failure of output ultraviolet radiator or disinfection cabinet exception error signal, as R_base0≤R≤R_base1, into mould
Formula two, as R > R_base1, into mode one;
Wherein mode one: whole process closes ultraviolet radiator, until secondary disinfecting time T >=T setting-T drying-T is waited, wherein T is set
It is set to disinfection cabinet preset operating time, the time required to T drying is default drying stage, T is waited to be taken by default loitering phase
Between;Subsequently into drying stage, the drying stage working time is T drying, enters loitering phase after drying stage, waits rank
The section working time is that T is waited, and after loitering phase, mode one terminates;
Mode two includes step a~step d:
Step a, ultraviolet radiator is closed, the second timer is opened;
Step b, the intracorporal ozone real value R of disinfection cabinet chamber is calculatedReal valueWhen=R-k1*TIM2, R is smelly in the disinfection cavity of disinfection cabinet
Ozone concentration value R, k1 when oxygen concentration reaches balance are the natural decomposition coefficient under ozone normal temperature condition, 0 k1≤0.6 <,
TIM2 is the timing time of the second timer;
Step c, judge ozone real value RReal valueWith goal-selling concentration value RTargetRelationship, if RReal value< RTarget, it is again turned on purple
Outside line lamp, while continuing to calculate the intracorporal ozone real value R of disinfection cabinet chamberReal value;Otherwise return step b;
If step d, RReal value>=R_base1, R_base1 are default ozone concentration maximum value, are again switched off ultraviolet radiator, are executed
Step e, otherwise returns to step d;
Step e, judge whether the timing time TIM2 of the second timer is more than or equal to T setting-T waiting-T drying, wherein T is set
For disinfection cabinet preset operating time, T drying is default drying stage required time, the time required to T waits as default loitering phase,
If not being, return step b enters after drying stage if so, the drying stage working time is T drying into drying stage
Loitering phase, loitering phase working time are that T is waited, and after loitering phase, mode two terminates.
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Cited By (3)
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CN110584501A (en) * | 2019-09-16 | 2019-12-20 | 宁波方太厨具有限公司 | Cooking control method of electric oven |
CN111330055A (en) * | 2020-05-19 | 2020-06-26 | 宁波方太厨具有限公司 | Automatic adjustment method for residual disinfection time in work of disinfection cabinet |
CN111569097A (en) * | 2020-04-10 | 2020-08-25 | 宁波方太厨具有限公司 | Working method of disinfection cabinet and disinfection cabinet applying same |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110584501A (en) * | 2019-09-16 | 2019-12-20 | 宁波方太厨具有限公司 | Cooking control method of electric oven |
CN111569097A (en) * | 2020-04-10 | 2020-08-25 | 宁波方太厨具有限公司 | Working method of disinfection cabinet and disinfection cabinet applying same |
CN111569097B (en) * | 2020-04-10 | 2021-06-15 | 宁波方太厨具有限公司 | Working method of disinfection cabinet and disinfection cabinet applying same |
CN111330055A (en) * | 2020-05-19 | 2020-06-26 | 宁波方太厨具有限公司 | Automatic adjustment method for residual disinfection time in work of disinfection cabinet |
CN111330055B (en) * | 2020-05-19 | 2020-08-21 | 宁波方太厨具有限公司 | Automatic adjustment method for residual disinfection time in work of disinfection cabinet |
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