CN113086412A - Illumination control method and system for tea bin and computer readable storage medium - Google Patents

Abstract

The invention relates to the field of tea storage, in particular to a method and a system for controlling illumination of a tea bin and a computer readable storage medium. The illumination control method of the tea cabin comprises the following brightness adjusting steps: judging whether the cumulative duration of the lighting fixtures lighting in the sampling inspection state reaches a preset value in the storage period of the placing rack corresponding to the lighting fixtures lighting at present, and if so, limiting the lighting brightness of the lighting fixtures according to a pre-stored inspection warning grade corresponding to the preset value. The illumination intensity that the tea placing frame that receives the long longest of time of accepting illumination weakens gradually in unit interval for the illumination that receives when single selective examination takes place is long different for a plurality of tea placing frames, nevertheless multiple selective examination accumulation gets off and receives the illumination degree still close, avoids placing producing too big fermentation difference between the tealeaves on different tea placing frames.

Description

Illumination control method and system for tea bin and computer readable storage medium

Technical Field

The invention relates to the field of tea storage, in particular to a method and a system for controlling illumination of a tea bin and a computer readable storage medium.

Background

Tea leaves are well known for a long time, people can not live with the tea leaves, and the Pu' er tea leaves are used as tea leaves which can be stored for a long time and are more old and more fragrant if being stored properly. During the storage process, microorganisms of the Pu 'er tea are naturally fermented in a proper storage environment, so that the tea is aged, and the longer the benign fermentation and aging time is, the more the prepared Pu' er tea has the flavor after being brewed. In order to make the Pu 'er tea leaves obtain the good fermentation, manufacturers often need to place the Pu' er tea leaves into a specific tea bin for storage, the tea bin is divided into a plurality of areas, and each area is provided with a placing rack for placing the tea leaves. The storage environment in the tea storehouse is shaded and dry, so that the Pu' er tea placed in the placing rack is not easy to destroy microorganisms due to long-time direct illumination, thereby influencing fermentation and being not easy to mildew. In the actual storage process, as a cake of Pu 'er tea needs to be stored and fermented for a long period (months or even years), the Pu' er tea placed on the placing rack of the tea cabin needs to be manually checked at intervals, the fermentation process of the tea is controlled, and the quality of the tea is controlled. At present, the following problems exist in the storage process of Pu' er tea leaves: for the same batch of tea, even under the same fermentation environment, the degree of fermentation may be greatly different, which is not favorable for controlling the quality of the tea.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provided is a lighting control method for a tea storehouse, which can stably control the quality of tea leaves during storage and fermentation.

The inventor observes that the Pu' er tea storage process can be manually checked for many times, and the checks comprise both comprehensive checks on the whole storage of the warehouse and more frequent manual spot checks on the storage state of the tea. And when the inspector checked tealeaves at random, the lighting lamp was opened and the rack was shone to the inspector observes the state of depositing of Pu' er tea, and tealeaves on this rack all can receive certain illumination influence this moment, makes some microorganism on the tealeaves restrained or even destroyed. And because the length of time that inspectors stay at different placing racks is different when the tea leaves are subjected to sampling inspection, the total length of time that the tea leaves on different placing racks are influenced by illumination is different, and the difference of fermentation among the Pu' er tea leaves in the same batch is large.

Recording the lighting time of the lighting fixture is a common technical means, but the technical means is generally used for calculating the service life of the lighting fixture or calculating the consumption of turning on the lighting fixture, because the service life of the lighting fixture is recorded only by paying attention to the service condition of the lighting fixture. The inventor of the invention discovers the influence of the special condition of the tea bin sampling inspection on the fermentation state of the tea leaves, associates the illumination time length of the illumination device during sampling inspection with the fermentation state of the tea leaves, and limits the brightness of the illumination device according to the accumulated time length of the illumination device in the sampling inspection state, thereby influencing the storage state of the tea leaves, which is not appeared in the field of tea leaf storage.

The illumination control method of the tea bin comprises the following steps of: judging whether the cumulative duration of the lighting fixtures lighting in the sampling inspection state reaches a preset value in the storage period of the placing rack corresponding to the lighting fixtures lighting at present, and if so, limiting the lighting brightness of the lighting fixtures according to a pre-stored inspection warning grade corresponding to the preset value.

Preferably, the brightness of the lighting fixture is limited according to the inspection warning level, and in particular, the longer the accumulated time period of the lighting fixture being turned on, the darker the brightness of the lighting fixture is.

Preferably, the brightness adjusting step further includes a duration control step of: the maximum duration of time that the lighting fixture is on is also limited according to the inspection alert level while limiting the brightness of the lighting fixture on according to the inspection alert level.

Preferably, the lighting fixture detecting step is performed before the brightness adjusting step, and the brightness adjusting step is performed for the lighting fixtures if it is determined that the lighting fixtures corresponding to the respective racks are lit.

Preferably, the method comprises an inspection progress prompting step, and if the lighting fixture corresponding to the placing rack is identified to be lighted in a spot inspection state in a previous preset time period, the placing rack is prompted to be subjected to spot inspection.

Preferably, the method further comprises an induction lighting step, whether an inspector is close to the current placing frame is identified, and if yes, the lighting fixture corresponding to the current placing frame is triggered to be lighted.

A computer-readable storage medium is also provided, which stores a computer program which, when executed by a processor, is capable of implementing the above-described method of lighting control of a tea silo.

The illumination control system of the tea cabin comprises a placing frame for storing tea leaves, an illumination appliance arranged corresponding to the placing frame, and a processor, wherein the processor controls the illumination appliance to light up, and the illumination control system also comprises the computer readable storage medium, and a computer program on the computer readable storage medium can be executed by the processor.

Preferably, an indicator is included, which displays a corresponding grade signal according to the grade of the inspection warning that the lighting fixture corresponding to the current placing rack is lighted.

Preferably, the indicator is an LED light group comprising a plurality of light bars, which respectively correspond to the lighting fixtures of the respective racks of the tea caddy.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

when an inspector performs selective inspection on tea leaves, the lighting lamp corresponding to the tea leaf placing rack at the position of the inspector is turned on, the lighting control system of the tea bin records the accumulated lighting time (the lighting time) of the lighting fixtures and regulates and controls the brightness of each lighting fixture according to the accumulated lighting time, so that the lighting fixture with the longest lighting time is the darkest in brightness, and the larger the difference between the lighting time of the lighting fixture and the lighting time of other lighting fixtures is, the darker the brightness of the lighting fixture is. So then the illumination intensity that the tea rack that receives in the unit interval of receiving the long longest of illumination weakens gradually for the illumination that receives when single selective examination takes place is long different for a plurality of tea racks, nevertheless multiple selective examination accumulation gets off and receives illumination degree still close, avoids placing producing too big fermentation difference between the tealeaves on different tea racks.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

Fig. 1 is a schematic diagram of the structure of a tea-bin lighting fixture.

Fig. 2 is a schematic diagram of a partially exploded structure of a tea-bin lighting fixture.

Fig. 3 is a schematic diagram of an exploded structure of the tea-bin lighting appliance.

Fig. 4 is a sectional view taken along a-a in fig. 1.

Description of the symbols:

1-tea house lighting fixtures; 2-a light-emitting part; 3-a storage part; 4-a light filter section; 41-a filter zone; 42-opening; 5-a light-shielding portion; 51-an opening; z-transverse axis.

Detailed Description

The invention is described in further detail below with reference to specific embodiments.

A plurality of placing racks for storing tea leaves are arranged in a tea bin for storing Pu' er tea, and inspectors can perform sampling inspection on the tea leaves placed on the placing racks regularly or irregularly. The placing racks are correspondingly provided with a plurality of lighting devices, and when an inspector enters the tea bin to carry out sampling inspection on tea leaves, the lighting control system of the tea bin is in a sampling inspection state, and the lighting devices are controlled by the following lighting control method of the tea bin. Since the inspector needs to open the tea bag (or other tea storage devices) to check the fermentation state of the tea, in order to avoid the influence of the light source on the storage state of the tea, the controller of the illumination control system firstly controls all the illumination devices in the tea bin to be turned off, and then the illumination devices are respectively turned on when the inspector inspects the tea stored on the illumination control system so as to provide illumination for the placing racks corresponding to the illumination devices. Be equipped with shimmer lamp strip on the passageway floor between each rack in the tea storehouse, when the inspector got into the tea storehouse, all lighting apparatus were in the off-state was confirmed to the controller to thereby control shimmer lamp strip and light and provide the guide for the inspector walks in the tea storehouse. An LED lamp group serving as an indicator is arranged at a position, close to an entrance, of the warehouse, the LED lamp group is provided with lamp strips associated with the placing racks, each lamp strip is provided with a plurality of (such as five) lamp beads capable of being independently lightened, and the number of the lightened lamp beads on the lamp strips represents the current inspection warning grade of the lighting apparatus corresponding to the placing rack associated with the lamp strip. The more the lamp beads are lighted up, the higher the inspection warning level is, and the longer the accumulated time of the corresponding tea leaves on the placing rack is sampled and inspected is shown.

The LED lamp bank is in a dormant state in a state that no inspector enters the tea bin, the inspector makes a reservation for the time period on the tea bin control system for selective inspection in advance, or selects the time period for selective inspection on the tea bin control system when the tea bin enters the tea bin, in the process that the inspector enters the tea bin, a controller of the tea bin lighting control system recognizes that people pass through the sensor of the tea bin door, the inspector judges that the tea bin enters the tea bin for the selective inspection, the lighting control system of the tea bin is in the selective inspection state, the LED lamp bank in the dormant state is awakened, and each lamp bar is controlled to light up a corresponding number of lamp beads according to the inspection warning level stored before. Then, the controller executes an inspection progress prompting step: if the lighting fixture corresponding to the rack is identified to be turned on in a spot check state within a previous preset time period (for example, 3 days), the rack is prompted to be spot checked, and specifically, the endmost LED lamp bead on the lamp strip associated with the spot checked rack is flashed. The inspection progress suggestion step can change into and begin to carry out in a short period of time (as 1 minute) after the inspector passes through the inductor of tea storehouse door, when only needing to guarantee that the inspector looks over the bright condition of each lamp strip in the LED banks after getting into the tea storehouse, can see lamp pearl scintillation on the lamp strip, so then the inspector knows that the tealeaves on the rack that lamp pearl scintillation's lamp strip corresponds has been selective examination in the near future, just do not inspect the tealeaves of leaving on these racks, thereby avoid carrying out repeated selective examination to the tealeaves of storage on same rack in the short time.

The control system of the tea bin executes the induction lighting step after the inspector enters the tea bin: whether an inspector is close to the current placing rack is identified, and if the inspector is close to the current placing rack, the lighting fixture corresponding to the current placing rack is triggered to light. The tea bin control system identifies whether an inspector is close to the current placing rack or not through the infrared detection device arranged at the tea storage position of each placing rack in the tea bin, if so, the lighting device corresponding to the current placing rack is triggered to light, and synchronously, the timing device of the control system starts to accumulate the lighting time of the lighting device. The infrared detection device is arranged on the front face (tea storage position) of the placing rack, so that the lighting device cannot be triggered when an inspector passes through the placing rack from the side face, and the lighting device is triggered only when the inspector walks to the front face of the placing rack due to the fact that the inspector inspects tea leaves on the current placing rack, so that false triggering is avoided.

The lighting control system of the tea cabin further executes a lighting fixture detecting step: and identifying whether the lighting fixtures corresponding to the placing racks are turned on or not, and if the lighting fixtures are identified to be turned on, executing a brightness adjusting step on the turned-on lighting fixtures. And a brightness adjusting step: judging whether the accumulated time length of the lighting fixture which is triggered to light up in the sampling state reaches a preset value in the storage period of the placing rack corresponding to the lighting fixture which is lighted up at present, if so, judging whether the accumulated time length of the lighting fixture which is triggered to light up in the sampling state reaches the preset value: (1) limiting the brightness of the lighting fixture according to the inspection warning level, wherein the longer the accumulated time of the lighting fixture is, the darker the brightness of the lighting fixture is; (2) the maximum time length of the lighting fixture is limited according to the inspection warning level, and the longer the accumulated time length of the lighting fixture is, the shorter the maximum time length of the current lighting of the lighting fixture is (the time length of the sampling inspection is correspondingly controlled by the inspector). The following specifically describes the brightness adjustment step by taking a light bar with five lamp beads as an example.

The storage period of the tea leaves starts to be calculated when the tea leaves are placed on the placing racks, and if the tea leaves are moved to other placing racks in the current tea warehouse, the storage period of the tea leaves on the placing racks is continuously calculated. The first three lamp beads on the lamp strip are used for representing three inspection warning levels of low, medium and high. When the lighting apparatus is triggered to light in a spot check state, the accumulated time reaches a preset value T1 (for example, 10 hours, the accumulated time is less than T1 and the light is not on), only the first lamp bead on the corresponding lamp strip is in a light state, which indicates that the inspection warning level is low, the lighting control system controls the brightness of the lighting apparatus to light to be L1 times (for example, 90%) of the normal brightness, and limits the maximum time for lighting the lighting apparatus to be TM1 (for example, 10 minutes), and the inspector performs spot check on the tea leaves on the corresponding placement rack at the normal speed; when the accumulated time length reaches a preset value T2 (for example, 30 hours), the front two lamp beads on the corresponding lamp strips are in a lighting state, the inspection warning level is in the middle, the lighting control system controls the lighting brightness of the lighting fixture to be L2 times (for example, 80%) of the normal brightness, the maximum time length for lighting the lighting fixture is limited to TM2 (for example, 5 minutes), and an inspector performs spot inspection at a higher speed; and when the accumulated time length reaches a preset value T3 (for example, 60 hours), the first three lamp beads on the corresponding lamp strip are all in a lighting state, which indicates that the inspection warning level is high. The lighting control system controls the lighting fixture to light up at L3 times (e.g., 50%) the normal brightness and limits the lighting fixture to light up for a maximum duration TM3 (e.g., 3 minutes) for the inspector to perform the spot check at the fastest speed.

Wherein, the fourth lamp pearl on the lamp strip is used for showing and prepares warning level, and the accumulative duration that lighting fixture was triggered to light under the selective examination state will reach the default (if has surpassed 95% of current default), then the fourth lamp pearl on the lamp strip twinkles to remind the inspector to current rack: prolonging the sampling period or reducing the sampling times.

The lighting control system of the tea bin updates the states of the light bars associated with the placing frames in the LED light group when the inspector finishes the current spot inspection task and is about to leave the tea bin.

The controller regulates and controls the brightness of each lighting fixture based on the accumulated lighting time (lighting time) of the lighting fixtures recorded by the timing device, so that the brightness of the lighting fixture with the longest lighting time is the darkest, and the brightness of the lighting fixture is darker when the difference between the lighting time of the controller and the lighting time of other lighting fixtures is larger. So then the illumination intensity that the tea rack that receives in the unit interval of receiving the long longest of illumination weakens gradually for the illumination that receives when single selective examination takes place is long different for a plurality of tea racks, nevertheless multiple selective examination accumulation gets off and receives illumination degree still close, avoids placing producing too big fermentation difference between the tealeaves on different tea racks.

As shown in FIGS. 1 to 4, the lighting device includes a light emitting section 2, a light filter section 4, and a storage section 3. The two light-emitting parts 2 are respectively connected with two opposite sides of the storage part 3, the light-filtering part 4 covers the light-emitting parts 2 and the storage part 3, and the side surface of the light-filtering part 4 is partially opened 42. The lighting fixture further comprises a detachable light shielding part 5 which is overlapped with the transverse axis Z of the filter part 4, the light shielding part 5 covers the filter part 4 and the light emitting part 2 so as to prevent the light of the light emitting part 2 from irradiating the outside of the lighting fixture, and a side surface of the light shielding part 5 is partially provided with an opening 51 through which the light of the light emitting part 2 passes. The light filter part 4 and the light shielding part 5 can rotate around the horizontal axis Z thereof respectively, so that the light filter part 4 is provided with a plurality of light filter areas 41 which are aligned with the local openings 51 of the light shielding part 5 respectively.

The light filter portion 4 has a plurality of filter regions 41, and the light emitted from the light emitting portion 2 is filtered by the different filter regions 41 to emit different light. The infrared ray intensity and the ultraviolet ray intensity in the light rays emitted by the filter regions 41 are different, and the infrared radiation can cause the substances in the tea leaves to be photolyzed, so that the temperature of the environment for storing the tea leaves is increased; the ultraviolet radiation can damage the content substances of the tea such as chlorophyll, amino acid and the like, so that the tea can generate other tastes. The light of the light emitting part 2 passes through different filter regions 41, so that the radiation intensity of infrared rays and ultraviolet rays in the spectrum of the lighting device can be controlled, and different flavors of tea leaves can be controlled.

Specifically, the filter area 41 further includes a warm light area and a cold light area, or the filter area 41 gradually changes from warm light to cold light, the light of the light emitting part 2 passes through the warm light area and the cold light area of the light filter part 4 and then respectively emits warm light and cold light, and the temperature of the tea cabin is adjusted by utilizing the characteristic that the emitted light with different colors has different thermal effects.

Wherein, storing portion 3 is equipped with the fine and close net for dry objects such as bearing quick lime to supplementary drying degree in the regulation and control tea storehouse.

The lighting device is only one lighting device used in the embodiment, and the lighting control method of the tea cabin can be changed into any other lighting device suitable for lighting the tea cabin.

The above description is only the embodiments of the present invention, and the scope of protection is not limited thereto. The insubstantial changes or substitutions will now be made by those skilled in the art based on the teachings of the present invention, which fall within the scope of the claims.

Claims (10)

1. A lighting control method of a tea cabin is characterized in that a plurality of placing racks for storing tea leaves are arranged in the tea cabin, a plurality of lighting appliances are arranged corresponding to the placing racks, and the lighting appliances can be respectively lightened so as to provide lighting for the placing racks corresponding to the lighting appliances, and the lighting control method comprises the following steps of: judging whether the cumulative duration of the lighting fixtures lighting in the sampling inspection state reaches a preset value in the storage period of the placing rack corresponding to the lighting fixtures lighting at present, and if so, limiting the lighting brightness of the lighting fixtures according to a pre-stored inspection warning grade corresponding to the preset value.

2. The lighting control method of the tea silo according to the claim 1, wherein the brightness of the lighting fixture is limited according to the inspection warning level, and in particular, the longer the accumulated time period of the lighting fixture is, the darker the lighting fixture is.

3. The method for controlling lighting of a tea silo according to claim 1 or 2, characterized in that the brightness adjusting step further comprises a time length controlling step of: the maximum duration of time that the lighting fixture is on is also limited according to the inspection alert level while limiting the brightness of the lighting fixture on according to the inspection alert level.

4. The lighting control method of the tea caddy according to claim 1, comprising a lighting fixture detecting step performed before the brightness adjusting step, wherein whether the lighting fixture corresponding to each rack is lighted or not is identified, and if it is identified that there is a lighted lighting fixture, the brightness adjusting step is performed on the lighted lighting fixture.

5. The method for controlling lighting of a tea caddy according to claim 1, comprising a step of prompting progress of inspection, wherein if it is recognized that the lighting fixture corresponding to the rack is lighted in a spot inspection state within a previous preset time period, the rack is prompted to be inspected.

6. The method for controlling the illumination of the tea cabin according to claim 1, further comprising a step of sensing illumination, wherein whether an inspector approaches the current placing rack is identified, and if yes, the illumination corresponding to the current placing rack is triggered to illuminate.

7. Computer readable storage medium, in which a computer program is stored, which computer program, when being executed by a processor, is adapted to carry out a method for controlling the lighting of a tea silo according to any one of claims 1-6.

8. A lighting control system for a tea caddy comprising a rack for holding tea leaves, a lighting fixture disposed in correspondence with the rack, and a processor for controlling the lighting fixture to light up, and a computer-readable storage medium having a computer program executable by the processor, wherein the computer-readable storage medium is as claimed in claim 7.

9. The system of claim 8, further comprising an indicator for indicating a level signal according to the level of the inspection warning when the lighting fixture corresponding to the current rack is lit.

10. The system of claim 9, wherein the indicator is an LED light set comprising a plurality of light bars, each of the light bars corresponding to a respective lighting fixture of a plurality of shelves of the tea caddy.

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