CN116736914B

CN116736914B - Controllable agricultural greenhouse system of berries class

Info

Publication number: CN116736914B
Application number: CN202310637702.XA
Authority: CN
Inventors: 吕名礼; 朱登平; 张中华; 黄挺; 白永娟; 左光燕
Original assignee: Shanghai Huawei Controllable Agricultural Technology Group Co ltd
Current assignee: Shanghai Huawei Controllable Agricultural Technology Group Co ltd
Priority date: 2023-06-01
Filing date: 2023-06-01
Publication date: 2024-02-02
Anticipated expiration: 2043-06-01
Also published as: CN116736914A

Abstract

The invention discloses a berry controllable agricultural greenhouse system, which relates to the technical field of temperature control systems and comprises a data acquisition unit, a power supply unit and a remote mobile terminal unit, wherein the data acquisition unit acquires all data in berries during planting, converts the data into signals for transmission after the data acquisition is completed, and a data analysis unit receives the signals transmitted by the data acquisition unit, converts the received signals into corresponding data, analyzes the acquired data, analyzes whether the data is abnormal, and transmits the data found abnormal and normal data. The invention solves the potential safety hazard problem of the detection end, increases the stability when the temperature of the greenhouse is controlled, and prevents the hidden danger from being directly exposed in the later working process when the hidden danger is not checked in the temperature control process when the temperature is controlled, thereby directly leading the temperature control system to not work continuously.

Description

Controllable agricultural greenhouse system of berries class

Technical Field

The invention relates to the technical field of temperature control systems, in particular to a berry type controllable agricultural greenhouse system.

Background

The utility model provides a berry is by the ovary or combine the succulent fruit of other flowers development into soft succulent, berry class fruit tree kind is many, such as grape, kiwi fruit, raspberry etc. the berry is a succulent meat single fruit, by one or several carpels form, contain one to many seeds, and at the in-process that the berry was planted, the requirement to the temperature is also very strict, chinese patent application number 201811262332.1 discloses "an intelligent temperature control system of warmhouse booth", belong to agricultural production technical field, an intelligent temperature control system of warmhouse booth, including master control module and warmhouse booth, master control module is connected with power module, master control module still is connected with temperature data collection module and main temperature regulation module, temperature data collection module includes first temperature sensor, and first temperature sensor is connected on warmhouse booth inside wall, main temperature regulation module includes a pair of air conditioner, and a pair of air conditioner symmetry sets up at warmhouse booth inboard both ends, master control module still is connected with display module and input module, display module includes liquid crystal display, liquid crystal display connects in the middle of warmhouse booth, input module includes control panel, control panel installs at warmhouse booth entrance, can also realize the temperature regulation module, the realization is accurate, temperature regulation is accurate, temperature control module is connected to warmhouse booth. "

This comparison document only has solved, traditional warmhouse booth adopts the summer ventilation heat dissipation summer to adopt coal-fired or electrical heating's form to intensify, not only degree of automation is not high, and to the degree of controlling of temperature lower, summer radiating effect is not good, the too huge problem of winter power consumption, but in the in-process of carrying out the accuse temperature, can not carry out predictive investigation to room temperature control system's hidden danger, and can not carry out the record to the number of times of artifical accuse temperature, if the number of times of manual adjustment accuse temperature is too many, then whole accuse temperature system will have the potential safety hazard, if unable timely getting rid of hidden danger, burst out in the later stage working process, can make whole accuse temperature system unable continuous work.

Disclosure of Invention

The invention aims to provide a berry-type controllable agricultural greenhouse system for solving the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a berry-type controllable agricultural greenhouse system comprises a data acquisition unit, a power supply unit and a remote mobile terminal unit;

the data acquisition unit acquires all data in berry planting and converts the acquired data into signals for transmission;

the data analysis unit is used for receiving the signals sent by the data acquisition unit, converting the received signals into corresponding data, analyzing all acquired data, analyzing whether all the data are abnormal or not, and sending and transmitting the data found to be abnormal and the data found to be normal;

the central processing unit is used for receiving the data signals analyzed by the data analysis unit;

the adjusting and detecting unit is used for receiving the data sent by the central processing unit, adjusting the data terminal which is found to be abnormal after analysis, and electrically connecting the adjusting and detecting unit with the data acquisition unit, detecting the terminal which is abnormal in the adjusting process, detecting the specific reason of the abnormality, and carrying out maintenance treatment according to the specific reason;

the accumulation adjusting unit is used for receiving the data of the adjustment detecting unit, recording the adjustment times through the accumulation adjusting unit when the terminal is adjusted by the adjustment detecting unit each time, and transmitting the data information when the accumulation times reach a preset threshold value;

and the manual processing unit is used for receiving the data sent by the accumulation adjusting unit and detecting and adjusting the data acquisition end.

Preferably, the power supply unit is electrically connected with the central processing unit, and supplies power to the central processing unit in real time through the power supply unit.

Preferably, the remote mobile terminal unit is electrically connected with the central processing unit, so that a worker can remotely check the data received by the central processing unit in real time through the remote mobile terminal unit, and the remote check and control are performed through the remote mobile terminal unit, so that the rapidness in the processing and control process is improved.

Preferably, the data acquisition unit comprises a temperature detection module, a humidity detection module, an air temperature detection module, an illumination detection module and a soil detection module, wherein the temperature detection module detects the indoor temperature of a planting area, the humidity and the soil humidity in the planting area are detected through the humidity detection module, the air temperature detection module detects the air temperature in the planting area, the illumination detection module detects the indoor illumination and the outdoor illumination of the planting area, and the soil state in the planting process is detected through the soil detection module.

Preferably, the data analysis unit includes a real-time detection module and a comparison deletion module, the real-time detection module is used for detecting the data received by the data analysis unit in real time, the comparison deletion module is used for comparing the received data, a standard value is set before the comparison, and when the comparison result exceeds the standard value range, the received data is judged to be abnormal and the transmission processing is required.

Preferably, the regulation detecting element includes temperature regulation module, humidity control module, temperature regulation module, illumination regulation module and soil regulation module, when temperature detection's result is unusual, adjust the temperature detection end through temperature regulation module, and when humidity detection's result takes place unusual, adjust the humidity detection end through humidity control module, and when temperature detection's result takes place unusual, will adjust the detection end of temperature through temperature regulation module, and when illumination detection's result takes place unusual, adjust the detection end of illumination through illumination regulation module, when soil detection's result takes place unusual, adjust the soil detection end through soil regulation module.

Preferably, the accumulation adjustment unit includes a frequency accumulation module, when the detection end is adjusted each time, the frequency accumulation module records the frequency, and sets a section value before the frequency accumulation, which can be set to a half-month five-time regional value, when the frequency is adjusted each time, the frequency is recorded once, and when the frequency reaches ten times, the manual processing unit is triggered to tell the staff that the detection end needs to be thoroughly checked once, so that the potential safety hazard problem existing in the detection end is checked.

Preferably, the accumulation adjustment unit further includes a prediction adjustment module, when the number of times of manual adjustment is too large, the prediction of the whole detection end is prevented in advance, and when the number of times of manual adjustment is too large, the problem of whether potential safety hazards exist or not is pre-determined, and the prevention is performed in advance.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, when the detection end is adjusted each time, the detection end is recorded through the frequency accumulation module, an interval value is set before the frequency accumulation, the interval value can be set to be an area value of five times in half a month, when the detection end is adjusted each time, the detection end is recorded once, and when the frequency reaches ten times, a manual processing unit is triggered to tell a worker that the detection end needs to be thoroughly checked once, the potential safety hazard problem of the detection end is checked, the stability of the greenhouse temperature control is improved, the potential hazard check is prevented when the greenhouse temperature control is performed, the hidden danger check cannot be performed in the temperature control process, the hidden danger is directly exposed in the later working process, and the temperature control system cannot continuously work.

Drawings

FIG. 1 is a block diagram of a system provided in an embodiment of the present invention;

FIG. 2 is a block diagram of an internal data acquisition unit according to an embodiment of the present invention;

FIG. 3 is a block diagram of an internal module of an adjustment detection unit according to an embodiment of the present invention;

FIG. 4 is a block diagram of an internal module of a cumulative adjustment unit according to an embodiment of the present invention;

fig. 5 is a block diagram of an internal data analysis unit according to an embodiment of the present invention.

In the figure: 1. a data acquisition unit; 2. a remote mobile terminal unit; 3. a data analysis unit; 4. adjusting the detection unit; 5. a central processing unit; 6. a power supply unit; 7. an accumulation adjustment unit; 8. a manual processing unit; 9. a frequency accumulation module; 10. a prediction adjustment module; 11. a real-time detection module; 12. and comparing the deleting modules.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, the present invention provides a technical solution: a berry-type controllable agricultural greenhouse system comprises a data acquisition unit 1, a power supply unit 6 and a remote mobile terminal unit 2;

the data acquisition unit 1 is used for acquiring various data in berry planting, and converting the acquired data into signals for transmission;

the data analysis unit 3 is used for receiving the signals sent by the data acquisition unit 1, converting the received signals into corresponding data, analyzing all acquired data, analyzing whether all the data are abnormal or not, and sending and transmitting the data found to be abnormal and the data found to be normal;

the central processing unit 5, the central processing unit 5 receives the data signal after the analysis of the data analysis unit 3;

the adjusting and detecting unit 4 is used for receiving the data sent by the central processing unit 5, adjusting the data terminal which is found to be abnormal after analysis, and detecting the terminal which is abnormal in the adjusting process by the adjusting and detecting unit 4 when the adjusting and detecting unit 4 is electrically connected with the data acquisition unit 1, and carrying out maintenance treatment according to the specific reason;

an accumulation adjustment unit 7, wherein the accumulation adjustment unit 7 receives the data of the adjustment detection unit 4, the accumulation adjustment unit 7 records the adjustment times when the adjustment detection unit 4 adjusts the terminal every time, and when the accumulation times reach a preset threshold value, the accumulation times send data information;

the manual processing unit 8, the manual processing unit 8 receives the data sent by the accumulation adjusting unit 7, and the data acquisition end is detected and adjusted through the manual processing unit 8.

The power supply unit 6 is electrically connected with the central processing unit 5, and supplies power to the central processing unit 5 in real time through the power supply unit 6;

the remote mobile terminal unit 2 is electrically connected with the central processing unit 5, so that a worker can remotely check the data received by the central processing unit 5 in real time through the remote mobile terminal unit 2, and the remote check and control are performed through the remote mobile terminal unit 2, so that the rapidness in the processing and control process is improved;

the data acquisition unit 1 comprises a temperature detection module, a humidity detection module, an air temperature detection module, an illumination detection module and a soil detection module, wherein the temperature detection module detects the indoor temperature of a planting area, the humidity and the soil humidity in the planting area are detected through the humidity detection module, the air temperature in the planting area is detected through the air temperature detection module, the indoor illumination and the outdoor illumination of the planting area are detected through the illumination detection module, and the soil state in the planting process is detected through the soil detection module;

the data analysis unit 3 comprises a real-time detection module 11 and a comparison deletion module 12, the real-time detection module 11 is used for detecting the received data of the data analysis unit 3 in real time, the comparison deletion module 12 is used for comparing the received data, a standard value is set before the comparison, and when the comparison result exceeds the standard value range, the received data is judged to be abnormal and the transmission processing is needed;

the adjusting and detecting unit 4 comprises a temperature adjusting module, a humidity adjusting module, an air temperature adjusting module, an illumination adjusting module and a soil adjusting module, when the temperature detecting result is abnormal, the temperature detecting end is adjusted through the temperature adjusting module, when the humidity detecting result is abnormal, the humidity detecting end is adjusted through the humidity adjusting module, when the air temperature detecting result is abnormal, the air temperature detecting end is adjusted through the air temperature adjusting module, when the illumination detecting result is abnormal, the illumination detecting end is adjusted through the illumination adjusting module, and when the soil detecting result is abnormal, the soil detecting end is adjusted through the soil adjusting module;

the accumulation adjusting unit 7 comprises a frequency accumulating module 9, when the detection end is adjusted each time, the frequency accumulating module 9 is used for recording, a section value is set before the frequency accumulation, the section value can be set to be a half-month five-time section value, when the frequency is adjusted each time, the section value is recorded once, and when the frequency reaches ten times, the manual processing unit 8 is triggered to tell staff that the detection end needs to be thoroughly inspected once, and the potential safety hazard problem of the detection end is solved;

the accumulation adjusting unit 7 further includes a prediction adjusting module 10, which can prevent the whole detection end prediction in advance when the number of times of manual adjustment is too large, and can predict whether the potential safety hazard exists when the number of times of manual adjustment is too large, and can prevent the potential safety hazard in advance.

Working principle: according to the invention, various data in berry planting are acquired through the data acquisition unit 1, the data are converted into signals for transmission after the data acquisition is completed, the data analysis unit 3 receives the signals transmitted by the data acquisition unit 1, converts the received signals into corresponding data, analyzes the acquired various data, analyzes whether the various data are abnormal, transmits and transmits the abnormal data and normal data found, the central processing unit 5 receives the data signals analyzed by the data analysis unit 3, the adjustment detection unit 4 receives the data transmitted by the central processing unit 5, adjusts the data terminals which are found abnormal after the analysis, and is electrically connected with the data acquisition unit 1, the terminal which is abnormal is detected in the adjustment process, the specific cause of the occurrence of the abnormality is detected, the maintenance processing is carried out according to the specific cause, the record is carried out through the frequency accumulation module 9 when the detection terminal is adjusted each time, the zone value is set before the frequency accumulation is carried out, the zone value which can be set to be half a month and five times, the zone value can be recorded each time when the adjustment is carried out, the frequency accumulation is carried out each time, the detection terminal is triggered by ten times, the detection terminal is required to be completely checked by personnel, and the detection terminal safety inspection is required by the detection unit 8 is carried out when the detection terminal is completely.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The berry-type controllable agricultural greenhouse system is characterized by comprising a data acquisition unit (1), a power supply unit (6) and a remote mobile terminal unit (2);

the data acquisition unit (1), the said data acquisition unit (1) gathers every data inside while planting the berry, and after finishing gathering every data, turn into the signal and send;

the data acquisition unit (1) comprises a temperature detection module, a humidity detection module, an air temperature detection module, an illumination detection module and a soil detection module, wherein the temperature detection module is used for detecting the indoor temperature of a planting area, detecting the indoor humidity and the soil humidity of the planting area through the humidity detection module, detecting the air temperature in the planting area through the air temperature detection module, detecting the indoor illumination and the outdoor illumination of the planting area through the illumination detection module, and detecting the soil state in the planting process through the soil detection module;

the data analysis unit (3), the said data analysis unit (3) receives the signal that the data acquisition unit (1) sends, and convert the signal received into the correspondent data, and analyze every item of data after gathering, analyze every item of data is unusual, and send and transmit the data finding the abnormality and normal data;

the central processing unit (5), the said central processing unit (5) receives the data signal after the analysis of the data analysis unit (3);

the device comprises an adjusting detection unit (4), wherein the adjusting detection unit (4) receives data sent by a central processing unit (5), adjusts a detection module in a data acquisition unit (1) which finds abnormality after analysis, and is electrically connected with the data acquisition unit (1), so that the detection module in the data acquisition unit (1) which has abnormality is detected in the adjusting process, the specific reason of the abnormality is detected, and maintenance treatment is carried out according to the specific reason;

the accumulation adjusting unit (7), the data of the adjustment detecting unit (4) is received by the accumulation adjusting unit (7), when the detection module in the data acquisition unit (1) is adjusted by the adjustment detecting unit (4) each time, the adjustment times are recorded by the accumulation adjusting unit (7), and when the accumulation times reach a threshold value set in advance, the data information is sent;

the manual processing unit (8), the manual processing unit (8) receives the data sent by the accumulation adjusting unit (7), and the detection module in the data acquisition unit (1) is detected and adjusted through the manual processing unit (8).

2. A controllable agricultural greenhouse system of the berry type according to claim 1, characterized in that: the power supply unit (6) is electrically connected with the central processing unit (5), and the central processing unit (5) is powered in real time through the power supply unit (6).

3. A controllable agricultural greenhouse system of the berry type according to claim 1, characterized in that: the remote mobile terminal unit (2) is electrically connected with the central processing unit (5), and a worker can remotely check the data received by the central processing unit (5) in real time through the remote mobile terminal unit (2), and remotely check and control the data through the remote mobile terminal unit (2).

4. A controllable agricultural greenhouse system of the berry type according to claim 1, characterized in that: the data analysis unit (3) comprises a real-time detection module (11) and a comparison deletion module (12), the data received by the data analysis unit (3) is detected in real time through the real-time detection module (11), the received data is compared through the comparison deletion module (12), a standard value is set before comparison, and when the comparison result exceeds the standard value range, the received data is judged to be abnormal and transmission processing is needed.

5. A controllable agricultural greenhouse system of the berry type according to claim 1, characterized in that: the regulation detecting unit (4) comprises a temperature regulating module, a humidity regulating module, an air temperature regulating module, an illumination regulating module and a soil regulating module, when the result of temperature detection is abnormal, the temperature regulating module is used for regulating the temperature detecting module, when the result of humidity detection is abnormal, the humidity detecting module is regulated by the humidity regulating module, when the result of air temperature detection is abnormal, the air temperature detecting module is regulated by the air temperature regulating module, and when the result of illumination detection is abnormal, the illumination regulating module is used for regulating the illumination detecting module, and when the result of soil detection is abnormal, the soil detecting module is regulated by the soil regulating module.

6. A controllable agricultural greenhouse system of the berry type according to claim 1, characterized in that: the accumulation adjustment unit (7) comprises a frequency accumulation module (9), when the detection module in the data acquisition unit (1) is adjusted each time, the frequency accumulation module (9) is used for recording, a threshold value is set before frequency accumulation, the threshold value is ten times, the adjustment is carried out each time, the threshold value is recorded once, when the threshold value frequency is reached, the manual processing unit (8) is triggered to tell staff that the detection module in the data acquisition unit (1) needs to be thoroughly checked once, and the potential safety hazard problem existing in the detection module in the data acquisition unit (1) is checked.