WO2018032291A1 - 一种家庭花卉种植土壤参数检测装置 - Google Patents

一种家庭花卉种植土壤参数检测装置 Download PDF

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WO2018032291A1
WO2018032291A1 PCT/CN2016/095403 CN2016095403W WO2018032291A1 WO 2018032291 A1 WO2018032291 A1 WO 2018032291A1 CN 2016095403 W CN2016095403 W CN 2016095403W WO 2018032291 A1 WO2018032291 A1 WO 2018032291A1
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soil
value
detecting
sampling
parameter
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武克易
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武克易
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/24Earth materials

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  • the invention relates to the technical field of intelligent hardware, and more particularly to a home flower planting soil parameter detecting device.
  • Flower planting can beautify the environment and cultivate sentiment. With the improvement of people's living standards, urban or township residents like to plant various potted plants at home. However, some plant varieties do not grow well in any environment, and many people cannot grow smoothly due to lack of professional planting knowledge.
  • the existing soil tester and moisture tester are industrial use, and the professional field cannot help the user's flower planting.
  • many families What users need is direct targeted planting advice, such as real-time lighting, temperature and humidity, soil nutrients, moisture and other data collection and planting methods for each flower in the home.
  • the technical problem to be solved by the present invention is to provide a home flower planting soil parameter detecting device for the above-mentioned defects of the prior art.
  • a home flower planting soil parameter detecting device comprising: a soil nutrient measuring instrument for detecting soil nutrient value and a pH meter for detecting soil pH value, further comprising a controller; the controller comprising for controlling Sampling control of the working condition of the soil nutrient meter and the working condition of the pH meter
  • the controller further includes a data processing module for analyzing the soil nutrient value and the soil pH value; the controller is coupled with a parameter setting module for setting a sampling time and a sampling depth.
  • the home flower planting soil parameter detecting device of the present invention wherein the soil nutrient measuring instrument and the pH meter are disposed on a movable soil detecting probe, and the sampling control module is connected to drive the soil detecting The drive for moving the probe.
  • the home flower planting soil parameter detecting device of the present invention wherein the data processing module comprises:
  • the analysis and comparison unit is configured to compare the detected soil nutrient value and the soil pH value with the growth standard parameter, and determine whether the current growth environment of the flower is abnormal.
  • the home flower planting soil parameter detecting device of the present invention wherein the data processing module further comprises:
  • the first curve drawing unit is configured to draw a soil pH-time curve according to the detected soil pH value.
  • the home flower planting soil parameter detecting device of the present invention wherein the data processing module further comprises:
  • a second curve drawing unit is configured to draw a soil pH-humidity curve according to the detected soil pH value.
  • the home flower planting soil parameter detecting device of the present invention wherein the data processing module further comprises:
  • a third curve drawing unit is configured to draw a soil pH value-soil nutrient curve according to the detected soil pH value.
  • the home flower planting soil parameter detecting device of the present invention wherein the data processing module also includes:
  • a fourth curve drawing unit is configured to draw a soil nutrient value-time curve according to the detected soil nutrient value.
  • sampling time comprises sampling a specific time point or a sampling frequency.
  • the home flower planting soil parameter detecting device of the present invention wherein the sampling depth comprises a specific position of sampling, and a sampling depth is controlled by movement of the soil detecting probe.
  • the invention has the beneficial effects that the soil nutrient value and the soil pH value are more controllable and precise by setting the sampling time and the sampling depth, so as to achieve a better grasp of the soil condition of the flower growing.
  • FIG. 1 is a block diagram showing the principle of a home flower planting soil parameter detecting device according to a preferred embodiment of the present invention
  • FIG. 2 is a block diagram of a controller of a home flower planting soil parameter detecting device according to a preferred embodiment of the present invention
  • FIG. 3 is a block diagram of a data processing module of a home flower planting family flower planting soil parameter detecting device according to a preferred embodiment of the present invention.
  • FIG. 1 and FIG. 2 The structural principle of the home flower planting soil parameter detecting device according to the preferred embodiment of the present invention is shown in FIG. 1 and FIG. 2, and includes a soil nutrient measuring instrument 1 for detecting soil nutrient value and a pH meter 2 for detecting soil pH value. And a controller 3; the controller 3 includes a sampling control module 31 for controlling the working condition of the soil nutrient meter and the working condition of the pH meter; the controller 3 further includes a method for analyzing the soil nutrient value and the soil pH value.
  • the data processing module 32; the controller 3 is connected with a parameter setting module 4 for setting the sampling time and the sampling depth.
  • the soil nutrient value and the soil pH value are more controllable and precise by setting the sampling time and the sampling depth, so as to achieve a better grasp of the soil condition of the flower growing.
  • the soil nutrient measuring instrument 1 and the pH meter 2 are disposed on a movable soil detecting probe, and the sampling control module 31 is connected with a driving device for driving the movement of the soil detecting probe.
  • the driving device can be driven by electric or manual.
  • the soil detecting probe can be moved up or down or left and right.
  • the sampling depth includes the specific location of the sample and controls the sampling depth by the movement of the soil detection probe.
  • the data processing module 32 includes: an analyzing and comparing unit 321 for comparing the detected soil nutrient value and the soil pH value with the growth standard parameter, and judging Whether the current growing environment of the flower is abnormal.
  • the data processing module 32 further includes: a first curve drawing unit 322, configured to draw a soil pH-time curve according to the detected soil pH value, so that Observe the change of soil pH.
  • the data processing module 32 The method further includes: a second curve drawing unit 323, configured to draw a soil pH value-humidity curve according to the detected soil pH value, so as to observe the relationship between the soil pH value and the humidity, and facilitate the user to determine whether the humidity is too large. Or too small to affect the pH of the soil.
  • the data processing module 32 further includes: a third curve drawing unit 324, configured to draw a soil pH value-soil nutrient curve according to the detected soil pH value, In order to observe the relationship between soil pH and soil nutrients, it is convenient for users to judge whether soil nutrients have an effect on soil pH.
  • the data processing module 32 further includes: a fourth curve drawing unit 325, configured to map the soil nutrient value-time change according to the detected soil nutrient value. Curve to facilitate observation of changes in soil pH.
  • the sampling time includes sampling specific time points or sampling frequencies, that is, it can be set at which time or time period to sample, or the sampling frequency can be set based on 24 hours a day. .

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Abstract

一种家庭花卉种植土壤参数检测装置,包括用于检测土壤养分值的土壤养分测定仪(1)和用于检测土壤pH值的pH计(2),还包括控制器(3);控制器(3)包括用于控制土壤养分测定仪(1)工作状况及pH计(2)工作状况的采样控制模块(31);控制器(3)还包括用于对土壤养分值和土壤pH值进行分析的数据处理模块(32);控制器(3)连接有用于设置采样时间和采样深度的参数设置模块(4)。通过设置采样时间和采样深度使得土壤养分值和土壤pH值更加可控和精确,以实现对花卉生长土壤状况的更好掌握。

Description

一种家庭花卉种植土壤参数检测装置 技术领域
本发明涉及智能硬件技术领域,更具体地说,涉及一种家庭花卉种植土壤参数检测装置。
背景技术
花卉种植可以美化环境,陶冶情操,随着人们生活水平的提高,城市或乡镇居民都喜爱在家种植各种盆栽。但是有些植物品种并不是在任何地方任何环境下都能很好的生长,导致很多人因缺乏专业种植知识而无法顺利种植。现在市场上针对于家庭用户花卉种植方面的仪器很少,而现有的土壤测试仪,水分测试仪都是工业用途,专业领域,并不能对用户的花卉种植带来帮助另一方面,很多家庭用户需要的是直接的针对性的种植建议,比如家里每种花卉实时的光照,温湿度,土壤养分,水分等数据采集及种植方法。
发明内容
本发明要解决的技术问题在于,针对现有技术的上述缺陷,提供一种家庭花卉种植土壤参数检测装置。
本发明解决其技术问题所采用的技术方案是:
构造一种家庭花卉种植土壤参数检测装置,其中,包括用于检测土壤养分值的土壤养分测定仪和用于检测土壤pH值的pH计,还包括控制器;所述控制器包括用于控制所述土壤养分测定仪工作状况及所述pH计工作状况的采样控 制模块;所述控制器还包括用于对所述土壤养分值和土壤pH值进行分析的数据处理模块;所述控制器连接有用于设置采样时间和采样深度的参数设置模块。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述土壤养分测定仪和所述pH计设置于可移动的土壤检测探针上,所述采样控制模块连接有用于驱动所述土壤检测探针移动的驱动装置。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述数据处理模块包括:
分析对比单元,用于将检测到的土壤养分值和土壤pH值与生长标准参数进行对比,并判断花卉当前生长环境是否异常。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述数据处理模块还包括:
第一曲线绘制单元,用于根据检测到的土壤pH值,绘制出土壤pH值-时间曲线。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述数据处理模块还包括:
第二曲线绘制单元,用于根据检测到的土壤pH值,绘制出土壤pH值-湿度曲线。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述数据处理模块还包括:
第三曲线绘制单元,用于根据检测到的土壤pH值,绘制出土壤pH值-土壤养分曲线。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述数据处理模块 还包括:
第四曲线绘制单元,用于根据检测到的土壤养分值,绘制出土壤养分值-时间变化曲线。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述采样时间包括采样具体时间点或采样频率。
本发明所述的家庭花卉种植土壤参数检测装置,其中,所述采样深度包括采样的具体位置,并通过所述土壤检测探针的移动控制采样深度。
本发明的有益效果在于:通过设置采样时间和采样深度使得土壤养分值和土壤pH值更加可控和精确,以实现对花卉生长土壤状况的更好掌握。
附图说明
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将结合附图及实施例对本发明作进一步说明,下面描述中的附图仅仅是本发明的部分实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他附图:
图1是本发明较佳实施例的家庭花卉种植土壤参数检测装置原理框图;
图2是本发明较佳实施例的家庭花卉种植土壤参数检测装置的控制器原理框图;
图3是本发明较佳实施例的家庭花卉种植家庭花卉种植土壤参数检测装置的数据处理模块原理框图。
具体实施方式
为了使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发 明实施例中的技术方案进行清楚、完整的描述,显然,所描述的实施例是本发明的部分实施例,而不是全部实施例。基于本发明的实施例,本领域普通技术人员在没有付出创造性劳动的前提下所获得的所有其他实施例,都属于本发明的保护范围。
本发明较佳实施例的家庭花卉种植土壤参数检测装置结构原理如图1和图2所示,包括用于检测土壤养分值的土壤养分测定仪1和用于检测土壤pH值的pH计2,还包括控制器3;控制器3包括用于控制土壤养分测定仪工作状况及pH计工作状况的采样控制模块31;控制器3还包括用于对土壤养分值和土壤pH值进行分析的数据处理模块32;控制器3连接有用于设置采样时间和采样深度的参数设置模块4。本实施例通过设置采样时间和采样深度使得土壤养分值和土壤pH值更加可控和精确,以实现对花卉生长土壤状况的更好掌握。
上述家庭花卉种植土壤参数检测装置中,土壤养分测定仪1和pH计2设置于可移动的土壤检测探针上,采样控制模块31连接有用于驱动土壤检测探针移动的驱动装置。驱动装置的驱动方式可以是电动或手动。土壤检测探针移动方式可以是上下移动或左右移动。采样深度包括采样的具体位置,并通过土壤检测探针的移动控制采样深度。
上述家庭花卉种植土壤参数检测装置中,如图3所示,数据处理模块32包括:分析对比单元321,用于将检测到的土壤养分值和土壤pH值与生长标准参数进行对比,并判断花卉当前生长环境是否异常。
上述家庭花卉种植土壤参数检测装置中,如图3所示,数据处理模块32还包括:第一曲线绘制单元322,用于根据检测到的土壤pH值,绘制出土壤pH值-时间曲线,以便于观察土壤pH值变化情况。
上述家庭花卉种植土壤参数检测装置中,如图3所示,数据处理模块32 还包括:第二曲线绘制单元323,用于根据检测到的土壤pH值,绘制出土壤pH值-湿度曲线,以便于观察土壤pH值与湿度之间的关系,方便用户判断是否因湿度过大或过小影响土壤的pH值。
上述家庭花卉种植土壤参数检测装置中,如图3所示,数据处理模块32还包括:第三曲线绘制单元324,用于根据检测到的土壤pH值,绘制出土壤pH值-土壤养分曲线,以便于观察土壤pH值与土壤养分之间的关系,方便用户判断土壤养分是否对土壤pH值有影响。
上述家庭花卉种植土壤参数检测装置中,如图3所示,数据处理模块32还包括:第四曲线绘制单元325,用于根据检测到的土壤养分值,绘制出土壤养分值-时间变化曲线,以便于观察土壤pH值变化情况。
上述家庭花卉种植土壤参数检测装置中,采样时间包括采样具体时间点或采样频率,即,可以设定具体在哪一时间或时间段进行采样,也可以以一天24小时时间为基准设置采样的频率。
应当理解的是,对本领域普通技术人员来说,可以根据上述说明加以改进或变换,而所有这些改进和变换都应属于本发明所附权利要求的保护范围。

Claims (10)

  1. 一种家庭花卉种植土壤参数检测装置,其特征在于,包括用于检测土壤养分值的土壤养分测定仪和用于检测土壤pH值的pH计,还包括控制器;所述控制器包括用于控制所述土壤养分测定仪工作状况及所述pH计工作状况的采样控制模块;所述控制器还包括用于对所述土壤养分值和土壤pH值进行分析的数据处理模块;所述控制器连接有用于设置采样时间和采样深度的参数设置模块。
  2. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述土壤养分测定仪和所述pH计设置于可移动的土壤检测探针上,所述采样控制模块连接有用于驱动所述土壤检测探针移动的驱动装置。
  3. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述数据处理模块包括:
    分析对比单元,用于将检测到的土壤养分值和土壤pH值与生长标准参数进行对比,并判断花卉当前生长环境是否异常。
  4. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述数据处理模块还包括:
    第一曲线绘制单元,用于根据检测到的土壤pH值,绘制出土壤pH值-时间曲线。
  5. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述数据处理模块还包括:
    第二曲线绘制单元,用于根据检测到的土壤pH值,绘制出土壤pH值-湿度曲线。
  6. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述数据处理模块还包括:
    第三曲线绘制单元,用于根据检测到的土壤pH值,绘制出土壤pH值-土壤养分曲线。
  7. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述数据处理模块还包括:
    第四曲线绘制单元,用于根据检测到的土壤养分值,绘制出土壤养分值-时间变化曲线。
  8. 根据权利要求1所述的家庭花卉种植土壤参数检测装置,其特征在于,所述采样时间包括采样具体时间点或采样频率。
  9. 根据权利要求2所述的家庭花卉种植土壤参数检测装置,其特征在于,所述采样深度包括采样的具体位置,并通过所述土壤检测探针的移动控制采样深度。
  10. 根据权利要求2所述的家庭花卉种植土壤参数检测装置,其特征在于,所述驱动装置的驱动方式是电动或手动,所述土壤检测探针移动方式是上下移动或左右移动。
PCT/CN2016/095403 2016-08-15 2016-08-15 一种家庭花卉种植土壤参数检测装置 WO2018032291A1 (zh)

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CN116609506A (zh) * 2023-04-06 2023-08-18 江苏上元农业科技发展有限公司 一种农业大数据分析装置及其分析系统

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