WO2020228852A2 - 一种池塘水质监测装置 - Google Patents

一种池塘水质监测装置 Download PDF

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WO2020228852A2
WO2020228852A2 PCT/CN2020/105967 CN2020105967W WO2020228852A2 WO 2020228852 A2 WO2020228852 A2 WO 2020228852A2 CN 2020105967 W CN2020105967 W CN 2020105967W WO 2020228852 A2 WO2020228852 A2 WO 2020228852A2
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monitoring device
water quality
support plate
quality monitoring
sliding
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PCT/CN2020/105967
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English (en)
French (fr)
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WO2020228852A3 (zh
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陈去疾
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苏州瓦尔尼智能科技有限公司
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Priority to JP2020600141U priority Critical patent/JP3232994U/ja
Publication of WO2020228852A2 publication Critical patent/WO2020228852A2/zh
Publication of WO2020228852A3 publication Critical patent/WO2020228852A3/zh

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  • the utility model relates to the related technical field of water quality detection equipment, in particular to a pond water quality monitoring device.
  • Water quality refers to the abbreviation of water quality, which marks the physical properties of the water body, such as color, turbidity, odor, etc.; chemical properties, such as the content of inorganic and organic matter; biological properties, such as bacteria, microorganisms, plankton, The characteristics of benthic organisms and their composition status.
  • Water quality monitoring is to monitor and determine the types of pollutants in the water body, the concentration of various pollutants and the trend of change , The process of evaluating water quality conditions, with the continuous development of science and technology, at this stage, most water quality monitoring devices are used to complete water quality monitoring.
  • the existing pond water quality monitoring device cannot monitor the water quality at different depths in the pond as required due to its own structural defects, which results in the use of the device with greater limitations.
  • the purpose of the utility model is to provide a pond water quality monitoring device, which solves the problem that the existing pond water quality monitoring device cannot monitor the water quality of different depths in the pond according to the needs due to the defect of its own structure.
  • a pond water quality monitoring device comprising a support plate and support legs arranged on both sides of the bottom of the support plate, a sliding assembly is arranged at the middle of the bottom of the support plate, and the support
  • the top of the board is fixedly connected to the monitoring device body
  • the top of the monitoring device body is provided with a mounting frame
  • the solar panel is fixedly connected in the middle of the mounting frame.
  • a storage assembly is provided, a fixed sleeve is provided on one side of the monitoring device body, a slide bar is provided inside the fixed sleeve, a limit component is provided on one side of the slide bar, and a connection is provided on one side of the fixed sleeve.
  • the connecting rod is provided with a first limiting groove on one side of the outer wall.
  • the sliding assembly is composed of a placement groove, a cylinder, a connecting plate and a pulley, the placement groove is opened in the middle of the bottom of the support plate, the cylinder is provided inside the placement groove, and the connecting plate is provided at the bottom of the support plate, The output shaft of the cylinder is fixedly connected with the top of the connecting plate.
  • both ends of the connecting plate are provided with limit blocks
  • the middle positions of the limit blocks are provided with through holes matching the supporting legs
  • the limit blocks are sleeved with the outer wall of the supporting legs through the through holes .
  • the storage assembly is composed of a sliding groove and a sliding block, the sliding groove is opened inside the support plate, one side of the sliding groove is provided with an opening, the sliding block is arranged inside the sliding groove, and one end of the connecting rod
  • the through opening is fixedly connected with the outer wall of one side of the sliding block, and one end of the limiting bolt penetrates the sliding groove to abut the inside of the first limiting groove.
  • the limiting component is composed of a second limiting groove and a fixing bolt
  • the second limiting groove is opened inside one side of the sliding rod
  • the fixing bolt is arranged on the outer wall of one side of the fixing sleeve
  • the fixing One end of the bolt penetrates the inside of the fixed sleeve to abut against the inside of the second limiting groove.
  • the top of the sliding rod penetrates the fixed sleeve
  • the bottom of the sliding rod is fixedly connected with a detection head
  • the detection head is electrically connected to the monitoring device body through a wire
  • one side outer wall of the sliding rod is provided with Dial.
  • it further includes a battery and an inverter for power storage, and the battery and the inverter are both arranged on the back of the solar panel.
  • the battery, the inverter and the monitoring device body are connected by wires.
  • the pulleys are provided with two sets, the two sets of pulleys are respectively set on both sides of the bottom of the connecting plate, and the pulleys are universal wheels.
  • a waterproof and breathable membrane is installed on the outside of the battery and the inverter.
  • the user can screw the fixing bolts so that the fixing bolts can be far away from the second limit slot, and then This allows the user to move the slide bar up and down as needed, so that the height of the detection head can be adjusted as required under the action of the slide bar, and the detection head can be placed at different heights inside the pond under the action of the dial. Then, by opening the monitoring device body, the device can monitor the water quality of ponds at different depths, thereby effectively improving the applicability of the device.
  • the utility model is provided with a sliding assembly.
  • the cylinder can drive the pulley at the bottom of the connecting plate to move through the output shaft, and then move at the bottom of the pulley.
  • the user can move the device through the pulley, thereby improving the convenience of using the device.
  • Figure 1 is a schematic diagram of the overall structure of the utility model
  • Figure 2 is a schematic diagram of the overall internal structure of the utility model
  • Figure 3 is a schematic diagram of the structure of the storage assembly of the present invention.
  • Figure 4 is an enlarged view of the structure at A in Figure 2 of the utility model.
  • a pond water quality monitoring device comprising a supporting plate 1 and supporting legs 2 arranged on both sides of the bottom of the supporting plate 1.
  • the middle of the bottom of the supporting plate 1 A sliding assembly is provided, the top of the support plate 1 is fixedly connected with a monitoring device body 3, the top of the monitoring device body 3 is provided with a mounting frame 4, the mounting frame 4 is fixedly connected with a solar panel 5 in the middle, and the support plate 1
  • One side outer wall is provided with a limit bolt 6, a storage assembly is provided inside one side of the support plate 1, a fixed sleeve 7 is provided on one side of the monitoring device body 3, and a sliding rod 8 is provided inside the fixed sleeve 7.
  • a limiting component is provided on one side of the sliding rod 8, a connecting rod 9 is provided on one side of the fixed sleeve 7, and a first limiting groove 10 is provided on an outer wall of one side of the connecting rod 9.
  • the sliding assembly is composed of a placement groove 11, a cylinder 12, a connecting plate 13, and a pulley 14.
  • the placement groove 11 is opened in the middle of the bottom of the support plate 1, and the cylinder 12 is placed inside the placement groove 11.
  • the connecting plate 13 is arranged at the bottom of the supporting plate 1, the output shaft of the cylinder 12 is fixedly connected to the top of the connecting plate 13, and the pulley 14 is provided with two groups.
  • both ends of the connecting plate 13 are provided with limit blocks 15, and the middle position of the limit block 15 is provided with a through hole matching the supporting leg 2, and the limit block 15 is connected to the supporting leg 2 through the through hole.
  • the outer wall of the support leg 2 is sleeved, and a limit block 15 is provided to ensure the stability of the pulley 14 during the movement of the device during use.
  • the storage assembly is composed of a sliding groove 16 and a sliding block 17.
  • the sliding groove 16 is opened inside the support plate 1, and one side of the sliding groove 16 is provided with an opening, and the sliding block 17 is arranged in the sliding groove 16.
  • one end of the connecting rod 9 penetrates through the opening and is fixedly connected to the outer wall of one side of the slider 17, and one end of the limit bolt 6 penetrates through the sliding groove 16 to abut the inside of the first limit groove 10, and is in use
  • the user can twist the limit bolt 6 so that one end of the limit bolt 6 can be far away from the first limit slot 10, so that the connecting rod 9 can drive the slider 17 to move inside the chute 16, thereby facilitating use
  • the storage of the sliding rod 8 and the fixed sleeve 7 further improves the convenience of using the device.
  • the limiting component is composed of a second limiting groove 18 and a fixing bolt 19, the second limiting groove 18 is opened inside one side of the sliding rod 8, and the fixing bolt 19 is arranged on the fixing sleeve 7 On the side outer wall, one end of the fixing bolt 19 penetrates the inside of the fixing sleeve 7 and abuts against the inside of the second limiting groove 18.
  • the top of the sliding rod 8 penetrates the fixed sleeve 7, and the bottom of the sliding rod 8 is fixedly connected with a detection head 20, and the detection head 20 is electrically connected to the monitoring device body 3 through a wire, and the sliding
  • the outer wall of the rod 8 is provided with a dial 21.
  • the storage battery and the inverter are both arranged on the back of the solar panel 5.
  • the two sets of pulleys 14 are respectively set on both sides of the bottom of the connecting plate 13, and the pulleys 14 are universal wheels.
  • the battery, the inverter and the monitoring equipment body 3 are connected by wires.
  • a waterproof and breathable membrane is installed on the outside of the battery and inverter.
  • the user can twist the limit bolt 6 so that one end of the limit bolt 6 can be far away from the first limit slot 10, so that the connecting rod 9 can drive the fixed sleeve 7 and the sliding rod 8
  • the movable fixing sleeve 7 and the sliding rod 8 are moved to the edge of the pond.
  • the user can screw the fixing bolt 19 so that the fixing bolt 19 can be far away from the second limit groove 18, so that the user can perform the sliding rod 8 as needed.
  • the detection head 20 can be adjusted in height according to the needs, and under the action of the dial 21, the detection head 20 can be placed at different heights inside the pond, and then open the monitoring device body 3 Enable the device to monitor the water quality of ponds at different depths.
  • the user can open the cylinder 12 so that the cylinder 12 can drive the pulley 14 at the bottom of the connecting plate 13 to move through the output shaft, and then the pulley 14 When the bottom of 14 is in contact with the ground, the user can move the device through the pulley 14 to improve the convenience of using the device.

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Abstract

本实用新型公开了一种池塘水质监测装置,包括支撑板以及设置在支撑板底部两侧的支撑腿,所述支撑板底部中间位置设置有滑动组件,所述支撑板顶部固定连接有监测设备本体,所述监测设备本体顶部设置有安装架,所述安装架中间固定连接有太阳能板,所述支撑板一侧外壁设置有限位螺栓,所述支撑板一侧内部设置有收纳组件,所述监测设备本体一侧设置有固定套管。本实用新型通过对滑杆底部的检测头进行高度调节,进而使得装置能够实现对于不同深度的池塘水质进行监测,进而有效的提高了装置的适用性,同时通过设置的滑动组件方便了使用者对于装置的移动,进而提高了装置使用的便捷性。

Description

一种池塘水质监测装置 技术领域
本实用新型涉及水质检测设备相关技术领域,具体为一种池塘水质监测装置。
背景技术
水质指的是水体质量的简称,它标志着水体的物理性质,如色度、浊度、臭味等;化学性质,比如无机物和有机物的含量;生物性质,如细菌、微生物、浮游生物、底栖生物的特性及其组成的状况,而为了更好的了解水质情况,需要对水质进行监测工作,水质监测,是监视和测定水体中污染物的种类、各类污染物的浓度及变化趋势,评价水质状况的过程,随着科技水平的不断发展,现阶段对于水质监测监测大都采用水质监测装置来完成。
但是,现有的池塘水质监测装置由于本身结构的缺陷不能根据需要对池塘内部不同深度的水质进行监测工作,进而导致装置的使用具有较大的局限性。
实用新型内容
本实用新型的目的在于提供一种池塘水质监测装置,解决了现有的池塘水质监测装置由于本身结构的缺陷不能根据需要对池塘内部不同深度的水质进行监测工作,进而导致装置的使用具有较大的局限性的问题。
为实现上述目的,本实用新型提供如下技术方案:一种池塘水质监测装置,包括支撑板以及设置在支撑板底部两侧的支撑腿,所述支撑板底部中间位置设置有滑动组件,所述支撑板顶部固定连接有监测设备本体,所述监测设备本体顶部设置有安装架,所述安装架中间固定连接有太阳能板,所述支撑板一侧外壁设置有限位螺栓,所述支撑板一侧内部设置有收纳组件,所述监测设备本体一侧设置有固定套管,所述固定套管内部设置有滑杆,所述滑杆一侧设置有限位组件,所述固定套管一侧设置有连接杆,所述连接杆一侧 外壁设置有第一限位槽。
优选的,所述滑动组件由放置槽、气缸、连接板以及滑轮组成,所述放置槽开设在支撑板底部中间位置,所述气缸设置在放置槽内部,所述连接板设置在支撑板底部,所述气缸输出轴与所述连接板顶部固定连接。
优选的,所述连接板两端均设置有限位块,所述限位块中间位置均开设有与支撑腿相匹配的通孔,所述限位块通过通孔与所述支撑腿外壁套接。
优选的,所述收纳组件由滑槽、滑块组成,所述滑槽开设在支撑板内部,所述滑槽一侧开设有开口,所述滑块设置在滑槽内部,所述连接杆一端贯穿开口与所述滑块一侧外壁固定连接,且所述限位螺栓一端贯穿滑槽与所述第一限位槽内部相抵接。
优选的,所述限位组件由第二限位槽、固定螺栓组成,所述第二限位槽开设在滑杆一侧内部,所述固定螺栓设置在固定套管一侧外壁,所述固定螺栓一端贯穿固定套管内部与所述第二限位槽内部相抵接。
优选的,所述滑杆顶部贯穿固定套管,所述滑杆底部固定连接有检测头,所述检测头通过导线与所述监测设备本体电性连接,且所述滑杆一侧外壁设置有刻度盘。
优选的,还包括用于电量存储的蓄电池、逆变器,所述蓄电池、逆变器均设置在太阳能板的背面。
优选的,所述蓄电池、逆变器与监测设备本体之间通过导线连接。
优选的,所述滑轮设置有两组,两组所述滑轮分别设置在连接板底部两侧,且所述滑轮为万向轮。
优选的,所述蓄电池、逆变器的外侧均安装有防水透气膜。
具备以下有益效果:
(1)本实用新型通过设置监测设备本体、滑杆、固定套管、检测头、刻度盘以及限位组件,使用者可以通过拧动固定螺栓,使得固定螺栓能够远离 第二限位槽,进而使得使用者可以根据需要对滑杆进行上下移动,进而在滑杆的作用下使得检测头能够根据需要进行高度的调整,且配合刻度盘的作用下使得检测头能够被放置到池塘内部不同高度,然后通过打开监测设备本体使得装置能够实现对于不同深度的池塘水质进行监测,进而有效的提高了装置的适用性。
(2)本实用新型通过设置滑动组件,在进行使用时,使用者需要对装置进行移动时,只需通过打开气缸,使得气缸能够通过输出轴带动连接板底部的滑轮向移动,进而在滑轮底部与地面进行接触时,使用者能够通过滑轮对装置进行移动,进而提高了装置使用的便捷性。
附图说明
图1为本实用新型的整体结构示意图;
图2为本实用新型的整体内部结构示意图;
图3为本实用新型的收纳组件结构示意图;
图4为本实用新型的图2中A处结构放大图。
图中:1、支撑板;2、支撑腿;3、监测设备本体;4、安装架;5、太阳能板;6、限位螺栓;7、固定套管;8、滑杆;9、连接杆;10、第一限位槽;11、放置槽;12、气缸;13、连接板;14、滑轮;15、限位块;16、滑槽;17、滑块;18、第二限位槽;19、固定螺栓;20、检测头;21、刻度盘。
具体实施方式
如图1-4所示,本实用新型提供一种技术方案:一种池塘水质监测装置,包括支撑板1以及设置在支撑板1底部两侧的支撑腿2,所述支撑板1底部中间位置设置有滑动组件,所述支撑板1顶部固定连接有监测设备本体3,所述监测设备本体3顶部设置有安装架4,所述安装架4中间固定连接有太阳能板5,所述支撑板1一侧外壁设置有限位螺栓6,所述支撑板1一侧内部设置有收纳组件,所述监测设备本体3一侧设置有固定套管7,所述固定套管7内部 设置有滑杆8,所述滑杆8一侧设置有限位组件,所述固定套管7一侧设置有连接杆9,所述连接杆9一侧外壁设置有第一限位槽10。
进一步的,所述滑动组件由放置槽11、气缸12、连接板13以及滑轮14组成,所述放置槽11开设在支撑板1底部中间位置,所述气缸12设置在放置槽11内部,所述连接板13设置在支撑板1底部,所述气缸12输出轴与所述连接板13顶部固定连接,所述滑轮14设置有两组。
进一步的,所述连接板13两端均设置有限位块15,所述限位块15中间位置均开设有与支撑腿2相匹配的通孔,所述限位块15通过通孔与所述支撑腿2外壁套接,通过设置限位块15,进而使得装置在使用过程中能够保证滑轮14移动过程中的稳定性。
进一步的,所述收纳组件由滑槽16、滑块17组成,所述滑槽16开设在支撑板1内部,所述滑槽16一侧开设有开口,所述滑块17设置在滑槽16内部,所述连接杆9一端贯穿开口与所述滑块17一侧外壁固定连接,且所述限位螺栓6一端贯穿滑槽16与所述第一限位槽10内部相抵接,在进行使用时,使用者可以通过拧动限位螺栓6,使得限位螺栓6一端能够远离第一限位槽10,进而使得连接杆9能够带动滑块17在滑槽16内部进行移动,从而方便了使用者对于滑杆8以及固定套管7的收纳工作,进而提高了装置使用的便捷性。
进一步的,所述限位组件由第二限位槽18、固定螺栓19组成,所述第二限位槽18开设在滑杆8一侧内部,所述固定螺栓19设置在固定套管7一侧外壁,所述固定螺栓19一端贯穿固定套管7内部与所述第二限位槽18内部相抵接。
进一步的,所述滑杆8顶部贯穿固定套管7,所述滑杆8底部固定连接有检测头20,所述检测头20通过导线与所述监测设备本体3电性连接,且所述滑杆8一侧外壁设置有刻度盘21。
进一步的,还包括用于电量存储的蓄电池、逆变器,所述蓄电池、逆变器均设置在太阳能板5的背面。
进一步的,所述滑轮14设置有两组,两组所述滑轮14分别设置在连接板13底部两侧,且所述滑轮14为万向轮。
进一步的,所述蓄电池、逆变器与监测设备本体3之间通过导线连接。
进一步的,所述蓄电池、逆变器的外侧均安装有防水透气膜。
工作原理:在进行使用时,使用者可以通过拧动限位螺栓6,使得限位螺栓6一端能够远离第一限位槽10,进而使得连接杆9能带动固定套管7以及滑杆8进行移动固定套管7以及滑杆8移动到池塘边缘位置,使用者可以通过拧动固定螺栓19,使得固定螺栓19能够远离第二限位槽18,进而使得使用者可以根据需要对滑杆8进行上下移动,进而在滑杆8的作用下使得检测头20能够根据需要进行高度的调整,且配合刻度盘21的作用下使得检测头20能够被放置到池塘内部不同高度,然后通过打开监测设备本体3使得装置能够实现对于不同深度的池塘水质进行监测,同时在装置使用完成以后,使用者可以通过打开气缸12,使得气缸12能够通过输出轴带动连接板13底部的滑轮14向移动,进而在滑轮14底部与地面进行接触时,使用者能够通过滑轮14对装置进行移动,进而提高装置的使用的便捷性。

Claims (10)

  1. 一种池塘水质监测装置,包括支撑板(1)以及设置在支撑板(1)底部两侧的支撑腿(2),其特征在于:所述支撑板(1)底部中间位置设置有滑动组件,所述支撑板(1)顶部固定连接有监测设备本体(3),所述监测设备本体(3)顶部设置有安装架(4),所述安装架(4)中间固定连接有太阳能板(5),所述支撑板(1)一侧外壁设置有限位螺栓(6),所述支撑板(1)一侧内部设置有收纳组件,所述监测设备本体(3)一侧设置有固定套管(7),所述固定套管(7)内部设置有滑杆(8),所述滑杆(8)一侧设置有限位组件,所述固定套管(7)一侧设置有连接杆(9),所述连接杆(9)一侧外壁设置有第一限位槽(10)。
  2. 根据权利要求1所述的一种池塘水质监测装置,其特征在于:所述滑动组件由放置槽(11)、气缸(12)、连接板(13)以及滑轮(14)组成,所述放置槽(11)开设在支撑板(1)底部中间位置,所述气缸(12)设置在放置槽(11)内部,所述连接板(13)设置在支撑板(1)底部,所述气缸(12)输出轴与所述连接板(13)顶部固定连接。
  3. 根据权利要求1所述的一种池塘水质监测装置,其特征在于:所述连接板(13)两端均设置有限位块(15),所述限位块(15)中间位置均开设有与支撑腿(2)相匹配的通孔,所述限位块(15)通过通孔与所述支撑腿(2)外壁套接。
  4. 根据权利要求1所述的一种池塘水质监测装置,其特征在于:所述收纳组件由滑槽(16)、滑块(17)组成,所述滑槽(16)开设在支撑板(1)内部,所述滑槽(16)一侧开设有开口,所述滑块(17)设置在滑槽(16)内部,所述连接杆(9)一端贯穿开口与所述滑块(17)一侧外壁固定连接,且所述限位螺栓(6)一端贯穿滑槽(16)与所述第一限位槽(10)内部相抵接。
  5. 根据权利要求1所述的一种池塘水质监测装置,其特征在于:所述限 位组件由第二限位槽(18)、固定螺栓(19)组成,所述第二限位槽(18)开设在滑杆(8)一侧内部,所述固定螺栓(19)设置在固定套管(7)一侧外壁,所述固定螺栓(19)一端贯穿固定套管(7)内部与所述第二限位槽(18)内部相抵接。
  6. 根据权利要求1所述的一种池塘水质监测装置,其特征在于:所述滑杆(8)顶部贯穿固定套管(7),所述滑杆(8)底部固定连接有检测头(20),所述检测头(20)通过导线与所述监测设备本体(3)电性连接,且所述滑杆(8)一侧外壁设置有刻度盘(21)。
  7. 根据权利要求1所述的一种池塘水质监测装置,其特征在于:还包括用于电量存储的蓄电池、逆变器,所述蓄电池、逆变器均设置在太阳能板(5)的背面。
  8. 根据权利要求7所述的一种池塘水质监测装置,其特征在于:所述蓄电池、逆变器与监测设备本体(3)之间通过导线连接。
  9. 根据权利要求2所述的一种池塘水质监测装置,其特征在于:所述滑轮(14)设置有两组,两组所述滑轮(14)分别设置在连接板(13)底部两侧,且所述滑轮(14)为万向轮。
  10. 根据权利要求7所述的一种池塘水质监测装置,其特征在于:所述蓄电池、逆变器的外侧均安装有防水透气膜。
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