WO2022262011A1 - 一种高精度路面渗水测量装置 - Google Patents
一种高精度路面渗水测量装置 Download PDFInfo
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- WO2022262011A1 WO2022262011A1 PCT/CN2021/103474 CN2021103474W WO2022262011A1 WO 2022262011 A1 WO2022262011 A1 WO 2022262011A1 CN 2021103474 W CN2021103474 W CN 2021103474W WO 2022262011 A1 WO2022262011 A1 WO 2022262011A1
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- WIPO (PCT)
- Prior art keywords
- groove
- wall
- water seepage
- pipe body
- top plate
- Prior art date
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- 238000005259 measurement Methods 0.000 title abstract description 24
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title abstract description 20
- 239000007788 liquid Substances 0.000 claims abstract description 38
- 238000007789 sealing Methods 0.000 claims description 34
- 229920001971 elastomer Polymers 0.000 claims description 17
- 239000000806 elastomer Substances 0.000 claims description 17
- 239000002352 surface water Substances 0.000 claims description 12
- 230000003111 delayed effect Effects 0.000 abstract description 2
- 239000010426 asphalt Substances 0.000 description 4
- 238000010586 diagram Methods 0.000 description 4
- 230000035699 permeability Effects 0.000 description 4
- 238000000034 method Methods 0.000 description 3
- 238000012360 testing method Methods 0.000 description 3
- 239000000463 material Substances 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000003908 quality control method Methods 0.000 description 1
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Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N15/00—Investigating characteristics of particles; Investigating permeability, pore-volume or surface-area of porous materials
- G01N15/08—Investigating permeability, pore-volume, or surface area of porous materials
Definitions
- the utility model relates to the technical field of water permeability testing, in particular to a high-precision road surface water seepage measuring device.
- Asphalt pavement is the most commonly used pavement structure for roads at present, and the water permeability coefficient of asphalt pavement directly affects the durability of roads.
- asphalt pavement is dense and impervious to water, but if the asphalt pavement seeps too much, the water on the pavement will penetrate downward into the base layer or roadbed, resulting in a reduction in the bearing capacity of the pavement and damage to the pavement structure. Therefore, in the quality control process of pavement construction and maintenance projects, the water seepage meter is generally used to detect the water permeability of the pavement.
- the existing water seepage measurement device usually adopts the method of manual operation and countdown, and there are situations where staff misuse, delay the countdown or read incorrectly, which leads to errors in the measurement results, which not only increases the work intensity of the test personnel , also reduces the accuracy of the measurement results, and the existing water seepage measurement device is generally tight. Therefore, a high-precision pavement water seepage measurement device is proposed.
- the embodiment of the utility model hopes to provide a high-precision road surface water seepage measurement device to solve or alleviate the technical problems in the prior art, and at least provide a beneficial option.
- a high-precision road surface water seepage measurement device includes a main body assembly and a measurement assembly, and the upper surface of the main body assembly is equipped with a measurement assembly;
- the main body assembly includes a top plate, a first groove, a first pipe body, a second pipe body and a base, the upper surface of the top plate is provided with a first groove, the bottom of the top plate is provided with a base, and the first The inner bottom wall of the groove is communicated with a second pipe body, and a first pipe body is provided below the top plate;
- the measuring assembly includes a PLC controller, a liquid level sensor, a timer, a measuring cylinder, a first solenoid valve, a buzzer, a liquid flow sensor and a second solenoid valve;
- a PLC controller, a timer and a buzzer are installed on the upper surface of the top plate, a first electromagnetic valve is installed on the outer wall of the second pipe body, and a second electromagnetic valve is installed on the outer wall of the first pipe body and a liquid flow sensor, the inner bottom wall of the first groove is fitted with a graduated cylinder, and the signal output ends of the liquid flow sensor and the liquid level sensor are electrically connected to the signal input end of the PLC controller through wires , the electrical input terminals of the first electromagnetic valve, the second electromagnetic valve, the buzzer and the timer are electrically connected with the electrical output terminals of the PLC controller.
- the main body assembly further includes a first elastomer sealing ring, a vertical rod, a circular counterweight, a second groove, a sealing washer, a third groove and a second elastomer sealing ring;
- the lower surface of the base is provided with a third groove, the top end of the first pipe body passes through the inner top wall of the third groove, and the bottom end of the second pipe body communicates with the third groove
- the inner top wall of the second pipe body communicates with the measuring cylinder; through the above arrangement, the water in the measuring cylinder can be poured into the third groove.
- the upper surface of the base is provided with a second groove, and the inner wall of the second groove is attached with a circular counterweight; through the above settings, the stability of the circular counterweight and the device can be improved .
- the inner sidewall of the first groove is attached with a first elastomer sealing ring, and the inner sidewall of the first elastomer sealing ring is attached to the outer sidewall of the measuring cylinder.
- the measuring cylinder and the measuring cylinder can be improved. Tightness between the first grooves.
- three uprights are welded on the lower surface of the top plate, and the bottoms of the uprights are welded to the upper surface of the base; the above arrangement can support the top plate.
- a sealing gasket is bonded to the inner sidewall of the third groove; the sealing between the device and the ground can be improved through the above arrangement.
- the outer wall of the base is bonded with a second elastomer sealing ring; the accuracy of measurement of the device can be improved through the above arrangement.
- the first groove and the second groove are circular grooves
- the third groove is a tapered groove.
- the first solenoid valve and the second solenoid valve can be automatically controlled to open and close, and the liquid drop height can be read through the liquid level sensor.
- the liquid level reaches the setting of the liquid level sensor
- the signal is transmitted to the PLC controller, and the PLC controller reads the time of the timer, and through calculation, transmits the measured data to the external device, and turns on the buzzer, which emits a high-pitched beep to remind people
- the sealing between the third groove and the ground can be improved, and then the second elastomer sealing ring is driven to squeeze the ground through the circular counterweight and the base.
- the double-layer setting greatly improves the performance of the device. sealing effect.
- Fig. 1 is a structural diagram of the utility model
- Fig. 2 is the main view structure schematic diagram of the utility model
- Fig. 3 is a schematic diagram of the top view connection structure of the base and the circular counterweight of the present invention
- Fig. 4 is the circuit diagram of the utility model.
- the embodiment of the utility model provides a high-precision road surface water seepage measurement device, including a main body assembly 1 and a measurement assembly 2, and the upper surface of the main body assembly 1 is installed with the measurement assembly 2;
- the main body assembly 1 includes a top plate 10, a first groove 12, a first pipe body 101, a second pipe body 102 and a base 18.
- the upper surface of the top plate 10 is provided with a first groove 12, and the bottom of the top plate 10 is provided with a base 18.
- the inner bottom wall of the first groove 12 is communicated with a second pipe body 102, and a first pipe body 101 is provided below the top plate 10;
- the measuring assembly 2 includes a PLC controller 20, a liquid level sensor 21, a timer 22, a measuring cylinder 23, a first solenoid valve 24, a buzzer 25, a liquid flow sensor 26 and a second solenoid valve 27;
- a PLC controller 20, a timer 22 and a buzzer 25 are installed on the upper surface of the top plate 10, a first electromagnetic valve 24 is installed on the outer wall of the second pipe body 102, and a second electromagnetic valve 24 is installed on the outer wall of the first pipe body 101.
- the valve 27 and the liquid flow sensor 26, the internal bottom wall of the first groove 12 is fitted with a graduated cylinder 23, and the signal output ends of the liquid flow sensor 26 and the liquid level sensor 21 are electrically connected to the signal input end of the PLC controller 20 through wires , the electrical input terminals of the first electromagnetic valve 24 , the second electromagnetic valve 27 , the buzzer 25 and the timer 22 are electrically connected with the electrical output terminals of the PLC controller 20 .
- the main body assembly 1 further includes a first elastomer sealing ring 11, a vertical rod 13, a circular weight 14, a second groove 15, a sealing gasket 16, a third groove 17 and a second elastomer sealing ring 19;
- the lower surface of the base 18 is provided with a third groove 17, the top of the first pipe body 101 runs through the inner top wall of the third groove 17, and the bottom end of the second pipe body 102 communicates with the inner top wall of the third groove 17 , the second tube body 102 communicates with the graduated cylinder 23; the second tube body 102 is used to communicate with the graduated cylinder 23 and the third groove 17, so as to facilitate the flow of water from the graduated cylinder 23 into the third groove 17.
- the upper surface of the base 18 is provided with a second groove 15, and the inner side wall of the second groove 15 is fitted with a circular weight 14; setting the second groove 15 can not only increase the size of the circular weight
- the contact area between the weight 14 and the base 18 also acts as a limit to the circular counterweight 14, thereby improving the stability of the circular counterweight 14, and setting the circular counterweight 14 can improve stability of the device.
- the inner sidewall of the first groove 12 is fitted with a first elastomeric sealing ring 11, and the inner sidewall of the first elastomeric sealing ring 11 is attached to the outer sidewall of the measuring cylinder 23; the first elastomeric sealing ring is provided
- the ring 11 not only improves the sealing performance between the measuring cylinder 23 and the first groove 12 , but also plays the role of limiting and fixing the measuring cylinder 23 .
- three vertical rods 13 are welded on the lower surface of the top board 10 , and the bottoms of the vertical rods 13 are welded to the upper surface of the base 18 ; the vertical rods 13 are arranged to support the top board 10 .
- a sealing gasket 16 is bonded to the inner wall of the third groove 17; the sealing gasket 16 can improve the sealing performance between the device and the ground.
- the outer wall of the base 18 is bonded with a second elastomer sealing ring 19; setting the second elastomer sealing ring 19 can increase the sealing between the device and the ground, thereby improving the reliability of the device during measurement. accuracy.
- both the first groove 12 and the second groove 15 are circular grooves, and the third groove 17 is a tapered groove.
- the model of the PLC controller 20 is PTS31-27
- the model of the liquid level sensor 21 is YH2088
- the model of the timer 22 is KG316T
- the model of the first solenoid valve 24 is LD51
- the model of the buzzer 25 It is YMD-12095
- the model of the liquid flow sensor 26 is LD20
- the model of the second electromagnetic valve 27 is CF8-E.
- one side of the top plate 10 is equipped with a PLC controller 20, a liquid level sensor 21, a timer 22, a first solenoid valve 24, a buzzer 25, a liquid flow sensor 26 and a second solenoid valve 27.
- the switch group for starting and closing, the switch group is connected with the external mains for PLC controller 20, liquid level sensor 21, timer 22, first electromagnetic valve 24, buzzer 25, liquid flow sensor 26 and the second electromagnetic Valve 27 is powered.
- the device When the utility model is working, the device is placed on the ground material to be measured, the vector cylinder 23 is poured into a certain amount of water, and the first solenoid valve 24 and the second solenoid valve 27 are opened by a switch.
- the liquid flow sensor 26 detects When water flows out of the first pipe body 101, it means that the water will empty the air inside the third groove 17, and the liquid flow sensor 26 will transmit the signal to the PLC controller 20, and the PLC controller 20 will close the first electromagnetic valve 24 and the second electromagnetic valve 24.
- the staff replenishes the water source in the vector cylinder 23, so that the water source in the measuring cylinder 23 reaches 100mL, when the liquid level sensor 21 detects that the water source reaches the height of 100mL, the signal is transmitted to the PLC controller 20, and the PLC controller 20 simultaneously Open the timer 22 and the first electromagnetic valve 24, when the liquid level drops to 500mL height, the test stops, the liquid level sensor 21 transmits the signal to the PLC controller 20, and the PLC controller 20 reads the time value of the timer 22 and records , the PLC controller 20 sends the measurement result to the external mobile terminal after calculation, and the water permeability of the pavement material can be checked through the external mobile device terminal, without manual countdown calculation, which not only reduces the work intensity of the workers, but also improves the measurement time. accuracy.
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- Chemical & Material Sciences (AREA)
- Dispersion Chemistry (AREA)
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Investigation Of Foundation Soil And Reinforcement Of Foundation Soil By Compacting Or Drainage (AREA)
- Measurement Of Levels Of Liquids Or Fluent Solid Materials (AREA)
Abstract
一种高精度路面渗水测量装置,包括主体组件(1)和测量组件(2),所述主体组件(1)的上表面安装有测量组件(2);所述主体组件(1)包括顶板(10)、第一凹槽(12)、第一管体(101)、第二管体(102)和底座(18);通过液位流量传感器(26)配合PLC控制器(20)可以对第一电磁阀(24)和第二电磁阀(27)自行控制打开与关闭,通过液位传感器(5)对液体下降高度进行读取,当液位达到液位传感器(5)所设定的数值时,将信号传递给PLC控制器(20),PLC控制器(20)读取定时器(22)的时间,通过计算,将测量好的数据传输到外部设备端,并打开蜂鸣器(25),发出高贝蜂鸣声提醒人们及时查看测量结果,无需人工操作,避免了工作人员误操作、延迟读秒或者误读秒的情况出现,不仅降低了工人的工作强度,还提高了测量结果的准确性。
Description
本实用新型涉及透水性测试技术领域,特别涉及一种高精度路面渗水测量装置。
沥青路面是目前公路最普遍采用的路面结构,沥青路面的渗水系数直接影响到公路的耐久性能。一般而言,沥青路面是密实且不透水的,但是如果沥青路面渗水过大,路面的水便会向下渗透进入基层或路基,致使路面承载能力降低,造成路面结构受到破坏。因此,在路面建设与养护工程质量控制过程中,一般利用渗水仪来检测路面的渗水性。
现有的渗水测量装置,通常采用人工手动操作测量的方法,计时读秒,存在工作人员误操作、延迟读秒或者误读数的情况,从而导致测量结果出现误差,不仅增加了试验检测人员的工作强度,还降低了测量结果的准确性,且现有的渗水测量装置密封性一般。为此,提出一种高精度路面渗水测量装置。
实用新型内容
有鉴于此,本实用新型实施例希望提供一种高精度路面渗水测量装置,以解决或缓解现有技术中存在的技术问题,至少提供一种有益的选择。
本实用新型实施例的技术方案是这样实现的:一种高精度路面渗水测量装置,包括主体组件和测量组件,所述主体组件的上表面安装有测量组件;
所述主体组件包括顶板、第一凹槽、第一管体、第二管体和底座,所述顶板的上表面开设有第一凹槽,所述顶板的下方设有底座,所述第一凹槽的内部底壁连通有第二管体,所述顶板的下方设有第一管体;
所述测量组件包括PLC控制器、液位传感器、定时器、量筒、第一电磁阀、蜂鸣器、液体流量传感器和第二电磁阀;
所述顶板的上表面安装有PLC控制器、定时器和蜂鸣器,所述第二管体的外侧壁安装有第一电磁阀,所述第一管体的外侧壁安装有第二电磁阀和液体流量传感器,所述第一凹槽的内部底壁贴合有量筒,所述液体流量传感器和所述液位传感器的信号输出端通过导线与所述PLC控制器的信号输入端电性连接,所述第一电磁阀、第二电磁阀、蜂鸣器和所述定时器的电性输入端与所述PLC控制器的电性输出端电性连接。
优选的,所述主体组件还包括第一弹性体密封圈、立杆、圆形配重块、第二凹槽、密封垫圈、第三凹槽和第二弹性体密封圈;
所述底座的下表面开设有第三凹槽,所述第一管体的顶端贯穿所述第三凹槽的内部顶壁,所述第二管体的底端连通于所述第三凹槽的内部顶壁,所述第二管体与所述量筒相互连通;通过以上设置可以将量筒内的水倒入到第三凹槽中。
优选的,所述底座的上表面开设有第二凹槽,所述第二凹槽的内侧壁贴合有圆形配重块;通过以上设置可以提高圆形配重块和本装置的稳定性。
优选的,所述第一凹槽的内侧壁贴合有第一弹性体密封圈,所述第一弹性体密封圈的内侧壁贴合于所述量筒的外侧壁,通过以上设置可以提高量筒和第一凹槽之间的密封性。
优选的,所述顶板的下表面焊接有三个立杆,所述立杆的底部焊接于所述底座的上表面;通过以上设置对顶板起到支撑的作用。
优选的,所述第三凹槽的内侧壁粘接有密封垫圈;通过以上设置可以提高本装置与地面之间的密封性。
优选的,所述底座的外侧壁粘接有第二弹性体密封圈;通过以上设置可以提高本装置测量时的准确性。
优选的,所述第一凹槽和所述第二凹槽均为圆形凹槽,所述第三凹槽为锥形凹槽。
本实用新型实施例由于采用以上技术方案,其具有以下优点:
一、通过液位流量传感器配合PLC控制器可以对第一电磁阀和第二电磁阀自行控制打开与关闭,通过液位传感器对液体下降高度进行读取,当液位达到液位传感器所设定的数值时,将信号传递给PLC控制器,PLC控制器读取定时器 的时间,通过计算,将测量好的数据传输到外部设备端,并打开蜂鸣器,发出高贝蜂鸣声提醒人们及时查看测量结果,无需人工操作,避免了工作人员误操作、延迟读秒或者误读秒的情况出现,不仅降低了工人的工作强度,还提高了测量结果的准确性;
二、通过密封垫圈,可以提高第三凹槽与地面之间的密封性,再通过圆形配重块配合底座带动第二弹性体密封圈对地面形成挤压,双层设置大大提高了本装置的密封效果。
上述概述仅仅是为了说明书的目的,并不意图以任何方式进行限制。除上述描述的示意性的方面、实施方式和特征之外,通过参考附图和以下的详细描述,本实用新型进一步的方面、实施方式和特征将会是容易明白的。
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,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的附图。
图1为本实用新型的结构图;
图2为本实用新型的主视结构示意图;
图3为本实用新型的底座和圆形配重块的俯视连接结构示意图;
图4为本实用新型的电路图。
附图标记:图中:1、主体组件;10、顶板;11、第一弹性体密封圈;12、第一凹槽;13、立杆;14、圆形配重块;15、第二凹槽;16、密封垫圈;17、第三凹槽;18、底座;19、第二弹性体密封圈;101、第一管体;102、第二管体;2、测量组件;20、PLC控制器;21、液位传感器;22、定时器;23、量筒;24、第一电磁阀;25、蜂鸣器;26、液体流量传感器;27、第二电磁阀。
在下文中,仅简单地描述了某些示例性实施例。正如本领域技术人员可认 识到的那样,在不脱离本实用新型的精神或范围的情况下,可通过各种不同方式修改所描述的实施例。因此,附图和描述被认为本质上是示例性的而非限制性的。
下面结合附图对本实用新型的实施例进行详细说明。
如图1-4所示,本实用新型实施例提供了一种高精度路面渗水测量装置,包括主体组件1和测量组件2,主体组件1的上表面安装有测量组件2;
主体组件1包括顶板10、第一凹槽12、第一管体101、第二管体102和底座18,顶板10的上表面开设有第一凹槽12,顶板10的下方设有底座18,第一凹槽12的内部底壁连通有第二管体102,顶板10的下方设有第一管体101;
测量组件2包括PLC控制器20、液位传感器21、定时器22、量筒23、第一电磁阀24、蜂鸣器25、液体流量传感器26和第二电磁阀27;
顶板10的上表面安装有PLC控制器20、定时器22和蜂鸣器25,第二管体102的外侧壁安装有第一电磁阀24,第一管体101的外侧壁安装有第二电磁阀27和液体流量传感器26,第一凹槽12的内部底壁贴合有量筒23,液体流量传感器26和液位传感器21的信号输出端通过导线与PLC控制器20的信号输入端电性连接,第一电磁阀24、第二电磁阀27、蜂鸣器25和定时器22的电性输入端与PLC控制器20的电性输出端电性连接。
在一个实施例中,主体组件1还包括第一弹性体密封圈11、立杆13、圆形配重块14、第二凹槽15、密封垫圈16、第三凹槽17和第二弹性体密封圈19;
底座18的下表面开设有第三凹槽17,第一管体101的顶端贯穿第三凹槽17的内部顶壁,第二管体102的底端连通于第三凹槽17的内部顶壁,第二管体102与量筒23相互连通;第二管体102用于连通量筒23和第三凹槽17,方便水从量筒23内流入到第三凹槽17中。
在一个实施例中,底座18的上表面开设有第二凹槽15,第二凹槽15的内侧壁贴合有圆形配重块14;设置第二凹槽15不仅可以增大圆形配重块14与底座18之间的接触面积,同时还对圆形配重块14起到限位的作用,从而提高了圆形配重块14的稳定性,设置圆形配重块14可以提高本装置的稳定性。
在一个实施例中,第一凹槽12的内侧壁贴合有第一弹性体密封圈11,第一 弹性体密封圈11的内侧壁贴合于量筒23的外侧壁;设置第一弹性体密封圈11不仅提高了量筒23与第一凹槽12之间的密封性,同时还对量筒23起到限位固定的作用。
在一个实施例中,顶板10的下表面焊接有三个立杆13,立杆13的底部焊接于底座18的上表面;设置立杆13对顶板10起到支撑的作用。
在一个实施例中,第三凹槽17的内侧壁粘接有密封垫圈16;设置密封垫圈16可以提高本装置与地面之间的密封性。
在一个实施例中,底座18的外侧壁粘接有第二弹性体密封圈19;设置第二弹性体密封圈19可以增加本装置与地面之间的密封性,从而提高了本装置测量时的准确性。
在一个实施例中,第一凹槽12和第二凹槽15均为圆形凹槽,第三凹槽17为锥形凹槽。
在一个实施例中,PLC控制器20的型号为PTS31-27,液位传感器21的型号为YH2088,定时器22的型号为KG316T,第一电磁阀24的型号为LD51,蜂鸣器25的型号为YMD-12095,液体流量传感器26的型号为LD20,第二电磁阀27的型号为CF8-E。
在一个实施例中,顶板10的一侧安装有用于控制PLC控制器20、液位传感器21、定时器22、第一电磁阀24、蜂鸣器25、液体流量传感器26和第二电磁阀27启动与关闭的开关组,开关组与外界市电连接,用以为PLC控制器20、液位传感器21、定时器22、第一电磁阀24、蜂鸣器25、液体流量传感器26和第二电磁阀27供电。
本实用新型在工作时,将本装置放置到需要测量的地面材料上,向量筒23倒入一定量的水源,通过开关打开第一电磁阀24和第二电磁阀27,当液体流量传感器26检测到第一管体101中有水流出,说明水将第三凹槽17内部的空气排空,液体流量传感器26将信号传递给PLC控制器20,PLC控制器20关闭第一电磁阀24和第二电磁阀27,工作人员向量筒23中补充水源,使得量筒23中的水源达到100mL,当液位传感器21检测到水源到达100mL高度时,将信号传递给PLC控制器20,PLC控制器20同时打开定时器22和第一电磁阀24,当液位下降到500mL高度时,试验停止,液位传感器21将信号传递给PLC控制器20, PLC控制器20读取定时器22的时间数值并记录,PLC控制器20经过计算,将测量结果发送到外部移动端,通过外部移动设备端可以查看到路面材料的透水性,无需人工读秒计算,不仅降低了工人的工作强度,同时提高了测量时的准确性。
以上所述,仅为本实用新型的具体实施方式,但本实用新型的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本实用新型揭露的技术范围内,可轻易想到其各种变化或替换,这些都应涵盖在本实用新型的保护范围之内。因此,本实用新型的保护范围应以所述权利要求的保护范围为准。
Claims (8)
- 一种高精度路面渗水测量装置,包括主体组件(1)和测量组件(2),其特征在于:所述主体组件(1)的上表面安装有测量组件(2);所述主体组件(1)包括顶板(10)、第一凹槽(12)、第一管体(101)、第二管体(102)和底座(18),所述顶板(10)的上表面开设有第一凹槽(12),所述顶板(10)的下方设有底座(18),所述第一凹槽(12)的内部底壁连通有第二管体(102),所述顶板(10)的下方设有第一管体(101);所述测量组件(2)包括PLC控制器(20)、液位传感器(21)、定时器(22)、量筒(23)、第一电磁阀(24)、蜂鸣器(25)、液体流量传感器(26)和第二电磁阀(27);所述顶板(10)的上表面安装有PLC控制器(20)、定时器(22)和蜂鸣器(25),所述第二管体(102)的外侧壁安装有第一电磁阀(24),所述第一管体(101)的外侧壁安装有第二电磁阀(27)和液体流量传感器(26),所述第一凹槽(12)的内部底壁贴合有量筒(23),所述液体流量传感器(26)和所述液位传感器(21)的信号输出端通过导线与所述PLC控制器(20)的信号输入端电性连接,所述第一电磁阀(24)、第二电磁阀(27)、蜂鸣器(25)和所述定时器(22)的电性输入端与所述PLC控制器(20)的电性输出端电性连接。
- 根据权利要求1所述的高精度路面渗水测量装置,其特征在于:所述主体组件(1)还包括第一弹性体密封圈(11)、立杆(13)、圆形配重块(14)、第二凹槽(15)、密封垫圈(16)、第三凹槽(17)和第二弹性体密封圈(19);所述底座(18)的下表面开设有第三凹槽(17),所述第一管体(101)的顶端贯穿所述第三凹槽(17)的内部顶壁,所述第二管体(102)的底端连通于所述第三凹槽(17)的内部顶壁,所述第二管体(102)与所述量筒(23)相互连通。
- 根据权利要求1所述的高精度路面渗水测量装置,其特征在于:所述底座(18)的上表面开设有第二凹槽(15),所述第二凹槽(15)的内侧壁贴合有圆形配重块(14)。
- 根据权利要求1所述的高精度路面渗水测量装置,其特征在于:所述第 一凹槽(12)的内侧壁贴合有第一弹性体密封圈(11),所述第一弹性体密封圈(11)的内侧壁贴合于所述量筒(23)的外侧壁。
- 根据权利要求1所述的高精度路面渗水测量装置,其特征在于:所述顶板(10)的下表面焊接有三个立杆(13),所述立杆(13)的底部焊接于所述底座(18)的上表面。
- 根据权利要求2所述的高精度路面渗水测量装置,其特征在于:所述第三凹槽(17)的内侧壁粘接有密封垫圈(16)。
- 根据权利要求1所述的高精度路面渗水测量装置,其特征在于:所述底座(18)的外侧壁粘接有第二弹性体密封圈(19)。
- 根据权利要求2所述的高精度路面渗水测量装置,其特征在于:所述第一凹槽(12)和所述第二凹槽(15)均为圆形凹槽,所述第三凹槽(17)为锥形凹槽。
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