JP3243119U - High-precision road surface inundation measuring device - Google Patents

Abstract

A highly accurate road surface inundation measurement device including a body assembly and a measurement assembly. A measurement assembly is mounted on the upper surface of the body assembly of the present invention, and the body assembly includes a top plate, a first groove, a first tube, a second tube, and a base. Including, by cooperation with the liquid level flow sensor and the PLC controller, it is possible to automatically control the on / off of the first solenoid valve and the second solenoid valve, and the liquid level sensor detects the height at which the liquid drops Reading, when the liquid level reaches the value set by the liquid level sensor, it will transmit a signal to the PLC controller, and the PLC controller will read and calculate the timer time, and transmit the measured data to the end of the external equipment. , and open the buzzer to emit a high-decibel buzzer to remind people to see the measurement results in a timely manner, without the need for manual operation, to prevent the occurrence of operator error, countdown delay or wrong countdown. Avoid and reduce the work intensity of employees, but also improve the accuracy of measurement results. [Selection diagram] Fig. 1

Description

TECHNICAL FIELD The present invention relates to the technical field of water permeability test, and more particularly to a highly accurate road surface water seepage measurement device.

The asphalt road surface is the most commonly used road surface structure on current roads, and the water infiltration coefficient of the asphalt road surface directly affects the durability performance of the road. In general, the asphalt road surface is dense and impermeable to water, but if the asphalt road surface is too wet, the water on the road surface will seep down into the base layer or roadbed, thus reducing the load carrying capacity of the road surface. , the road surface structure is destroyed. Therefore, in the quality control process of the road construction and maintenance process, it is common to use the flooding device to detect the water infiltration of the road.

Conventional water intrusion measurement equipment generally adopts the method of manual operation and measurement, and the time counting countdown may have operator error, countdown delay or misreading, which will cause errors in the measurement results. It not only increases the work intensity of the test detector, but also reduces the accuracy of the measurement results, and the sealing performance of the conventional water infiltration measurement device is common. Therefore, we propose a highly accurate road surface inundation measuring device.

Therefore, the embodiments of the present invention aim to solve or mitigate the technical problems existing in the prior art, and to provide a highly accurate road flooding measuring device for providing at least one beneficial choice.

The technical solutions of the embodiments of the present invention are implemented as follows. A highly accurate road surface inundation measurement device including a body assembly and a measurement assembly, wherein the measurement assembly is attached to the top surface of the body assembly,
The body assembly includes a top plate, a first groove, a first tubular body, a second tubular body, and a base, wherein the first groove is formed on the upper surface of the top plate, A base is provided below the top plate, a second tubular body communicates with the inner bottom wall of the first groove, and a first tubular body is provided below the top plate,
the measurement assembly includes a PLC controller, a liquid level sensor, a timer, a graduated 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 attached to the upper surface of the top plate, a first solenoid valve is attached to the outer wall of the second tubular body, and a second solenoid valve is attached to the outer wall of the first tubular body and a liquid flow sensor, a graduated cylinder is attached to the inner bottom wall of the first groove, and the signal output ends of the liquid flow sensor and the liquid level sensor are connected to the signal of the PLC controller through a lead wire The electrical input ends of the first solenoid valve, the second solenoid valve, the buzzer and the timer are electrically connected to the electrical output end of the PLC controller.

Preferably, the body assembly includes a first elastomeric seal ring, a vertical bar, a circular counterweight, a second groove, a seal washer, a third groove and a second elastomeric seal. further comprising a ring;
A third groove is formed on the lower surface of the base, the top end of the first tube passes through the inner top wall of the third groove, and the bottom end of the second tube is the Communicating with the inner top wall of the third groove, the second pipe communicates with the graduated cylinder, and the above installation allows the water in the graduated cylinder to be injected into the third groove. be able to.

Preferably, a second concave groove is formed on the upper surface of the base, and a circular counterweight is attached to the inner wall of the second concave groove. can be improved.

Preferably, a first elastic seal ring is bonded to the inner wall of the first groove, and the inner wall of the first elastic seal ring is bonded to the outer wall of the graduated cylinder. can improve the sealing performance between the graduated cylinder and the first concave groove.

Preferably, three vertical rods are welded to the bottom surface of the top plate, and the bottom of the vertical rods is welded to the top surface of the base to play a supporting role for the top plate.

Preferably, a seal washer is adhered to the inner wall of the third groove, and the above installation can improve the sealing performance between the device and the ground.

Preferably, a second elastic sealing ring is adhered to the outer wall of the base, and the above installation can improve the measuring accuracy of the device.

Preferably, both the first groove and the second groove are circular grooves, and the third groove is a tapered groove.

The embodiment of the present invention adopts the above technical solutions and has the following advantages.

1. The liquid level flow sensor and the PLC controller cooperate to automatically control the on/off of the first and second solenoid valves, and the liquid level sensor reads the height of the liquid drop. , when the liquid level reaches the value set by the liquid level sensor, it transmits a signal to the PLC controller, and the PLC controller reads and calculates the time of the timer, and transmits the measured data to the external device end, and open the buzzer to emit a high-decibel buzzing sound to remind people to see the measurement results in a timely manner, without the need for manual operation, avoiding the occurrence of operator error, countdown delay or wrong countdown. not only reduces the work intensity of employees, but also improves the accuracy of measurement results,
2. The sealing washer can improve the sealing performance between the third concave groove and the ground, and the circular counterweight and the base cooperate to form a second elastic seal to form an extrusion on the ground. By moving the ring and double installation, the sealing effect of this device is greatly improved.

The above summary is for purposes of specification only and is not intended to be limiting in any way. In addition to the exemplary aspects, embodiments and features described above, further aspects, embodiments and features of the present invention will become better understood by reference to the drawings and following detailed description.

In order to describe the embodiments of the present application or the technical solutions in the prior art more clearly, the following briefly introduces the drawings that need to be used in the embodiments or the technical description. The drawings in the description are just some embodiments of the present application, and those skilled in the art can also obtain other drawings based on these drawings without creative effort.
1 is a structural diagram of the present invention; FIG. 1 is a front structural schematic view of the present invention; FIG. FIG. 4 is a schematic view of the planar connection structure of the base and circular counterweight of the present invention; 1 is a circuit diagram of the present invention; FIG.

Some exemplary implementations are briefly described below. As those skilled in the art will recognize, the described embodiments can be modified in a variety of different ways without departing from the spirit or scope of the invention. As such, the drawings and description are to be considered illustrative in nature rather than restrictive.

The embodiments of the present invention are described in detail below in conjunction with the drawings.

As shown in FIGS. 1-4, the embodiment of the present invention provides a high-precision road flooding measuring device, which includes a main body assembly 1 and a measuring assembly 2, a main body assembly A measurement assembly 2 is attached to the upper surface of 1,
The body assembly 1 includes a top plate 10, a first concave groove 12, a first tubular body 101, a second tubular body 102, and a base 18. The upper surface of the top plate 10 has a first concave groove. A groove 12 is formed, a base 18 is provided below the top plate 10, a second tubular body 102 communicates with the inner bottom wall of the first groove 12, and a first tubular body is provided below the top plate 10. 101 is provided,
The measurement assembly 2 includes a PLC controller 20, a liquid level sensor 21, a timer 22, a graduated cylinder 23, a first solenoid valve 24, a buzzer 25, a liquid flow sensor 26, and a second solenoid valve 27. including
A PLC controller 20, a timer 22 and a buzzer 25 are attached to the upper surface of the top plate 10, a first electromagnetic valve 24 is attached to the outer wall of the second tubular body 102, and a first electromagnetic valve 24 is attached to the outer wall of the first tubular body 101. A second solenoid valve 27 and a liquid flow sensor 26 are installed, a graduated cylinder 23 is attached to the inner bottom wall of the first groove 12, and the signal output ends of the liquid flow sensor 26 and the liquid level sensor 21 are connected to the lead wire. through the signal input end of the PLC controller 20, the electrical input end of the first solenoid valve 24, the second solenoid valve 27, the buzzer 25 and the timer 22 are connected to the electrical output end of the PLC controller 20 is electrically connected to

In one embodiment, the body assembly 1 includes a first elastic seal ring 11, a vertical bar 13, a circular counterweight 14, a second groove 15, a seal washer 16 and a third groove. 17 and a second elastomeric seal ring 19,
A third groove 17 is formed on the lower surface of the base 18, the top end of the first tube 101 passes through the inner top wall of the third groove 17, and the bottom end of the second tube 102 is Communicating with the inner top wall of the third recessed groove 17, the second tubular body 102 communicates with the graduated cylinder 23, and the second tubular body 102 allows water to flow from the graduated cylinder 23 into the third recess. It is used to communicate the graduated cylinder 23 and the third recessed groove 17 so that the flow into the groove 17 is facilitated.

In one embodiment, a second groove 15 is formed on the upper surface of the base 18, and a circular counterweight 14 is attached to the inner wall of the second groove 15 to install the second groove 15. , the contact area between the circular counterweight 14 and the base 18 can be increased, and it also serves as a limit for the circular counterweight 14, thereby improving the stability of the circular counterweight 14 and increasing the stability of the circular counterweight 14. By installing the weight 14, the stability of the device can be improved.

In one embodiment, the first elastic seal ring 11 is attached to the inner wall of the first groove 12, and the inner wall of the first elastic seal ring 11 is attached to the outer wall of the graduated cylinder 23. By installing the first elastic seal ring 11, the seal between the graduated cylinder 23 and the first recessed groove 12 can be improved, and the graduated cylinder 23 can play a role of limit fixation. can.

In one embodiment, three vertical bars 13 are welded to the bottom surface of the top plate 10 , the bottom of the vertical bars 13 are welded to the top surface of the base 18 , and the vertical bars 13 are installed to attach to the top plate 10 . can play a supporting role.

In one embodiment, a seal washer 16 is adhered to the inner wall of the third groove 17, and the installation of the seal washer 16 can improve the sealing performance between the device and the ground.

In one embodiment, a second elastomeric sealing ring 19 is adhered to the outer wall of the base 18, and the second elastomeric sealing ring 19 is installed to enhance the sealing between the device and the ground, thereby This can improve the measurement accuracy of the device.

In one embodiment, both the first groove 12 and the second groove 15 are circular grooves, and the third groove 17 is a tapered groove.

In one embodiment, the model number of the PLC controller 20 is PTS31-27, the model number of the liquid level sensor 21 is YH2088, the model number of the timer 22 is KG316T, and the model number of the first solenoid valve 24 is , LD51, the model number of the buzzer 25 is YMD-12095, the model number of the liquid flow sensor 26 is LD20, and the model number of the second solenoid valve 27 is CF8-E.

In one embodiment, one side of the top plate 10 has 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 on/off. The switch set is connected to an external commercial power supply, PLC controller 20, liquid level sensor 21, timer 22, first solenoid valve 24, buzzer 25, liquid flow sensor 26 and It is used to power the second solenoid valve 27 .

In the present invention, during operation, the device is placed on the ground material that needs to be measured, a certain amount of water is injected into the graduated cylinder 23, the first solenoid valve 24 and the second solenoid valve 27 are turned on by the switch, When the liquid flow sensor 26 detects that water flows out of the first tube 101, it is explained that the water has emptied the air inside the third groove 17, and the liquid flow sensor 26 outputs a signal. is transmitted to the PLC controller 20, the PLC controller 20 turns off the first solenoid valve 24 and the second solenoid valve 27, and the operator refills the graduated cylinder 23 with water so that the water source in the graduated cylinder 23 is When 100 mL is reached and the liquid level sensor 21 detects that the water source reaches a height of 100 mL, it transmits a signal to the PLC controller 20, and the PLC controller 20 opens the timer 22 and the first solenoid valve 24 at the same time, and the liquid When the level drops to a height of 500 mL, the test is stopped, the liquid level sensor 21 transmits a signal to the PLC controller 20, the PLC controller 20 reads and records the time value of the timer 22, and the PLC controller 20 , By calculating, the measurement result can be sent to the external moving end, and the external moving device end can see the water permeability of the road surface material, no need to manually count down and calculate, reducing the work intensity of workers and improve accuracy during measurement.

As mentioned above, although this is only a specific embodiment of the present invention, the protection scope of the present invention is not limited thereto, and any person skilled in the art can make various modifications or Substitutions can be easily conceived and should be included in the protection scope of the present invention. Therefore, the protection scope of the present invention should be based on the protection scope of the above claims.

Reference Signs List 1 body assembly 10 top plate 11 first elastic seal ring 12 first groove 13 vertical bar 14 circular counterweight 15 second groove 16 seal washer 17 third groove , 18 base, 19 second elastic seal ring, 101 first tube, 102 second tube, 2 measurement assembly, 20 PLC controller, 21 liquid level sensor, 22 timer, 23 graduated cylinder, 24 first solenoid valve, 25 buzzer, 26 liquid flow sensor, 27 second solenoid valve

Claims (8)

A highly accurate road surface water inundation measuring device comprising a body assembly (1) and a measurement assembly (2), wherein the measurement assembly (2) is mounted on the upper surface of the body assembly (1),
The body assembly (1) comprises a top plate (10), a first groove (12), a first tubular body (101), a second tubular body (102) and a base (18). A first groove (12) is established on the upper surface of the top plate (10), a base (18) is provided below the top plate (10), and the first groove (12) A second tubular body (102) communicates with the inner bottom wall of the top plate (10), and a first tubular body (101) is provided below the top plate (10),
Said measurement assembly (2) includes a PLC controller (20), a liquid level sensor (21), a timer (22), a graduated cylinder (23), a first solenoid valve (24) and 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 mounted on the upper surface of the top plate (10), and a first electromagnetic valve (24) is mounted on the outer wall of the second tubular body (102). A second solenoid valve (27) and a liquid flow sensor (26) are attached to the outer wall of the first tubular body (101), and a female is attached to the inner bottom wall of the first groove (12). A cylinder (23) is bonded together, and the signal output ends of the liquid flow rate sensor (26) and the liquid level sensor (21) are electrically connected to the signal input end of the PLC controller (20) through conductors. , the electrical inputs of the first solenoid valve (24), the second solenoid valve (27), the buzzer (25) and the timer (22) are electrically connected to the electrical output of the PLC controller (20). A high-precision road surface inundation measuring device, characterized in that it is physically connected.
Said body assembly (1) comprises a first elastic seal ring (11), a vertical bar (13), a circular counterweight (14), a second groove (15) and a seal washer (16) and a third groove (17) and a second elastic seal ring (19),
A third groove (17) is formed on the lower surface of the base (18), and the top end of the first tubular body (101) penetrates the inner top wall of the third groove (17), The bottom end of the second tubular body (102) communicates with the inner top wall of the third groove (17), and the second tubular body (102) interacts with the graduated cylinder (23). 2. The high-precision road surface water inundation measuring device according to claim 1, characterized in that it communicates with .
A second groove (15) is formed on the upper surface of the base (18), and a circular counterweight (14) is attached to the inner wall of the second groove (15). The highly accurate road surface water inundation measuring device according to claim 1.
A first elastic seal ring (11) is attached to the inner wall of the first groove (12), and the inner wall of the first elastic seal ring (11) is attached to the graduated cylinder (23). 2. The high-precision road surface water inundation measuring device according to claim 1, characterized in that it is attached to the outer wall of the road surface.
2. The method according to claim 1, characterized in that three vertical bars (13) are welded to the lower surface of said top plate (10), and the bottom of said vertical bars (13) is welded to the upper surface of said base (18). High-precision road surface inundation measuring device described.
3. The highly accurate road surface water inundation measuring device according to claim 2, characterized in that a seal washer (16) is adhered to the inner wall of said third groove (17).
The highly accurate road surface water inundation measuring device according to claim 1, characterized in that a second elastic sealing ring (19) is adhered to the outer wall of said base (18).
The first groove (12) and the second groove (15) are both circular grooves, and the third groove (17) is a tapered groove. The highly accurate road surface inundation measuring device according to claim 2.

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