CN215763860U - Integrated runner pipe with sensor - Google Patents

Abstract

The utility model provides an integrated runner pipe of taking sensor, includes first runner pipe, second runner pipe, U type runner pipe, third runner pipe and sensor, U type runner pipe both ends are equipped with first opening and second opening respectively, and U type runner pipe middle part is equipped with the third opening, and first runner pipe one end is connected U type runner pipe first opening, and U type runner pipe second opening is connected to second runner pipe one end, and U type runner pipe third opening is connected to third runner pipe one end, the third runner pipe other end is equipped with mounting structure, the outer wall of first runner pipe, second runner pipe, U type runner pipe and third runner pipe is equipped with sensor mounting structure, and the sensor is located in the sensor mounting structure. The utility model overcomes the defects of difficult sensor installation and untimely fluid monitoring in the prior art, and provides the integrated runner pipe with the sensor, which can monitor the uniformity, humidity and pressure of fluid in each time period in the runner pipe in real time, so that an operator can better control the flow of input fluid.

Description

Integrated runner pipe with sensor

Technical Field

The utility model relates to the field of runner pipes, in particular to an integrated runner pipe with a sensor.

Background

Piping refers to a device for transporting a gas, liquid or fluid with solid particles connected by pipes, pipe couplings, valves, etc. Generally, a fluid is pressurized by a blower, a compressor, a pump, a boiler, etc., and then flows from a high pressure portion to a low pressure portion of a pipe, or is transported by the pressure or gravity of the fluid itself. The use of pipelines is very widespread, mainly in water supply, drainage, heating, gas supply, long-distance oil and gas delivery, agricultural irrigation, hydraulic engineering and various industrial installations.

Two kinds of liquid of traditional pipeline mixture need assemble the pipeline, and the process is loaded down with trivial details, and it is troublesome to damage the back change, and installs the sensor on the pipeline, and the installation is troublesome, and each item index such as the degree of consistency to liquid monitors the difficulty. For example, CN200780052928.2 provides a flow sensor of a flow channel pipe and a method for measuring flow, and when the flow sensor is used, the flow sensor is placed in the pipe, so that although flow detection is realized, the process of installing the flow sensor is complicated, and monitoring is not timely.

SUMMERY OF THE UTILITY MODEL

The utility model provides an integrated runner pipe with a sensor, aiming at overcoming the defect of difficult installation of the sensor in the prior art, and the integrated runner pipe with the sensor has the characteristic that the installation position of the integrated self-provided sensor can be detected in time.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

the utility model provides an integrated runner pipe of taking sensor, includes first runner pipe, second runner pipe, U type runner pipe, third runner pipe and sensor, U type runner pipe both ends are equipped with first opening and second opening respectively, and U type runner pipe middle part is equipped with the third opening, and U type runner pipe first opening is connected to first runner pipe one end, and U type runner pipe second opening is connected to second runner pipe one end, and U type runner pipe third opening is connected to third runner pipe one end, the third runner pipe other end is equipped with export mounting structure, the outer wall of first runner pipe, second runner pipe, U type runner pipe and third runner pipe is equipped with sensor mounting structure, and the sensor is located in the sensor mounting structure.

Preferably, the integrated runner pipe is of a 3D printing integrated structure. The 3D integration is printed and is saved the loaded down with trivial details process of pipeline equipment and sensor installation position installation, and the pipeline can directly be changed after damaging moreover.

Preferably, the sensors include a flow sensor, a humidity sensor, a uniformity sensor, and a pressure sensor.

Preferably, the first flow channel tube outer wall and the second flow channel tube outer wall are both provided with two sensor mounting structures.

Preferably, a flow sensor and a first pressure sensor are respectively arranged in the sensor mounting structures on the outer wall of the first flow channel pipe and the outer wall of the second flow channel pipe, the model of the flow sensor is WK-21B, and the model of the first pressure sensor is SBT 641. The flow sensor is an ultrasonic flow sensor, and the principle of the flow sensor is that when ultrasonic waves propagate in flowing fluid, the information of the flow velocity of the fluid is loaded, so that the flow velocity of the fluid can be detected through the received ultrasonic waves, and the flow velocity is converted into flow; the flow sensors respectively test the flow in the two flow channel pipes so as to obtain the flow of liquid. The pressure sensor is a ceramic pressure sensor based on piezoresistive effect, pressure directly acts on the front surface of the ceramic diaphragm to make the diaphragm generate tiny deformation, and the piezoresistive effect of the piezoresistor is utilized to test the pressure of liquid in the pipe so as to ensure the normal operation of the liquid. Two different fluids pass through the first flow channel pipe and the second flow channel pipe, and the first pressure sensor and the flow sensor respectively monitor the pressure value and the flow of the two fluids.

Preferably, two sensor mounting structures are arranged on two sides of the U-shaped runner pipe.

Preferably, the sensor mounting structures on two sides of the U-shaped runner pipe are respectively provided with a first uniformity sensor and a humidity sensor, the type of the first uniformity sensor is JC-074, and the type of the humidity sensor is HR 202L. The uniformity sensor is an optical sensor, and detects the existence of an object by utilizing the shading or reflection of the detected object to a light beam and gating a circuit by a synchronous loop, so that the change of current or voltage is transmitted out in a photoelectric mode. When the humidity of the environment changes, the dielectric constant of the humidity-sensitive capacitor changes, so that the capacitance of the humidity-sensitive capacitor also changes, the capacitance change quantity of the humidity-sensitive capacitor is in direct proportion to the relative humidity, and the humidity change is transmitted out in a capacitance mode. Through first degree of consistency sensor and humidity transducer, can more accurate control two fluidic homogeneity and humidity when mixing.

Preferably, the outer wall of the third flow channel pipe is provided with two sensor mounting structures.

Preferably, the sensor mounting structure on the outer wall of the third flow channel pipe is respectively provided with a second uniformity sensor and a second pressure sensor, wherein the model of the second uniformity sensor is JC-074, and the model of the second pressure sensor is SBT 641. The uniformity of the mixed fluid and the pressure at the fluid outlet are measured by a second uniformity sensor and a second pressure sensor.

Preferably, the upper side of the inner wall of the middle part of the U-shaped runner pipe is provided with a middle clapboard. The middle partition plate enables the two fluids to be uniformly mixed, and the two fluids are prevented from being uniformly mixed due to different masses and different flow rates.

Compared with the prior art, the technical scheme of the utility model has the beneficial effects that:

the utility model provides an integrated runner pipe of taking sensor, includes first runner pipe, second runner pipe, U type runner pipe, third runner pipe and sensor, U type runner pipe both ends are equipped with first opening and second opening respectively, and U type runner pipe middle part is equipped with the third opening, and U type runner pipe first opening is connected to first runner pipe one end, and U type runner pipe second opening is connected to second runner pipe one end, and U type runner pipe third opening is connected to third runner pipe one end, the third runner pipe other end is equipped with mounting structure, the outer wall of first runner pipe, second runner pipe, U type runner pipe and third runner pipe is equipped with sensor mounting structure, and the sensor is located in the sensor mounting structure. The utility model provides an integrated runner pipe with a sensor, aiming at overcoming the defect of difficult installation of the sensor in the prior art, and the integrated runner pipe can monitor the uniformity, humidity and pressure of fluid in each time period in the runner pipe in real time, so that an operator can better control the flow of input fluid.

Drawings

FIG. 1 is a schematic view of an integrated flow channel tube with a sensor.

Fig. 2 is a cross-sectional view of the integrated runner tube with sensor.

Wherein: 1. a first flow channel pipe; 2. a second flow channel tube; 3. a U-shaped runner pipe; 4. a third flow channel tube; 5. an outlet mounting structure; 6. a sensor mounting structure; 7. a middle partition plate; 8. a flow sensor; 9. a first pressure sensor; 10. a first uniformity sensor; 11. a humidity sensor 12, a second uniformity sensor; 13. a second pressure sensor.

Detailed Description

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

Example 1

The utility model provides an integrated runner pipe of taking sensor, includes first runner pipe 1, second runner pipe 2, U type runner pipe 3, third runner pipe 4 and sensor, 3 both ends of U type runner pipe are equipped with first opening and second opening respectively, and 3 middle parts of U type runner pipe are equipped with the third opening, and 3 first openings of U type runner pipe are connected to 1 one end of first runner pipe, and 3 second openings of U type runner pipe are connected to 2 one end of second runner pipe, and 3 third openings of U type runner pipe are connected to 4 one end of third runner pipe, the 4 other ends of third runner pipe are equipped with export mounting structure 5, the outer wall of first runner pipe 1, second runner pipe 2, U type runner pipe 3 and third runner pipe 4 is equipped with sensor mounting structure 6, and the sensor is located in the sensor mounting structure 6.

In the specific implementation process, the integrated runner pipe is of a 3D printing integrated structure. The 3D integration is printed and is saved the loaded down with trivial details process of pipeline equipment and sensor installation position installation, and the pipeline can directly be changed after damaging moreover.

In particular implementations, the sensors include a flow sensor 8, a humidity sensor 11, a uniformity sensor, and a pressure sensor.

In the specific implementation process, two sensor mounting structures 6 are arranged on the outer wall of the first flow channel pipe 1 and the outer wall of the second flow channel pipe 2.

In a specific implementation process, a flow sensor 8 and a first pressure sensor 9 are respectively arranged in the sensor mounting structures 6 on the outer wall of the first flow passage pipe 1 and the outer wall of the second flow passage pipe 2, the model of the flow sensor 8 is WK-21B, and the model of the first pressure sensor 9 is SBT 641. The flow sensor 8 is an ultrasonic flow sensor 8, and the principle thereof is that when ultrasonic waves propagate in a flowing fluid, information on the flow velocity of the fluid is carried, so that the flow velocity of the fluid can be detected by the received ultrasonic waves, and the flow velocity can be converted into a flow; the flow sensor 8 respectively tests the flow in the two flow channel pipes, so as to obtain the flow of liquid. The pressure sensor is a ceramic pressure sensor based on piezoresistive effect, pressure directly acts on the front surface of the ceramic diaphragm to make the diaphragm generate tiny deformation, and the piezoresistive effect of the piezoresistor is utilized to test the pressure of liquid in the pipe so as to ensure the normal operation of the liquid. Two different fluids pass through the first flow channel pipe 1 and the second flow channel pipe 2, and the first pressure sensor 9 and the flow sensor 8 monitor the pressure value and the flow rate of the two fluids respectively.

In the specific implementation process, two sensor mounting structures 6 are arranged on two sides of the U-shaped runner pipe.

In the specific implementation process, a first uniformity sensor 10 and a humidity sensor 11 are respectively arranged on the sensor mounting structures 6 on two sides of the U-shaped runner pipe, the type of the first uniformity sensor 10 is JC-074, and the type of the humidity sensor 11 is HR 202L. The uniformity sensor is an optical sensor, and detects the existence of an object by utilizing the shading or reflection of the detected object to a light beam and gating a circuit by a synchronous loop, so that the change of current or voltage is transmitted out in a photoelectric mode. When the humidity of the environment changes, the dielectric constant of the humidity-sensitive capacitor of the humidity sensor 11 changes, so that the capacitance of the humidity-sensitive capacitor also changes, the capacitance change quantity of the humidity-sensitive capacitor is in direct proportion to the relative humidity, and the humidity change is transmitted out in a capacitance mode. By the first uniformity sensor 10 and the humidity sensor 11, uniformity and humidity when two fluids are mixed can be more precisely controlled.

In a specific implementation process, two sensor mounting structures 6 are arranged on the outer wall of the third flow channel pipe 4.

In a specific implementation process, a second uniformity sensor 12 and a second pressure sensor 13 are respectively arranged on the sensor mounting structure 6 on the outer wall of the third flow channel pipe 4, wherein the model of the second uniformity sensor 12 is JC-074, and the model of the second pressure sensor 13 is SBT 641. The uniformity of the mixed fluid and the pressure at the fluid outlet are measured by the second uniformity sensor 12 and the second pressure sensor 13.

In the specific implementation process, the upper side of the inner wall of the middle part of the U-shaped runner pipe 3 is provided with a middle clapboard 7. The middle baffle plate 7 enables the two fluids to be uniformly mixed, and the two fluids are prevented from being uniformly mixed due to different masses and different flow rates.

In this embodiment, the first flow channel 1 passes the first fluid, the second flow channel 2 passes the second fluid, and the flow sensor 8 and the first pressure sensor 9 monitor the flow rate and pressure of the two fluids and transmit them to the terminal. When the first fluid and the second fluid flow to the U-shaped flow channel pipe 3 and are reduced by the middle partition plate 7 in the flow channel pipe, the uneven mixing caused by different quality and different flow speed of the two fluids is reduced, at the moment, the humidity sensor 11 and the first uniformity sensor 10 monitor the uniformity and the humidity of the two fluids when the two fluids are just mixed and transmit the uniformity and the humidity to the terminal, and when the mixed fluids are abnormal, the input quantity of the two fluids can be controlled, so that the ideal uniformity and humidity are achieved. The mixed fluid flows to the third flow channel pipe 4, the second uniformity sensor 12 and the second pressure sensor 13 monitor the uniformity and the pressure value of the mixed fluid and transmit the values to the terminal, and when the monitored mixed fluid does not reach the standard, the input amount of the two fluids can be controlled to reach the standard. The outlet mounting structure 5 of the third flow channel pipe 4 is connected with an outlet or a flow channel pipe of the next process link.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The integrated runner pipe with the sensor is characterized by comprising a first runner pipe (1), a second runner pipe (2), a U-shaped runner pipe (3), a third runner pipe (4) and the sensor, wherein a first opening and a second opening are respectively arranged at two ends of the U-shaped runner pipe (3), the third opening is arranged in the middle of the U-shaped runner pipe (3), one end of the first runner pipe (1) is connected with the first opening of the U-shaped runner pipe (3), one end of the second runner pipe (2) is connected with the second opening of the U-shaped runner pipe (3), one end of the third runner pipe (4) is connected with the third opening of the U-shaped runner pipe (3), an outlet mounting structure (5) is arranged at the other end of the third runner pipe (4), and sensor mounting structures (6) are arranged on the outer walls of the first runner pipe (1), the second runner pipe (2), the U-shaped runner pipe (3) and the third runner pipe (4), the sensor is arranged in the sensor mounting structure (6).

2. The integrated runner pipe with the sensor according to claim 1, wherein the integrated runner pipe is of a 3D printing integrated structure.

3. The integrated flow channel tube with sensor according to claim 1, wherein the sensor comprises a flow sensor (8), a humidity sensor (11), a uniformity sensor and a pressure sensor.

4. The integrated flow channel tube with sensor as claimed in claim 1, characterized in that the outer wall of the first flow channel tube (1) and the outer wall of the second flow channel tube (2) are provided with two sensor mounting structures (6).

5. The integrated flow channel pipe with the sensor according to claim 4, wherein the sensor mounting structures (6) on the outer wall of the first flow channel pipe (1) and the outer wall of the second flow channel pipe (2) are respectively provided with a flow sensor (8) and a first pressure sensor (9), the type of the flow sensor (8) is WK-21B, and the type of the first pressure sensor (9) is SBT 641.

6. The integrated runner pipe with the sensor according to claim 1, characterized in that two sensor mounting structures (6) are arranged on both sides of the U-shaped runner pipe (3).

7. The integrated runner pipe with the sensor according to claim 6, characterized in that the sensor mounting structures (6) on both sides of the U-shaped runner pipe (3) are respectively provided with a first uniformity sensor (10) and a humidity sensor (11), wherein the first uniformity sensor (10) is JC-074, and the humidity sensor (11) is HR 202L.

8. The integrated flow channel tube with sensor according to claim 1, characterized in that the outer wall of the third flow channel tube (4) is provided with two sensor mounting structures (6).

9. The integrated runner pipe with the sensor according to claim 8, wherein the sensor mounting structure (6) on the outer wall of the third runner pipe (4) is respectively provided with a second uniformity sensor (12) and a second pressure sensor (13), and the second uniformity sensor (12) is of the type JC-074 and the second pressure sensor (13) is of the type SBT 641.

10. The integrated runner pipe with the sensor according to claim 1, characterized in that a middle partition plate (7) is arranged on the upper side of the inner wall of the middle part of the U-shaped runner pipe (3).

Images