KR20190045007A - Anti-corrosion type pipe being embeded liquid measurement device having a real time monitoring function - Google Patents

Abstract

The present invention relates to a pipe, and more specifically, to an anti-corrosion type pipe in which a liquid measurement device having a real time monitoring function is embedded, which has a liquid measurement device, wherein a body of the pipe comprises an external layer forming an outer circumferential surface and an internal layer formed on an internal wall surface of the external layer. The internal layer is formed of a synthetic resin material or a metal material having a rustproof property against a liquid passing through the liquid measurement device and has a predetermined thickness. The liquid measurement device can measure flow velocity of a liquid, a flow rate, operation time of facilities in which pressure and a liquid are used, a temperature of an installation space of the facilities, humidity, and soil composition.

Description

[0001] The present invention relates to an anti-corrosion type pipe having an embedded flow meter and a real time monitoring function,

The present invention relates to piping, and more particularly, to a piping having a flow meter mounted on a body, the body of the piping including an outer layer forming an outer peripheral surface and an inner layer formed on an inner wall surface of the outer layer, The flow rate of the liquid, the flow rate, the pressure and the operating time of the facility where the liquid is used, the temperature of the installation place of the facility, the humidity, the soil, and the like are set to have a certain thickness with a synthetic resin material or a metal material having anti- And a real-time monitoring function capable of real-time measurement of the components of the flowmeter.

Generally, a flow meter is installed in the liquid supply system to measure the amount of liquid such as tap water.

These flow meters have developed various kinds of devices, but they have only a simple function of measuring only the flow rate of the liquid supplied to the liquid supply line. In addition, the flow rate, flow rate, pressure, There is no function to monitor.

Particularly, a flow meter installed in a heating house boiler installed in a greenhouse for cultivating vegetables and special crops, a special cultivation facility, and a heating and air-conditioning apparatus for drying various kinds of heaters, hot air fans, It is necessary to continuously monitor the surroundings of the user depending on the amount of the liquid to be used and to develop a solution for this situation .

The piping on which the flowmeter is installed can form a corrosion-resistant coating layer on the inner wall surface thereof to prevent corrosion inside the pipe. However, the process of forming the corrosion-resistant coating layer inside the pipe body of the pipe is complicated, which is disadvantageous from the viewpoint of productivity and the manufacturing cost is also increased.

The present invention has been made in order to overcome the above-described problems of the prior art, and it is an object of the present invention to provide a method and apparatus for monitoring the change in flow rate, flow rate, pressure, temperature, The present invention has been made in view of the above problems.

Technical Solution According to an aspect of the present invention, there is provided a corrosion-resistant pipe having a flow meter having a real-time monitoring function. The corrosion-resistant pipe includes a flow meter mounted on a body, an outer layer having an outer circumferential surface, And an inner layer formed on the wall surface, wherein the inner layer is formed to have a certain thickness with a synthetic resin material or a metal material having rustproofing property against the liquid passing through the flow meter, and the flow meter has a flow rate, a flow rate, Real-time monitoring function that can measure real-time temperature, humidity, and soil composition of the installation site of operation time, usage facility.

The corrosion-resistant pipe having the above-described configuration of the present invention having the above-described flowmeter can monitor the usage amount of the liquid measured by the built-in flow meter and the usage environment information of the facility equipped with the flow meter in real time to improve the quality of agricultural and marine products such as agricultural products, It is possible to easily grasp the optimum amount of liquid used for drying according to the characteristics, and it is possible to reduce the amount of liquid used.

Also, the piping of the present invention is made of a material which is not affected by corrosion due to the liquid inside, and is a very advanced invention that can improve the lifetime of the flow meter itself and the maintenance efficiency.

1 is a perspective view of a piping according to the present invention,
2 is a cross-sectional view of a piping according to the present invention,
3 is a block diagram of a flow meter attached to a piping of the present invention,
Figs. 4 and 5 are photographs of pipes of an embodiment of the present invention. Fig.

Hereinafter, the construction and operation of a corrosion-resistant pipe with a flow meter having a real-time monitoring function according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be noted, however, that the drawings are provided as examples for allowing a person skilled in the art to sufficiently convey the spirit of the present invention. Accordingly, the present invention is not limited to the following drawings, but may be embodied in other forms.

In addition, unless otherwise defined, the terms used in the description of the present invention have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. In the following description and the accompanying drawings, A detailed description of known functions and configurations that may be unnecessarily blurred is omitted.

1 is a perspective view of a piping of the present invention.

A piping (1) of the present invention includes a flow meter (2) attached to a body, and a pipeline (6) is connected to the piping (1).

The pipe 1 has a central portion 3 to which the flow meter 2 is attached and connection portions 4 and 5 for connecting the pipe 6 to both sides of the central portion 3 are formed integrally with the central portion 3 do.

Each of the connecting portions 4 and 5 is connected to each of the conduits 6 and the ends of the connecting portions 4 and 5 are connected to one side of the conduit 6 by the nuts 7, 5 and the channel 6, a leak-preventing packing 8 is placed.

Further, a separate flange (not shown) may be provided at the ends of the connecting portions 4, 5.

The flowmeter 2 is a conventional flowmeter connected to the conduit 6, preferably an electronic flowmeter using a flowmeter.

The flow meter 2 of the present invention can also be configured such that the flow rate data measured by the flow meter is transmitted to the external server 300 through the interlocked communication unit 100 so that the flow rate of the flow meter 2 itself and the flow meter 2 And an operation time measuring instrument 110 for measuring the operation time of the facility in which the liquid to be used is used.

As an example of the flowmeter 2, there may be mentioned a water meter installed in a water supply line, an oil meter for measuring a flow rate of oil or oil, and the like.

On the other hand, the piping 1 shown in the drawing is of a straight pipe type, and can be used in the form of a strainer and its connection pipe, a fall pipe, a drain pipe, a U pipe, a cross pipe, a socket cross pipe, a Y pipe, , A joint flange, a TM joint, a T-shaped pipe, a flange bend pipe, a flange-polarized pipe, a socket-shaped pipe, and the like.

Fig. 2 is a cross-sectional view of a piping according to the present invention. The piping 1 of the present invention has a two-layer structure in which the inside and the outside are made of different materials.

2, the central portion 2 and each of the connecting portions 4 and 5 of the pipe 1 have an outer layer 20 forming an outer peripheral surface and an inner layer 20 formed on an inner wall surface of the outer layer 20, (10).

The inner layer 10 is made of a synthetic resin material or a metal material suitable for the characteristics of the liquid flowing through the piping of the present invention, and must have a predetermined thickness so as to have anti-corrosiveness against the liquid.

Preferably, the thickness of the inner layer 10 is set in accordance with the diameter and characteristics of accessories etc. attached to the pipeline.

Further, the outer layer 20 is made of a common metal material, and is preferably made of iron or cast iron.

The inner layer 10 is a region where liquid contacts the inner wall of the flowmeter while flowing through the inner wall of the flowmeter. By forming the inner layer 10 using a synthetic resin material or a metal material having anti- Or oxidized or the harmful component is prevented from being eluted.

In order to prevent corrosion of the conventional pipeline, the inner wall surface is painted or coated or lined. In the present invention, the inner wall surface of the pipe 1 is formed with an inner layer 10 having a rust- The coating or coating process or the lining process is not required, so that the manufacturing cost can be reduced, and the effect of preventing frost damage in the winter season can be increased.

When the inner layer 10 is formed of a synthetic resin material, a synthetic resin material suitable for the liquid characteristics may be used as the synthetic resin material. Examples of the synthetic resin material include LDPE (Low Density Polyethylene), LLDPE (Linear Low Density Polyethylene) Polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC) and the like may be used. Preferably, polyethylene (PE) resin is used.

When the inner layer 10 is formed of a metal material, any known metal material that forms a normal channel such as copper, copper, aluminum, brass, or stainless steel may be employed as the metal material.

In the case of forming the inner layer 10 of the piping according to the present invention, the piping 1 is cut in the longitudinal direction or the transverse direction to divide the piping 1 into two parts, A method may be employed in which the inner layer 10 is attached so as to fit the shape and the respective portions to which the inner layer 10 is attached are joined to each other to complete the pipe 1.

As another method of forming the inner layer 10 of the pipe of the present invention, a double casting method using a double mold can be employed, and a conventional 3D printer output technique can be used.

Since the 3D printer can mold a component into a shape desired by a designer using metal powder or synthetic resin, first, an inner layer 10 made of a synthetic resin material or a metal material is formed by a 3D printer, The outer layer 20 can be formed on the upper side of the inner layer 10 by outputting the metal material of a different kind from the inner layer 10 on the surface of the inner layer 10 using a 3D printer.

3 is a block diagram of a flow meter installed in the piping of the present invention.

The present invention relates to a method for heating and heating a boiler for heating used in a plastic house or a special cultivation facility or a heating apparatus for heating various types of boilers, hot air fans, agricultural products, grains, seaweeds, etc., In the case of equipment, etc., there is a necessity to continuously monitor the surroundings of the user depending on the amount of the liquid to be used, since the flow rate of the liquid to be supplied is closely related to the environmental factor of the liquid usage site. And a communication unit 100 for transmitting the measured flow data to the server 300 through the wired / wireless communication network 200 such as the Internet.

The communication unit 100 may be installed inside the flow meter 2 or may be installed on the pipe separate from the flow meter 2.

The flowmeter provided in the piping of the present invention is connected to the communication unit 100 and includes an operation time measuring unit for measuring the self-operation time of the flow meter 2 and the operation time of the equipment through which the liquid passing through the flow meter 2 is used (110).

The data of the self-operation time of the flowmeter measured by the operation time meter 110 and the operation time of the liquid using equipment can be transmitted to the server 300 through the communication unit 100.

The flowmeter installed in the piping of the present invention includes a temperature meter 120 connected to the communication unit 100 and measuring the temperature of a space (a greenhouse, a greenhouse, a house, etc.) And the temperature data measured by the temperature measuring unit 120 may be transmitted to the server 300 through the communication unit 100. [

Therefore, the external server 300 refers to the flow data of the liquid application destination, the operation time data of the liquid application facility, and the temperature data of the installation space of the liquid application facility received through the communication unit 100 of the flowmeter, The usage amount, the operation time of the facility, and the environment of the facility installation space can be managed.

In addition, the flow meter installed in the piping of the present invention can compare the amount of liquid used for each of the various use facilities when various liquid use facilities exist, so that it is possible to determine which facility the liquid use amount is more efficient, And improved development.

In addition, the flow meter installed in the piping of the present invention can grasp the optimal usage amount and temperature according to the characteristics of the agricultural and marine products such as agricultural products, grains or seafood by cross reference of the liquid usage amount of various liquid use facilities, It is also possible to confirm the optimum amount of use that can improve the growing environment or the cropping environment according to the characteristics of the crop.

When the flow meter installed in the piping of the present invention transmits data such as flow rate data, operating time data and temperature data measured by the flow meter 2 to the server 300 through the communication unit 100, A method for connecting a compact storage medium such as a universal serial bus (USB) to a storage medium to store data and then connecting the storage medium to the server 300 to transmit data, a method for transmitting data to a vehicle or a dron, (Not shown), which is capable of receiving data transmitted from a car or a drone, to a server 300. The receiver 300 receives a data signal from a vehicle or a drone, And transmits data to the server 300 using a method of connecting and transmitting data.

Further, data can be transmitted to the server 300 using a Zigbee terminal (not shown) capable of communicating with the communication unit 100 through the ZigBee method. The Zigbee terminal can be accessed by the communication unit 100 And then transmits the data to the server 300 by connecting the Zigbee terminal with the server 300. [

Meanwhile, the server 300 can transmit data stored in the server 300 to the mobile communication terminal 400 such as a mobile phone through the communication network 200. The mobile communication terminal 400 may be a conventional smart phone.

The flowmeter installed in the piping of the present invention is connected to the communication unit 100 and includes a humidity meter 130 for measuring the humidity of the installation space of the liquid usage facility, An air flow meter 140 for measuring an atmospheric component, a soil component meter 150 for measuring the nutrient content of the soil in the installation space of the liquid application facility, a flow meter 160 for measuring the flow rate of the liquid passing through the flow meter, And a pressure gauge 170 for measuring the pressure of the liquid passing through the pressure gauge.

Further, the flow meter 2 installed in the piping of the present invention can display the liquid usage amount (water consumption, etc.) according to the usage amount measured together with the measured liquid usage amount. It is possible to automatically display the liquid usage amount, thereby measuring the flow meter and checking the usage amount in real time. At this time, it is preferable that the amount of money displayed by the flowmeter is output by voice.

4 and 5 are views showing examples of the piping according to the present invention. FIG. 4 is a piping of an embodiment in which the inner layer 10 is formed of a metal material, and FIG. 5 is a view It is the example piping.

Reference numeral 30 in FIG. 5 denotes an impeller 30 which is rotated in accordance with the flow of the fluid on the inner pipe of the pipe, and the flow rate is measured in accordance with the number of rotations of the impeller 30.

As described above, the construction and operation of the corrosion-resistant pipe with the real-time monitoring function of the present invention having the real-time monitoring function have been described with reference to the accompanying drawings. However, these embodiments are illustrative and the scope of the present invention is not limited thereto. The scope of the present invention is defined by the claims, including the embodiments of the scope of the invention, the scope of the invention, the scope of the invention, the scope of the invention, the scope of the invention,

Description of the Related Art [0002]
One; Invention piping
2; Flow meter
3; Central part
4,5; Connection
6; pipeline
7; nut
8; O-ring
10; Inner layer
20; Outer layer
30; Impeller
100; Communication section
110; Up time meter
120; Thermometer
130; Humidity meter
140; Air meter
150; Soil composition meter
160; Flow meter
170; Pressure gauge
200; communications network
300; server
400; Mobile communication terminal

Claims (20)

A pipeline in which a flow meter (2) capable of real-time monitoring of a facility in which liquid is used is installed,
The pipe 1 includes an outer layer 20 forming an outer peripheral surface and an inner layer 10 formed on an inner wall surface of the outer layer 20,
Wherein the inner layer (10) is made of a synthetic resin material or a metal material having a rustproof property against the liquid passing through the flow meter (2) to have a constant thickness.
The method according to claim 1,
Wherein the outer layer (20) is made of a metallic material.
2. The method of claim 1, wherein to form the inner layer (10)
The body of the pipe is cut in the longitudinal direction or the transverse direction to separate into two parts,
(10) attached to the inside of the body of the separated pipe so as to fit the shape of the outer layer (20), and the respective parts to which the inner layer (10) is attached are mutually bonded. 2. The method of claim 1, wherein to form the inner layer (10)
Wherein a double casting method is used by using a double mold capable of forming the outer layer (20) and the inner layer (10).
2. The method of claim 1, wherein to form the inner layer (10)
Wherein the 3D printer generates the inner layer (10), and then outputs a different kind of material different from the inner layer (10) on the surface of the generated inner layer (10) using a 3D printer.
The method according to claim 1,
A communication unit 100 connected to the flow meter 2 for transmitting the measured flow rate data to the server 300 through the communication network 200; Further comprising: a piping system including a piping system.
The method according to claim 6,
Connected to the communication unit 100,
(110) for measuring a self-operation time of the flow meter (2) and an operation time of a facility in which liquid passing through the flow meter (2) is used.
The method according to claim 6,
A temperature measuring unit 120 connected to the communication unit 100 and measuring a temperature of a space in which a facility through which the liquid passing through the flow meter is used; Further comprising: a piping system including a piping system.
The method according to claim 6,
A humidity meter (130) connected to the communication unit (100) and measuring the humidity of an installation space of a facility where liquid passing through the flow meter is used; Further comprising: a piping system including a piping system.
The method according to claim 6,
An air meter (140) connected to the communication unit (100) and measuring an atmospheric component of an installation space of a facility where liquid passing through the flow meter is used; Further comprising: a piping system including a piping system.
The method according to claim 6,
A soil component measuring device 150 connected to the communication unit 100 and measuring the nutrient content of the soil in the installation space of the facility where the liquid passing through the flow meter is used; Further comprising: a piping system including a piping system.
The method according to claim 6,
A flow meter 160 connected to the communication unit 100 and measuring a flow rate of the liquid passing through the flow meter; Further comprising: a piping system including a piping system.
The method according to claim 6,
A pressure meter 170 connected to the communication unit 100 and measuring pressure of liquid passing through the flow meter; Further comprising: a piping system including a piping system.
The method according to claim 6,
When data is transmitted to the server 300 through the communication unit 100,
And connecting the storage medium to the server (300) and transmitting the data to the server (300) after connecting the storage medium to the communication unit (100) to store the data.
The method according to claim 6,
When data is transmitted to the server 300 through the communication unit 100,
A car or a dron is installed with a receiver capable of wirelessly receiving data to be transmitted to the communication unit 100. A car or a dron is accessed to the communication unit 100 to receive data, And the data is transmitted to the server (300).
The method according to claim 6,
When data is transmitted to the server 300 through the communication unit 100,
A Zigbee terminal capable of communicating with the communication unit 100 in a ZigBee manner is accessed to the communication unit 100 to receive data and the ZigBee terminal is connected to the server 300 to transmit data to the server 300 To the piping.
7. The pipeline according to claim 6, wherein the server (300) transmits data stored in the server (300) to the mobile communication terminal (400) through the communication network (200).
The piping according to claim 6, wherein the flow meter (2) displays a usage amount according to a liquid usage amount and a liquid usage amount.
19. The piping according to claim 18, wherein the amount of use is output by voice.
2. The apparatus according to claim 1, wherein the piping (1)
Strainer and its connectors, Falling tube, Drain tube, U-shaped tube, Cross tube, Socket cross tube, Y tube, Drain valve, Butterfly valve, Joint flange, TM joint, T-tube, Flange bend , A flange-shaped lock tube, and a socket-type lock tube.

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