KR20120109185A - A connecting structure of sensor cable and its connecting method - Google Patents

Abstract

PURPOSE: A cable connection structure of a sensor is provided to inject epoxy inside a connection pipe when connecting a sensor and a cable of a measurer and to harden the epoxy. CONSTITUTION: A tube(20) is fixed to a case of a sensor. A sensor connection line is drawn inside the tube. The sensor connection line is connected to a cable(5) of a measurement device inside a connection pipe. An epoxy(50) is injected through an injection hole(32). When the epoxy is hardened, a waterproof layer is formed. The injection hole is formed in the connection pipe.

Description

A connecting structure of sensor cable and its connecting method}

The present invention relates to a cable connection structure of the sensor and a method of connecting the same, by drawing a sensor connection line of the sensor to the tube and connecting it through the cable and the connection pipe of the measuring device so that the connection between the sensor and the instrument cable can be easily and stably. In addition, the present invention relates to a cable connection structure of the sensor and a method of connecting the same to prevent moisture from being transferred to the sensor through the cable.

The sensor is mainly selected in consideration of the purpose of use, the object of use, and the conditions of use. The purpose of use may be a direct measurement of strain or a transducer such as a load cell, a pressure gage, an extensometer, and the like. The appropriate sensor should be selected according to the shape of the object.

In general, the ground is settled or raised due to various external factors or repeated. In particular, the ground and soft grounds have a very large variation in the settlement and elevation of the ground. It becomes an element.

In addition, if the subsidence and uplift occurs in the surrounding ground due to excessive load of the work site under construction, there is a problem that the ground of the work site is deformed and the finished structure is inclined or cracked. Even though the pressure of the ground on the structure varies depending on the location, it is possible to maintain this structure by finding it in advance and setting it as a countermeasure.

In order to measure the deformation of the ground, the deformation of the surrounding ground is measured to prevent indirect damage from occurring, or even if the structure is already constructed, the deformation of the ground is continuously measured to maintain stability. Or to manage.

In the ground deformation measuring device, a vertical hole is formed in the ground to be measured, and a pipe is inserted into the vertical hole. A magnet having a shape attached to a magnet is inserted into the outer peripheral surface of the lower end of the pipe, and a magnetic sensor is attached. Insert the ruler into the inside of the pipe, record the length of the ruler where the magnetic sensor is in contact. Then, when you want to measure the deformation of the ground, put the ruler back into the pipe and extract the length of the magnet reaction. In contrast to the length, the condition and amount of the ground subsided or raised were identified.

That is, by checking the position change of the measuring instrument due to the elevation or settlement of the ground by the magnet sensor and the ruler, the length of the tape measure will increase when the ground is raised, and when the ground is settled, that is, the length of the ruler, that is, the magnetic sensor Using the principle that the response time is shortened, the deformation state and the deformation amount of the ground were measured.

However, the method and device for measuring the deformation state and the amount of deformation of the ground mentioned above are very cumbersome since the ruler must be inserted and read every measurement, and the accuracy is very low because of the ruler. The range is very bad.

In addition, there is a device that connects a metallic wire to a fixed anchor, fixes it to the winding reel of the ground portion, and measures the amount of settlement (ridge) based on the rotation range of the forensometer mounted on the winding reel. The problem is that it interferes with the other processes of the ground, and it is pointed out that the problem of securing the fluidity of the wire and the waterproofing of the device such as the surface winding reel.

In general, when the sensor is installed in the ground to measure the behavior of the ground as shown in Figure 1, the connection portion connecting the sensor cable (2) of the sensor (1) and the cable (5) of the measuring device (4) located on the ground (3) is formed. In this case, moisture penetrates through the gaps formed between the respective wire strands inside the sheath of the cable 5 or the sensor cable 2, and this water passes through the connection part 3 to reach the sensor 1. The problem arises.

Therefore, since the length of the sensor cable 2 is determined by the design according to the depth installed in the ground, a problem arises in that the sensor cable 2 and the sensor 1 must be connected differently according to the site. Therefore, the sensor cable 2 and the cable 5 of the measuring device 4 of a certain length are connected and used, and moisture penetrates through the connection part 3 generated at this time.

In the case of the sensor installed at a depth of more than 70m below ground, moisture penetrates down due to condensation and pressure, which causes damage to the sensor. In general, most of the installed sensors are stopped by moisture. Therefore, there is a need for a connection structure and method that can prevent the penetration of moisture.

The present invention has been made in order to solve the above-described problem, and has an object to provide a connection structure so that the sensor can be manufactured in advance, a waterproof structure that can not penetrate moisture when connecting the sensor and the cable by such a connection structure There is a purpose to make.

The sensor connection line connected to the sensor is primarily protected by the tube, connecting the cable between the tube and the measuring device to protect the connection with the circular tube, and injecting epoxy into the circular tube to prevent moisture from penetrating.

In the case of a general cable, the waterproof pin assembly is used to further prevent the penetration of moisture.

The present invention is a tube 20 is fixed to the case of the sensor 10 in order to achieve the above object, the sensor connecting line that is drawn out to the inside of the tube 20, the measuring device 4 in the interior of the connection pipe 30 It is connected to the cable 5, characterized in that the epoxy 50 is injected through the injection hole 32 formed in the connection pipe 30 is cured to form a waterproof layer, the tube of the sensor (10) 20 is fixed, and the sensor connection line drawn out to the inside of the tube 20 is connected to the cable 5 of the measuring device 4 in the interior of the connection pipe 30, the waterproof is inserted into both sides of the connection pipe 30 It is connected through the pin assembly 40, the epoxy 50 is injected through the injection hole 32 formed in the connection pipe 30 in the state in which the waterproof pin assembly 40 is inserted and cured to form a waterproof layer The waterproof pin assembly 40 is made of a waterproof cover 41 and a waterproof pin 45, the periphery of the waterproof cover 41 One or more portions 42 are formed so that the rubber ring 43 is fitted and fixed, and a through hole 44 penetrating the upper and lower surfaces of the waterproof cover 41 is formed, but the inner diameter of the through hole 44 becomes smaller. 44-1) is formed, the waterproof pin 45 is formed on both ends of the body portion 45-1, the O-ring 45-3 is fitted, the pin portion 45-2 is formed, the waterproof pin 45 is a through hole Is inserted into the (44) so that the pin portion (45-2) of both ends is exposed to the outside of the waterproof cover 41, the waterproof pin assembly 40 is inserted so as to be caught on the step (33) formed in the inner diameter of the connector (30). Cable connection structure of the sensor, characterized in that. And a sensor and tube connecting step 100 for connecting the case of the sensor 10 and one end of the tube 20 and drawing a sensor connection line into the tube 20. A sensor connecting line and a waterproof pin assembly connecting step 110 of the tube electrically connecting the sensor connecting line of the tube 20 and the waterproof pin 45 of the waterproof pin assembly 40; A waterproof pin assembly inserting step 120 at one side of the connector for inserting the waterproof pin assembly 40 connected to the sensor connection line into the connector 30; Connecting the other waterproof pin assembly 40 to the cable 5 of the measuring device and connecting the other waterproof pin assembly to the cable of the measuring device connecting the two waterproof pin assemblies to the connection line 34; A step of inserting the waterproof pin assembly 140 at the other side of the connector for inserting the waterproof pin assembly 40 electrically connected to the cable 5 to the other side of the connector 30; Epoxy injection and curing step 150 to the connector to inject the epoxy through the injection hole 32 of the connector 30 in the state in which the waterproof pin assembly 40 is inserted (150); And a sensor installation step (160) for sending and installing the sensor (10) connected to the measurement device (4) to the installation place in the underground as described above. To provide.

The present invention has the effect that the moisture is not penetrated through the air gap because the epoxy is injected into the interior of the connector when the cable of the sensor and the measuring device is hardened.

In the case of the optical fiber sensor, the optical fiber cable connected to the measuring device and the inside of the connector are protected and do not need to install a long connection wire in advance.

When the sensor cable and the instrument cable are connected at the connector, they are connected through the waterproof pin assembly, which effectively prevents water penetration into the sensor.

1 is a view showing a conventional sensor cable connection structure.
Figure 2 is a perspective view showing a cable connection structure of the sensor of the present invention.
3 is a cross-sectional view showing a cable connection structure of the sensor of the present invention.
Figure 4 is a cross-sectional view showing another embodiment of the cable connection structure of the sensor of the present invention.
Figure 5 is a cross-sectional view showing another embodiment of the cable connection structure of the sensor of the present invention.
Figure 6 is a perspective view showing a waterproof pin assembly used in the cable connection structure of the sensor of the present invention.
7 is a cross-sectional view taken along the line AA of Figure 6 showing the waterproof pin assembly used in the cable connection structure of the sensor of the present invention.
8 is a flowchart illustrating a method of connecting a cable connection structure of a sensor of the present invention.
9 is a flow chart showing another connection method of the cable connection structure of the sensor of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

The sensor 10 used in the present invention includes not only an optical fiber sensor but also a general measuring instrument sensor 10.

The sensor 10 has a sensor unit for sensing therein, and a case is provided to protect such a sensor unit. The sensor 10 is to protect the sensor unit from surroundings of the place where it is installed, such as underground. The case and the tube 20 are fixed, and the sensor connecting line for connecting to the measuring device 4 through the tube 20 is drawn out.

The tube 20 preferably uses a high pressure tube that is not easily bent, and in the case of the high pressure tube, since the straightness is strong, a problem does not occur when the fiber optic sensor is drawn out and connected.

The sensor connection line drawn out into the tube 20 is connected to the cable 5 of the measuring device 4 inside the connection pipe 30, and the connection pipe 30 is made of steel pipe or PVC pipe. Injection holes 32 penetrating inside and into both sides of the connection pipe 30 are formed, and epoxy is injected through the injection holes 32.

As such, epoxy 50 is injected and cured through the injection hole 32 formed in the connection pipe 30 to form a waterproof layer. The waterproof layer penetrates through the pores between the wires or the optical fiber inside the cable sheath. Prevents.

Since the connection pipe 30 is installed near the sensor 10, the water directed toward the sensor 10 is blocked at the connection pipe 30. At this time, the fastener 60 is fixed as shown in FIG. 2 to connect the sheath of the connection pipe 30 and the tube 20 and the cable 5 to each other. Since the fastener 60 is common, its description is omitted.

4 and 5 illustrate a structure using the waterproof pin assembly 40 in another embodiment, which further facilitates the connection of the sensor connection line and the cable in the tube while blocking the moisture. .

4 illustrates a state in which one waterproof pin assembly 40 is installed in the center, and in FIG. 5, the waterproof pin assembly 40 is inserted into both sides of the connector pipe 30, and the waterproof pin assembly 40 is connected to the connection line 34. Are connected to each other.

When one waterproof pin assembly 40 is installed at the center as shown in FIG. 4, the connection line 34 is connected or the wires of the cable 5 directly are waterproof pins 45 of the waterproof pin assembly 40. Can be connected directly to In addition, the sensor connection line may be directly connected to the waterproof pin assembly 40.

The tube 20 is fixed to the case of the sensor 10 so that the sensor connection line connected to the sensor unit is drawn out through the tube, and the sensor connection line drawn out to the inside of the tube 20 has a measurement device (inside the connection tube 30). 4) is connected to the cable (5) but is connected through the waterproof pin assembly 40 is inserted into both sides of the connector (30).

In the state where the waterproof pin assembly 40 is inserted, the epoxy 50 is injected and cured through the injection hole 32 formed in the connection pipe 30 to form a waterproof layer.

Waterproof pin assembly 40 is composed of a waterproof cover 41 and a waterproof pin 45, one or more grooves 42 are formed around the waterproof cover 41, the rubber ring 43 is fitted and fixed, waterproof A through hole 44 penetrating the upper and lower surfaces of the cover 41 is formed, but the stepped portion 44-1 through which the inner diameter of the through hole 44 is reduced is formed.

The waterproof pin 45 has pin portions 45-2 formed at both ends of the body portion 45-1 in which the O-ring 45-3 is inserted, and the waterproof pin 45 is inserted into the through hole 44 to provide The pin part 45-2 is exposed to the outside of the waterproof cover 41. At this time, the O-ring 45-3 fitted to the body portion 45-1 is pressed against the inner diameter of the through hole 44 to be watertight.

Waterproof pin assembly 40 is preferably inserted to be caught on the step (33) formed in the inner diameter of the connection pipe (30).

The present invention having the above structure connects the sensor and the measuring device in the following manner as shown in FIGS. 8 and 9.

First, when two waterproof pin assemblies 40 are installed, they are installed through the following steps.

In the sensor and tube connection step 100, the case of the sensor 10 and one end of the tube 20 are connected, and the sensor connection line is drawn out to the inside of the tube 20. In this way, the tube 20 is connected to the sensor in advance, and thus the sensor connection line is drawn out.

In the case of the optical fiber sensor, the waterproof pin assembly 40 is not used, and the optical fiber cable of the measuring device is bonded to each other in the connector tube, and then the connection part is fixed by curing with epoxy in the connector tube.

In the connection step 110 of the sensor connection line and the waterproof pin assembly of the tube, the sensor connection line of the tube 20 and the waterproof pin 45 of the waterproof pin assembly 40 are electrically connected, and then the waterproof pin connected to the sensor connection line. Waterproof pin assembly insertion step 120 is passed to one side of the connector to insert the assembly 40 into the connector (30).

Then, the other waterproof pin assembly is connected to the cable of the measuring device at the other end step 130, and the other waterproof pin assembly 40 is connected to the cable 5 of the measuring device, and the two waterproof pin assemblies are connected to the connection line 34.

 Inserting the waterproof pin assembly on the other side of the connector 140, the other end of the connector 30 is inserted into the waterproof pin assembly 40 electrically connected to the cable (5).

In the epoxy injection and curing step 150 in the connection pipe 150, the epoxy is injected through the injection hole 32 of the connection pipe 30 while the waterproof pin assembly 40 is inserted and cured. When epoxy is injected and cured, the space between the fastener 60 and the waterproof pin assembly 40 is filled with epoxy and cured so that moisture does not penetrate, and the connection part is protected by a connection pipe.

As described above, the sensor 10 connected to the measuring device 4 is sent to the installation place in the underground to go through the sensor installation step 160.

9 shows a method of installing only one waterproof pin assembly 40 in the connector, similarly to the above-described method, goes through the following steps.

Connect the case of the sensor 10 and one end of the tube 20, and the sensor and the tube connecting step 100, the sensor connecting line of the tube 20 and the waterproof pin assembly to draw out the sensor connecting line to the inside of the tube 20 ( The sensor connecting line of the tube electrically connecting the waterproof pin 45 of the 40 and the waterproof pin assembly connection step 110, the cable (5) of the measuring device and the waterproof pin 45 of the waterproof pin assembly 40 Connecting the waterproof pin assembly and the measuring device cable connection step 135, the waterproof pin assembly inserting step (145), waterproof pin assembly (40) into the connector for inserting the waterproof pin assembly 40 into the connector (30). Epoxy injection and curing step 150, the above-mentioned steps in the connection pipe that is injected and cured by injecting epoxy from both sides of the waterproof pin assembly 40 through the injection hole 32 of the connection pipe 30 in the inserted state Sensor installation step (16) to send the sensor (10) connected to the installation place in the underground (16) 0).

1 sensor 2 sensor cable
3: connection part 4: measuring device
5: cable 10: sensor
20 tube 30 connector
31: tube 32: injection hole
33: step 34: connecting line
40: waterproof pin assembly 41: waterproof cover
42: groove 43: rubber ring
44: through hole 44-1: stepped portion
45: pin 45-1: the body
45-2: pin portion 45-3: O-ring
50: epoxy 60: fastener
100: sensor and tube connection step
110: connecting the sensor connection line and the waterproof pin assembly of the tube
120: Insert waterproof pin assembly on one side of the connector
130: Connect the other waterproof pin assembly to the cable of the measuring device
135: Cable connection of waterproof pin assembly and measuring device
140: Insert waterproof pin assembly on the other side of the connector
145: Insert waterproof pin assembly into the connector
150: epoxy injection and hardening in the connector
160: sensor installation

Claims (6)

The tube 20 is fixed to the case of the sensor 10,
The sensor connecting line drawn out to the inside of the tube 20 is connected to the cable 5 of the measuring device 4 in the connection pipe 30,
Cable connection structure of the sensor, characterized in that the epoxy 50 is injected through the injection hole 32 formed in the connection pipe 30 is cured to form a waterproof layer.
The tube 20 is fixed to the case of the sensor 10,
The sensor connection line drawn out into the tube 20 is connected to the cable 5 of the measuring device 4 in the connection pipe 30, and the waterproof pin assembly 40 inserted into the center of the connection pipe 30 is inserted into the tube 20. Through the
The cable connection structure of the sensor, characterized in that the epoxy 50 is injected through the injection hole 32 formed in the connection pipe 30 in the state in which the waterproof pin assembly 40 is inserted and cured to form a waterproof layer.
The tube 20 is fixed to the case of the sensor 10,
A sensor connection line drawn out into the tube 20 is connected to the cable 5 of the measuring device 4 in the connection pipe 30, and the waterproof pin assembly 40 is inserted into both sides of the connection pipe 30. Through the
The cable connection structure of the sensor, characterized in that the epoxy 50 is injected through the injection hole 32 formed in the connection pipe 30 in the state in which the waterproof pin assembly 40 is inserted and cured to form a waterproof layer.
The method according to claim 2 or 3,
Waterproof pin assembly 40 is composed of a waterproof cover 41 and a waterproof pin 45, one or more grooves 42 are formed around the waterproof cover 41, the rubber ring 43 is fitted and fixed, waterproof A through hole 44 penetrating the upper and lower surfaces of the cover 41 is formed, but the stepped portion 44-1 is formed to reduce the inner diameter of the through hole 44, and the waterproof pin 45 is an O-ring 45-3. Fins 45-2 are formed at both ends of the fitted body 45-1, and the waterproof pins 45 are inserted into the through holes 44 so that the fins 45-2 at both ends are waterproof covers 41. Exposed outside of,
Waterproof pin assembly 40 is the cable connection structure of the sensor, characterized in that inserted into the stepped 33 formed in the inner diameter of the connector (30).
A sensor and tube connection step 100 for connecting the case of the sensor 10 and one end of the tube 20 and drawing a sensor connection line into the tube 20;
A sensor connecting line and a waterproof pin assembly connecting step 110 of the tube electrically connecting the sensor connecting line of the tube 20 and the waterproof pin 45 of the waterproof pin assembly 40;
A waterproof pin assembly inserting step 120 at one side of the connector for inserting the waterproof pin assembly 40 connected to the sensor connection line into the connector 30;
Connecting the other waterproof pin assembly 40 to the cable 5 of the measuring device and connecting the other waterproof pin assembly to the cable of the measuring device connecting the two waterproof pin assemblies to the connection line 34;
A step of inserting the waterproof pin assembly 140 at the other side of the connector for inserting the waterproof pin assembly 40 electrically connected to the cable 5 to the other side of the connector 30;
Epoxy injection and curing step 150 to the connector to inject the epoxy through the injection hole 32 of the connector 30 in the state in which the waterproof pin assembly 40 is inserted (150);
And a sensor installation step (160) for installing and sending the sensor (10) connected to the measurement device (4) to the installation place in the underground as described above.
A sensor and tube connection step 100 for connecting the case of the sensor 10 and one end of the tube 20 and drawing a sensor connection line into the tube 20;
A sensor connecting line and a waterproof pin assembly connecting step 110 of the tube electrically connecting the sensor connecting line of the tube 20 and the waterproof pin 45 of the waterproof pin assembly 40;
A waterproof pin assembly and a measurement device cable connection step 135 electrically connecting the cable 5 of the measuring device and the waterproof pin 45 of the waterproof pin assembly 40;
Inserting the waterproof pin assembly 145 into the connector for inserting the waterproof pin assembly 40 into the connector 30;
Epoxy injection and curing step 150 to the connector to cure by injecting epoxy in both the waterproof pin assembly 40 through the injection hole 32 of the connector 30 in the state that the waterproof pin assembly 40 is inserted;
And a sensor installation step (160) for installing and sending the sensor (10) connected to the measurement device (4) to the installation place in the underground as described above.

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