KR200461531Y1 - A Device Connecting Endcap to Anode - Google Patents

Abstract

The present invention relates to an end cap connecting device of an electric electrode rod, and more particularly, in the connection of the end cap which is an insulation shrink tube which prevents the penetration of moisture and foreign matter between the electric electrode terminal portion of the electric electrode rod and the wire inserted into the copper terminal portion. The present invention relates to an end cap connecting device that enables a terminal portion and an end cap to be connected easily and robustly without heating directly with a gas torch or hot air as in the related art.
The present invention has the same shape as the body so as to wrap the end cap body from the outside, divided into two and coupled so that the two can be mounted or separated, and the lower heating plate is built-in heating wire; An upper hot plate having the same shape as the wire inserting portion so as to wrap the end cap wire inserting portion, divided into two, and having a heating wire; A support rod having a hollow structure to connect the lower heating plate and the upper heating plate and to pass a power line connecting the upper and lower heating lines therein; It is characterized by consisting of a power supply unit connected to the heating wire to supply power.
When using the device of the present invention, it is not necessary to directly heat the end cap portion with a gas torch or hot air as in the prior art, and even beginners can easily connect the electrode rod and the end cap, and guarantee uniform quality. . In addition, since several can be connected to work at the same time compared to the conventional method has the effect of significantly increasing the work efficiency, such as labor cost reduction, construction period reduction.

Description

End cap connecting device of electric electrode for electric method {A Device Connecting Endcap to Anode}

The present invention relates to an end cap connecting device of an electric electrode rod, and more particularly, in the connection of the end cap which is an insulation shrink tube which prevents the penetration of moisture and foreign matter between the electric electrode terminal portion of the electric electrode rod and the wire inserted into the copper terminal portion. The present invention relates to an end cap connecting device that enables a terminal portion and an end cap to be connected easily and robustly without heating directly with a gas torch or hot air as in the related art.

Since steel structures buried underground do not reach the designed life due to the corrosion that is inevitably generated, various techniques are applied to guarantee the design life. The most reliable anti-corrosion method among these anti-corrosion technologies is an electrical method using an external power source.

The electric method using an external power supply prevents the oxidation reaction by continuously supplying the negative electrode to the steel structure and supplying power by connecting the anode to the steel structure from the rectifier installed on the ground and supplying the power to the electrode. to be. When the electrode 1 is connected to an external power source, it is very important to protect the terminal part 6 of the electrode 1 and the wire 7 to be inserted from moisture and foreign matter penetration because the connection part must be buried underground. Insulation shrink tube used for the purpose of preventing the penetration of foreign matters is called end cap (2; endcap). The electric wire 7 drawn into the electrode rod 1 is led through the wire insertion portion 4 and fixed to the wire fixing portion 5 of the electrode terminal portion 6 of the electrode rod 1.

1 is a photograph of inserting the end cap and the washer to the cable of the wire 7 of the electrode 1 according to the prior art. 2 is a photograph of the cover end of the electrode electrode wire 7 cable according to the prior art, and fixed it to the electrode wire fixing part (5). 3 is a photograph of heating and connecting the end cap to the electrode rod 1 according to the prior art. 4 is a perspective view showing an electrode rod 1 covered with an end cap 2 according to the prior art.

As shown in Figure 3, the existing end cap (2) is joined by shrinking it by direct heating, contact with the end cap portion with a gas torch or hot air. Connecting the electrode rod 1 and the end cap 2 using a conventional gas torch or hot air blower is an easy method, but there is a great variation according to the skill of the operator, and it is not easy to heat the electrodes arranged in a line. . Therefore, the existing connection method is greatly affected by the skill and work conditions of the operator. In addition, the direct exposure of the fire partially exceeds the limit of shrinkage to reach the hardened state often occurs often occurs, because of this often the electrode 1 can not be used until the design life.

In addition, when the end cap 2 is connected, the wire 7 is structurally connected to the electrode rod 1 after passing through the hole at the top of the end cap, so that the end cap 2 is incorrectly heated, or the end cap 2 is If a situation arises in which the connection is bad and needs to be replaced, the wire 7 connected to the electrode 1 must be pulled out again and passed through the end cap 2. Since the electrode 1 and the wire 7 are first fixed with a pin and then fused together with lead or silver in a liquid state, the electrode cap 1 must be replaced whole when the end cap 2 is incorrectly shrunk. There is a problem.

In addition, when connecting the end cap (2) by manually heating as in the prior art, the eccentricity of the end cap (2) is likely to occur due to the sudden contraction of the end cap (2), the position of the worker when working in the field It is difficult to induce uniform contraction along the copper wire, and unexpected flames may be applied to the wires 7 connected to the electrode rods 1.

In addition, it is difficult to expect the end cap (2) connection quality more than a certain amount because the skill of the operator is different, it is difficult to ensure the design life because the end cap (2) is scorched and hardened by exposure to excessive shrinkage or flame. In addition, the end cap (2) connection failure is connected to the replacement of the electrode (1) soon, there is a problem that the extension of the construction period and the economic loss increases.

It is an object of the present invention to provide an apparatus for easily and safely connecting an end cap with an electrode without using a gas torch or a hot air fan.

In order to achieve the above object, the end cap connection device of the electrode for the electrical method of the present invention, having the same shape as the body to wrap the end cap body from the outside, it is divided into two and these two can be mounted or separated A lower heating plate coupled to each other and having a heating wire therein; An upper hot plate having the same shape as the wire inserting portion so as to wrap the end cap wire inserting portion, divided into two, and having a heating wire; A support rod having a hollow structure to connect the lower heating plate and the upper heating plate and to pass a power line connecting the upper and lower heating lines therein; It is composed of a power supply unit connected to the heating wire to supply power.

In addition, the present invention is characterized in that one side divided into two of the lower heating plate is coupled to the hinge, and the support rod is characterized in that one or more installed, and the power supply is automatically turned on (on / off) Timer is attached, it is characterized in that it is possible to use by connecting a plurality of end caps connected in parallel, and also to the other coupling portion of the lower heat plate divided into two so that the lower heat plate is not opened by itself A stable groove is formed.

When using the device of the present invention, it is not necessary to directly heat the end cap portion with a gas torch or hot air as in the prior art, even beginners can easily connect the electrode and the end cap, and can guarantee uniform quality. . In addition, since several can be connected to work at the same time compared to the conventional method has the effect of significantly increasing the work efficiency, such as labor cost reduction, construction period reduction.

1 is a photograph of inserting the end cap and the washer in the cable of the electrode according to the prior art.
Figure 2 is a photograph of the removal of the coating end of the electrode cable according to the prior art, it is fixed to the electrode wire fixing portion.
Figure 3 is a photograph of heating and connecting the end cap to the electrode rod according to the prior art by a gas torch.
Figure 4 is a perspective view showing the electrode cap is covered with the end cap according to the prior art.
5 is a perspective conceptual view of the end cap connecting apparatus according to the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 5 is a perspective conceptual view of the end cap connecting apparatus according to the present invention.

Referring to FIG. 5, the end cap connecting device of the electrode for electric system of the present invention includes a lower heat plate 31, an upper heat plate 32, a support bar 33, and a power supply unit. In addition, in the end cap connecting device of the present invention, the end cap 2 is first covered on the electrode rod 1, and then the connecting device of the present invention is mounted on the end cap. In addition, the end cap connection device of the present invention can be produced by varying the size to be used for all the end caps used in all currently used electrical electrode electrodes.

The lower heat plate 31 of the end cap connecting device of the present invention has the same shape as the end cap body 3 so that the body 3 of the end cap 2 can be wrapped from the outside, and one place is open or Or divided into two, one side is coupled to the hinge 34, the other has an open structure. The lower heating plate 31 has a built-in heating wire throughout. In FIG. 5, the front portion of the lower heating plate 31 is open, and the hinge 34 is coupled to the rear portion. In actual use, the end portion is connected to the end cap body by coupling the open portions to each other while pushing the body of the end cap to the open portion in front of the lower plate 31.

In addition, the upper heat plate 32 has the same shape as the wire insertion unit 4 so as to surround the end cap wire insertion unit 4, and is divided into two. The heating wire is also built in the upper heating plate 32 throughout. In actual use, the wire inserting portion 4 of the electrode rod enters between the upper heat plates 32 divided into two, and the two heat plates 32 are coupled to each other while being engaged. The coupling of the two upper heat plates 32 may be hook coupling, or various coupling means known in the art.

In addition, the support rod 33 has a hollow pipe shape and supports the lower heat plate 31 and the upper heat plate 32. Power lines connecting the heating wires built into the lower heating plate 31 and the upper heating plate 32 pass through the inner hollow of the support bar 33. Therefore, it has a hollow structure to prevent the exposure of unnecessary power lines to increase the durability of the device. In addition, at least one supporting rod should be installed. The power source supplied to the heating wire of the connection device of the present invention is a power source separate from the electricity supplied to the electrode rod 1 via the wire 7 cable.

As shown in FIG. 5, the heating wire is connected to the power supply unit 40 including the controller 50 to receive the necessary power. The arrangement of the heating wires inside the upper and lower heating plates may be changed for efficient heat generation, and the heat shrinkage inside the upper and lower heating plates may be changed to optimize the heat shrinkage according to the working environment.

The lower heating plate 31 may be divided into one or two, and if one is configured, the one broken portion becomes a coupling part and is a structure that is opened and coupled using elasticity, and divided into two cases. As shown in 5, one side is coupled with a hinge 34 and the other side is a coupling site, and the other side is coupled, and then the body 3 of the end cap 2 is inserted into the other side. On the opposite coupling portion of the hinge 34, a stable groove 35 is formed so that the coupling portion of the lower heating plate 31 is not opened by itself. The coupling of the lower heat plate 31 may be a hook coupling, or a variety of known coupling means may be used.

The power supply unit 40 has a controller 50 equipped with an automatic on / off timer, and a plurality of power inlets 41 are formed to connect and connect a plurality of end cap connection devices in parallel. . The automatic on / off timer of the power supply unit 40 has the same operation time even when several devices are additionally connected in parallel to the power inlet 41 as common, and the operation time can be adjusted according to the working environment.

When the structure of the present invention is explained in detail, the part for heating the end cap 2 in the present invention is composed of an upper heat plate 32 and a lower heat plate 31, and is connected by a support rod 33. The support rod 33 has a hollow structure and a power line is inserted therein, and connects the upper heat plate 32 and the lower heat plate 31 to each other. The lower heat plate 31 is composed of a hinge 34 so that the attachment and detachment with the end cap (2) is easy, there is a stable groove 35 for fixing so that the device does not open by itself after being completely closed.

The power supply unit 40 may heat the up and down hot plates for a predetermined time and adjust the heating time according to the working environment by an automatic power on / off timer that prevents excessive heat shrinkage. In addition, the connection device of the present invention can be additionally connected in parallel to the power supply unit 40 so as to simultaneously heat shrink several end caps.

Hereinafter will be described the operation method of the present invention. In order to use the apparatus of the present invention, the end cap 2 is first covered on the electrode rod 1, and then the connecting device of the present invention is mounted on the end cap 2. When power is supplied from the power supply unit 40, the heating of the lower heat plate 31 and the upper heat plate 32 starts, and the surface temperature rises to 400 ° C. The end cap is made of polyolefin, and heat shrinkage starts at 135 ° C or higher. Through this process, the end cap 2 is completely in close contact with the terminal portion 6 of the electrode bar (1).

The electrode 1 is mostly stored in the field due to the nature of being buried underground, and accordingly, the surface temperature of the electrode 1, which is a metal, shows a great difference according to the season. In addition, depending on the ambient temperature, heat transfer from the hotplate to the atmosphere results in different heat losses. Therefore, by adjusting the timer that depends on the power supply unit 40, the temperature control setting for the site is required first.

In the actual field, the connection device of the present invention and an end cap 2 having a diameter of 112 mm and a height of 185 mm were used to connect the electrode rod 1. As a result, the airtight shrinkage of the end cap 2 was completed within about 1 minute, and uniform and uniform heat shrinkage to the end cap 2 site was confirmed.

1 electrode 2 end cap 3 body
4: wire insertion part 5: wire fixing part 6: electrode terminal part
7: wires
31: lower heat plate 32: upper heat plate 33: support rod
34: hinge 35: stable groove 40: power supply
41: power inlet 50: controller

Claims (5)

A lower heating plate having the same shape as the body so as to wrap the end cap body from the outside, and divided into two and coupled so that the two caps can be mounted or separated;
An upper hot plate having the same shape as the wire inserting portion so as to wrap the end cap wire inserting portion, divided into two, and having a heating wire;
A support rod having a hollow structure to connect the lower heating plate and the upper heating plate and to pass a power line connecting the upper and lower heating lines therein;
End cap connecting device of the electrode for the electrical method consisting of a power supply for supplying power connected to the heating wire. The method of claim 1,
One end divided into two of the lower heating plate is connected to the end cap of the electric electrode electrode characterized in that it is coupled by a hinge. The method of claim 1,
End cap connecting device of the electrode for the electrical method, characterized in that the support rod is installed at least one. The method of claim 1,
The power supply unit has an automatic on / off timer is attached, and the end cap connecting device of the electrode for the electric method, characterized in that it can be used by connecting a plurality of end cap connection in parallel. The method of claim 2,
An end cap connecting device of an electrode for an electric method, characterized in that the other coupling portion of the lower heat plate divided into two is formed with a stable groove that does not open by itself after the lower heat plate is coupled.

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