KR20210025874A - Electric wire connecting structure having multiple waterproof structure and connecting method thereof - Google Patents

Abstract

Disclosed is an electric wire connection structure having a multi-waterproof structure. The electric wire connection structure having a multi-waterproof structure according to the present invention comprises: a first wire connected to the power supply and provided with internal wires therein; and a second wire connected to a lighting fixture and provided with internal wires inside the sheath. In a state in which disconnected or stranded wires of the internal wires are twisted or in contact with each other in an exposed state and bound by a binding sphere. A coating layer is formed by applying an adhesive to fix the internal wires including the binding sphere and to make the secondary waterproofing at the same time. The cover member and the first and second wires are integrated by insert injection so that the space between the first and second wires in which each binding sphere for binding the internal wires on which the coating layer is formed is located is filled and the first and second wires are connected to each other to achieve the primary waterproofing.

Description

Electric wire connection structure with multiple waterproof structure and its connection method {ELECTRIC WIRE CONNECTING STRUCTURE HAVING MULTIPLE WATERPROOF STRUCTURE AND CONNECTING METHOD THEREOF}

The present invention relates to a wire connection structure having a multi-waterproof structure and a connection method thereof, and more particularly, to firmly connect the connection part of the wire and the wire, as well as to have a multi-waterproof structure, thereby preventing moisture or moisture. The present invention relates to a wire connection structure having a multi-waterproof structure that blocks inflow and can expect a waterproof effect for a long time even in water and a connection method thereof.

In general, power is supplied to lighting equipment that requires power, such as floodlights and streetlights, through wires. That is, the trunk line to which power is supplied and the branch line connected to the lighting device are connected to supply power to the lighting device.

Here, conventionally, when a connection (connection) between each wire is required, the sheaths of the ends of the wires to be connected are removed to expose the copper wires, and then the exposed copper wires are twisted and connected to each other, so that the connected parts are insulated from the outside. A wiring method wrapped with insulating tape was used.

However, such a wiring method not only degrades workability such as winding insulation tape after the worker twists each wire one by one, but also decreases the workability of the insulation tape due to the weakening of the adhesive force, and the influx of moisture or moisture can cause electric shock or short circuit. There was a problem to be caused.

As a prior art for solving this problem, Korean Patent Registration No. 10-1882391 (announcement date: 2018.07.26) discloses a waterproof wire connection device. As shown in Figure 1, the waterproof wire connection device according to the prior art includes a first connector portion (50a), a second connector portion (50b) and a waterproof cover (40).

The waterproof wire connection device of this structure can achieve waterproof through an assembly structure in which each component part is sequentially inserted through the opening side of the molded case part, and then each fixing member and alignment member are fastened, and the waterproof cover is combined. However, it was difficult to assemble due to the increase in parts, and there was a problem that the time required for assembly was increased.

As another prior art, Korean Utility Model Registration No. 20-0413827 (announcement date: 2006.04.11) discloses a connector for an electric wire. These wire connectors are divided into both sides, connected by a hinge means, and placed the connection part of both wires in the receiving space of the body part where both sides are joined together by a fixing means, and then close the body part and then inject a resin solution into it. It was possible to firmly fix the connection part of both wires by hardening it, but since the body part could be separated, there was a problem that the bonded state could not be maintained firmly, and there was a trouble of injecting a resin solution into the body part.

. Korean Registered Patent No. 10-1882391 (announcement date: 2018.07.26) . Republic of Korea Utility Model Registration No. 20-0413827 (announcement date: 2006.04.11)

It is an object of the present invention to provide a wire connection structure and a connection method having a multiple waterproof structure, as well as to firmly connect the connection portion of the wire and the wire.

In addition, the problem to be solved by the present invention is not limited to the technical problems mentioned above, and other technical problems that are not mentioned are clearly to those of ordinary skill in the technical field to which the present invention belongs from the following description. It will be understandable.

The above object is, according to the present invention, including a first wire connected to a power supply and provided with extension lines therein, and a second wire connected to a lighting device and provided with extension lines inside the sheath, and the disconnection of the extension lines or When stranded wires are twisted or in contact with each other in an exposed state, they are bound by a binding tool, and an adhesive is applied so that secondary waterproofing is achieved while fixing the inner wires including the binding tool to form a coating layer, and the coating layer is formed. The cover member and the first and second wires are insert-injected so that the first and second wires are connected to each other while filling the space between the first and second wires in which each binding tool for binding the extension lines is located. It is achieved by a wire connection structure having a multi-waterproof structure, characterized in that it is integrated into.

The exposed areas of the single wire or stranded wire of the internal wires may be coated with lead and then bound and connected with the binding tool in a state of being twisted or in contact with each other.

Each binding portion of the extension lines bound by the binding tool may be formed at different locations in the space so as not to contact each other.

The above object is, according to the present invention, to connect a first wire connected to a power supply and provided with extension lines inside the sheath, and a second wire connected to a lighting device and provided with extension lines inside the sheath so that waterproofing is achieved. As a method, a) the exposed part of the extensions of the first wire and the extensions of the second wire after exposing the single wire or stranded wire by removing a part of the covering of the extension lines of the first wire and the extension lines of the second wire In the state of twisting each other or in close contact with each other, the internal line binding step of binding with a binding tool; b) An adhesive is applied to the inner lines of the first and second wires located in the space between the first and second wires, and the surfaces of the fasteners to fix the positions of the respective extensions, and secondary waterproofing is achieved. A coating layer forming step of forming a coating layer so as to be formed; c) In the inner center of the mold, after placing the first and second electric wires so that the extension lines and the fastening holes on which the coating layer is formed are located, insert a cover member on the bonding portion of the first and second electric wires by injection molding. It is achieved by a wire connection method having a multi-waterproof structure, characterized in that it comprises an insert injection molding step of integrally forming the first waterproofing to be achieved.

The step a) may further include coating the exposed areas of the single or stranded wires of the extension lines with lead and then binding them with the binding tool in a state of being twisted or in contact with each other.

The step a) may further include forming each of the binding portions at different positions so as not to be in contact with each other so as to prevent the binding tools from contacting each other when binding and connecting extension lines that match each other with the binding tool.

The step c) may further include applying heat to the mold for insert injection molding to melt and integrate the cover member and some of the first and second wires.

According to the present invention, the first and second wires are coated with an adhesive in a state where the extensions of the first wire and the extensions of the second wire that are connected to each other are bound by a binding tool, and the cover member is coated with a coating layer by insert injection molding. By being integrated while surrounding the binding portion of the station, it is possible to provide the effect that the binding portion of each station can be waterproofed multiple times.

In addition, since the binding portions of the first and second electric wires are inserted into and integrated with the cover member, the binding portion can be safely protected by the cover member, and an effect of maintaining a solid binding state can be provided.

1 is a partially enlarged cross-sectional view showing a wire binding device according to the prior art.
Figure 2 is a perspective view showing a wire connection structure having a waterproof structure according to the present invention.
FIG. 3 is a cross-sectional view illustrating a wire connection structure having a waterproof structure shown in FIG. 2 in a combined state.
Figure 4 is a perspective view showing a state of use of the wire connection structure having a waterproof structure shown in Figure 2;
5 is a schematic flowchart illustrating a connection method of the wire connection structure having a waterproof structure shown in FIGS. 2 and 3.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, a description of a function or configuration that is already known will be omitted in order to clarify the gist of the present invention.

In addition, terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, "comprises" and/or "comprising" does not exclude the presence or addition of one or more other components.

In the accompanying drawings, FIG. 2 is a perspective view showing a wire connection structure having a waterproof structure according to the present invention, and FIG. 3 is a cross-sectional view showing a combined state of the wire connection structure having a waterproof structure shown in FIG. 2, and FIG. 4 Is a perspective view showing a state of use of the wire connection structure having a waterproof structure shown in FIG. 2.

As shown in Figures 2 to 4, the wire connection structure 100 having a waterproof structure according to the present invention, the first wire 120 connected to the power supply and provided with extensions 122 therein, and lighting It is for connecting the second wire 140 connected to the appliance 300 and provided with the inner wires 142 inside the sheath in a multi-waterproof structure. The wire connection structure 100 is bound by a binding tool 400 in a state in which the disconnected or stranded wires of each of the extension lines 122 and 142 are twisted or abutted to each other in an exposed state, and the extension lines 122 and 142 including the binding tool 400 At the same time, the adhesive is applied so that the secondary waterproofing of the binding portion (A) is applied to form the coating layer 130, and each binding tool 400 for binding the extension lines 122 and 142 on which the coating layer 130 is formed is located. Filling the space (S) between the first and second wires (120, 140) and connecting the first and second wires (120, 140) to each other to achieve the primary waterproofing of the binding portion (A), the cover member 150 and the first, 2 The wires 120 and 140 are integrated by insert injection.

This will be described in more detail.

The first and second wires 120 and 140 have an outer covering surrounding the inner wires 122 and 142, and each of the inner wires 122 and 142 has a general structure in which the inner covering is wrapped around a single or stranded wire.

The binding tool 400 has a ring shape made of a metal material, and is crimped and deformed in a state where the single or stranded wires of the exposed internal lines 122 and 142 are inserted into contact with the cover being peeled off. It has the function of binding and connecting.

At this time, the single wire or stranded wire in the exposed area by removing the inner covering of the inner wires 122 and 142 is coated with lead and then twisted or abutted to each other and bound and connected by a binding tool 400. This is to improve the connection state of both the inner lines 122 and 142, that is, the energization state, and the exposed ends of each of the inner lines 122 and 142 are coated with lead and then contacted with each other to bind with the binding tool 400.

In addition, the binding portions A of the extensions 122 and 142 bound by the binding tool 400 are formed at different positions in the space S to prevent contact with each other. That is, as shown in FIG. 3, it is preferable that the binding portions A of the extension lines 122 and 142 are bound together so that they are formed in a zigzag so that they are not connected to each other.

In the coating layer 130, an adhesive is applied to each of the extension lines 122 and 142 exposed to the space S formed between the first and second wires 120 and 140 by removing a part of the outer covering of the first and second wires 120 and 140. Is formed. That is, the space (S) of the inner lines 122 and 142 and the surface of the fastening tool 400 are fixed so that the position of the extension lines 122 and 142 are bonded to each other so that they do not move, and at the same time, the secondary waterproofing of the bonding area A is achieved. ) Is applied to the surface of each part exposed to the coating layer 130 is formed. In this way, the coating layer 130 is formed on the surface of each component exposed to the space S between the first and second wires 120 and 140, thereby preventing moisture or moisture from penetrating into the binding portion.

The cover member 150 is to be integrated with the first and second wires 120 and 140 while being filled in the entire space (S) between the first and second wires 120 and 140 so that the first and second waterproofing of the binding portion is achieved, and the insert It is formed on the binding portion (A) of the first and second electric wires 120 and 140 by injection molding. That is, it fills the space (S) between the first and second wires 120 and 140 in which the respective binding holes 400 for binding the inner wires 122 and 142 on which the coating layer 130 is formed is located, and the first and second wires 120 and 140 are connected to each other. The cover member 150 is formed on the binding portion (A) by performing insert injection molding so that the first waterproofing is performed on the binding portion (A) while connecting.

In other words, the cover member 150 is integrally formed with the first and second wires 120 and 140 while filling and wrapping the binding portion A formed in the space S between the first and second wires 120 and 140, As well as being firmly and securely fixed to the binding portion (A), the primary waterproofing can be achieved.

The wire connection structure 100 having a waterproof structure configured as described above may be used as shown in FIG. 4. That is, after the first wire 120 connected to the power supply source and the second wire 140 connected to the lighting device 300 are connected to each other by the binding tool 400, the coating layer 130 is formed to achieve secondary waterproofing. The top, the cover member 150 is integrated with the first and second electric wires 120 and 140 while additionally enclosing the binding portion A by insert injection molding, thereby protecting the binding portion A from external impacts, as well as primary Waterproof.

Accordingly, the binding portions A of the first and second electric wires 120 and 140 in which the respective extension lines 122 and 142 are bound to each other by the binding tool 400 can be waterproofed in multiple stages. In addition, it can be safely protected from external force by the cover member 150 integrated with the first and second wires 120 and 140 by insert injection molding.

A wire connection method of the wire connection structure 100 having a waterproof structure having such a configuration will be described. This method is the first wire 120 connected to the power supply and provided with extension lines 122 inside the sheath, and the second wire connected to the lighting fixture 300 and provided with extension lines 142 inside the sheath. This is a method of connecting 140 so that it is waterproof.

a) Station unity stage

The extension of the extension line 1220 of the first wire 120 and the extension line 142 of the second wire 140 are removed to expose a single wire or stranded wire, and then the extension line of the first wire 120 The exposed portions of the inner wires 122 and the inner wires 142 of the second wire 140 are twisted or bonded together with a binding tool 400 in a state in which they are in close contact with each other. The binding tool 400 is made of a metal plate bent in a hollow shape made of metal or a'C' shape, and after placing the stranded wires or disconnected wires on both sides of the metal tube or metal plate exposed to the coating, the metal tube or metal plate is compressed to bind it. will be.

At this time, after coating the exposed area of the disconnected or stranded wires of the extension lines 122 and 142 with lead, the connection state of each extension line 122 and 142 is improved by binding with the binding tool 400 in a state of being twisted or in contact with each other.

And, as shown in Figures 3 and 5 (A), when binding and connecting the matching extensions 122 and 142 with each of the binding tools 400, each binding portion so that the binding tools 400 do not contact each other. (A) is formed in different positions so as to deviate from each other.

b) Coating layer formation step

In the coating layer forming step, as shown in (B) of FIG. 5, the extensions 122 and the second wires of the first wires 120 located in the space S between the first and second wires 120 and 140 An adhesive is applied to the surfaces of the extension lines 142 and the binding tool 400 of 140 to fix the positions of the extension lines 122 and 142, and to form the coating layer 130 so that secondary waterproofing is achieved. By applying the adhesive in this way, the positions of the respective extension lines 122 and 142 can be fixed, and the single or stranded lines 122A and 142A of the stripped extension lines 122 and 142 and the surface of the binding tool 400 are external (in the air). It is not exposed to, and thus the primary waterproofing can be made.

c) Insert injection molding step

Insert injection molding step, as shown in Figure 5 (C), in the inner center of the mold (M), the first, so that the inner lines (122, 142) and the binding tool (400) in which the coating layer 130 is formed are located. 2 After positioning the electric wires 120 and 140, the resin was injected into the mold M, and insert injection molding was performed when curing, so that the bonding portion A of the first and second electric wires 120 and 140, that is, the first, 2 The cover member 150 is integrally formed in the space (S) between the electric wires 120 and 140 so that the primary waterproofing is achieved. At this time, during insert injection molding, heat is applied to the mold M to melt the cover member 150 and some of the first and second electric wires 120 and 140 to be integrated with each other.

In this way, by forming the cover member 150 integrated with the first and second wires 120 and 140 while filling the space S between the first and second wires 120 and 140 by insert injection molding, the binding portion (A) It protects from external force as well as waterproofing. Particularly, since the cover member 150 and some of the first and second wires 120 and 140 are melted and integrated, a phenomenon in which water or moisture from the outside penetrates into the binding portion A can be prevented at the source.

As described above, the bonding portion (A) of each extension (122, 142) of the first and second wires (120, 140) is secondarily waterproofed by the coating layer (130), and the integration of the cover member (150) by insert injection molding By performing the primary waterproofing, multi-stage waterproofing for the binding portion (A) of the first and second electric wires (120, 140) is possible, and the binding portion (A) of the first and second electric wires (120, 140) is safely protected by external force. Can be.

In the above, although specific embodiments of the present invention have been described and illustrated, the present invention is not limited to the described embodiments, and various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have. Therefore, such modifications or variations should not be individually understood from the technical spirit or point of view of the present invention, and the modified embodiments should be said to belong to the claims of the present invention.

100: wire connection structure 120: first wire
122,142: extension 140: second wire
300: lighting device 400: binding sphere
A: Bonding area S: Space

Claims (7)

A first wire connected to a power supply and provided with extension lines therein, and a second wire connected to a lighting device and provided with extension lines inside the sheath,
The single wires or stranded wires of the stations are twisted or bonded to each other in an exposed state, and are bound by a binding tool,
A coating layer is formed by applying an adhesive so as to secure the inner lines including the binding tool and achieve secondary waterproofing,
The cover member and the first and second wires fill the space between the first and second wires in which each binding tool for binding the internal lines on which the coating layer is formed are located, and connect the first and second wires to each other to achieve primary waterproofing. Characterized in that the electric wire is integrated by insert injection,
Wire connection structure with multiple waterproof structure. The method of claim 1,
The exposed area of the single line or stranded line of the stations,
After being coated with lead, characterized in that it is bound and connected with the binding tool in a state where they are twisted or in contact with each other,
Wire connection structure with multiple waterproof structure. The method of claim 1,
Each binding portion of the extensions bound by the binding tool,
It is formed at different locations in the space, characterized in that they do not contact each other,
Wire connection structure with multiple waterproof structure. A method of connecting a first wire connected to a power supply and having extension lines inside the sheath, and a second wire connected to a lighting device and provided with extension lines inside the sheath so that waterproofing is achieved,
a) After removing a part of the covering of the extension lines of the first wire and the extension lines of the second wire to expose the single wire or stranded wire, twist the exposed parts of the extension lines of the first wire and the extension lines of the second wire with each other. In a state in which they are in close contact with each other or in close contact with each other, the internal line binding step of bonding by pressing with a binding tool;
b) An adhesive is applied to the inner lines of the first and second wires located in the space between the first and second wires, and the surfaces of the fasteners to fix the positions of the respective extensions, and secondary waterproofing is achieved. A coating layer forming step of forming a coating layer so as to be formed;
c) In the inner center of the mold, after placing the first and second electric wires so that the extension lines and the fastening holes on which the coating layer is formed are located, insert a cover member on the bonding portion of the first and second electric wires by injection molding. It characterized in that it comprises an insert injection molding step of integrally forming the first waterproofing is achieved,
Wire connection method with multiple waterproof structure. The method of claim 4,
The step a),
It characterized in that it further comprises the step of coating the exposed areas of the single or stranded wires of the extension lines with lead and then binding them with the binding tool in a state in which they are twisted or in contact with each other,
Wire connection method with multiple waterproof structure. The method of claim 4,
The step a),
When binding and connecting the extension lines that match each other with the binding tool, it characterized in that it further comprises the step of forming each binding portion in a different position to shift from each other so that the binding tool does not contact with each other,
Wire connection method with multiple waterproof structure. The method of claim 4,
The step c),
It characterized in that it further comprises the step of applying heat to the mold during insert injection molding to melt the cover member and a part of the first and second wires to be integrated,
Wire connection method with multiple waterproof structure.

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