KR20200032532A - Ethernet patch cord and lighting system having the same - Google Patents

Abstract

The present invention relates to an Ethernet patch cord and a lighting system having the same, and more particularly, to an Ethernet patch cord capable of minimizing the occurrence or spread of fire and securing flexibility without a significant increase in cost, and a lighting system having the same. The Ethernet patch cord comprises: an Ethernet cable; a boot member; and an Ethernet connector plug.

Description

ETHERNET PATCH CORD AND LIGHTING SYSTEM HAVING THE SAME

The present invention relates to an Ethernet patch cord and a lighting system having the same. More specifically, the present invention relates to an Ethernet patch cord capable of minimizing the occurrence of a fire or spreading a fire, not increasing the cost, and securing flexibility, and a lighting system having the same.

In general, the Ethernet patch cord is configured by a method in which an Ethernet connector is connected to both ends of a UTP (or STP) cable including a plurality of pairs of conductor wires. In addition, the Ethernet connector may include a boot member for supporting a cable, a conductor wire constituting a plurality of pairs of cables, and an RJ45 standard Ethernet connector plug for accommodating and connecting a connection terminal exposed to the outside.

The Ethernet patch cord is mainly used for communication data transmission, but recently, an Ethernet power supply (PoE, Power over Etherent) technology that supplies power through an Ethernet patch cord is used.

Ethernet power supply (PoE) technology refers to the networking function defined by the IEEE 802.3af and 802.3at standards. Ethernet power supply (PoE) technology can be used to supply power to a network device through an existing Ethernet cable.

Power control (PSE) and power-supplying device (PD) that supply power in Ethernet power supply (PoE) technology are used to control the lighting and supply power as Ethernet communication system. It is also done.

The Ethernet power supply (PoE) technology is being applied to CCTV or lighting systems. Recently, the light source has been quickly replaced by a low-power LED, and it is possible to supply power by using an Ethernet network. This Ethernet-powered lighting system can be used with various sensors when a large number of lights, such as large buildings, are used. It has the advantage that it is installed and enables central or remote control of the lighting. Conventionally, for central control of lighting, the power cable and the control cable are connected to the lighting at the same time to increase the cost, but the light source is replaced with LED, and the above problem is solved by grafting the Ethernet power supply (PoE) technology.

However, when an Ethernet cable is used for power supply rather than communication, a fire problem for heat generation or the like may be considered. Also, in order to utilize the Ethernet network for lighting, it is necessary to install or connect the Ethernet patch cord to the ceiling where the lighting is installed, which increases consumption.

In order to prevent a fire, if the Ethernet cable is applied with the highest flame retardancy rating, for example, CMP rating, it may help to prevent or spread the fire, but the cost is greatly increased and the flexibility decreases, making workability when constructing an Ethernet network for PoE. There is a problem of falling.

The present invention aims to solve the occurrence of a fire or the spread of a fire, the cost increase is not large, and an Ethernet patch cord capable of securing flexibility and a lighting system having the same.

In order to solve the above problems, the present invention is an Ethernet cable; A boot member in which the Ethernet cable is introduced from the rear side; It is provided in front of the boot member and the Ethernet connector plug is connected to the Ethernet cable; includes, it is possible to provide an Ethernet patch cord characterized in that the flame retardancy of the Ethernet connector plug is higher than the flame retardancy of the Ethernet cable.

In addition, the Ethernet connector plug may satisfy the RJ45 standard.

In addition, the Ethernet cable may be any one of CMR, CM and CMX flame retardant grades.

Here, the Ethernet connector plug may satisfy the 0 rating of UL94 vertical (V) flame retardant test.

In this case, the boot member may be any one of PVC, silicone rubber and flame retardant PA.

In addition, a labeling member having a flame-retardant function surrounding the outer circumferential surface of the Ethernet cable may be provided.

In addition, the labeling member may be made of any one of a flame retardant PET tube, polyolipene tube, ceramic tube or fiberglass tube.

In addition, in order to solve the above problems, the present invention is at least one Ethernet power supply (PoE) type LED lighting unit; A PoE switch for supplying power to the LED lighting unit; And an Ethernet patch cord according to any one of claims 1 to 8 for connecting the LED lighting unit and the PoE switch.

According to the Ethernet patch cord according to the present invention, it is possible to minimize the occurrence or spread of a fire and secure flexibility to improve workability when working with an Ethernet cable.

In addition, according to the lighting system according to the present invention, since it is not necessary to apply an Ethernet cable made of a high flame retardant material, it is possible to reduce the cost of an Ethernet power supply (PoE) type lighting system.

1 shows an example of a lighting system for supplying power through Ethernet to which the Ethernet patch cord of the present invention is applied.
2 shows the patchcode of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed contents are thorough and complete, and that the spirit of the invention is sufficiently conveyed to those skilled in the art. Throughout the specification, the same reference numbers indicate the same components.

1 shows an example of a lighting system 1 for supplying power through Ethernet to which the Ethernet patch cord 200 of the present invention is applied.

The lighting system 1 to which the Ethernet patch cord 200 of the present invention is applied has a plurality of lighting units 2, and the present invention connects the PoE switch 3 with the Ethernet patch cord 200 to supply power to provide lighting function. Can provide.

The PoE switch 3 can be wirelessly connected to the control server 5 through a wired or wireless router 6, and can centrally control lighting through the control server 5. In addition, each lighting unit 2 may perform on / off or dimming control or the like in the controller 4 provided in the space where the lighting is installed, in addition to remote control by the control server 5.

The plurality of lighting units may be provided with various sensors, and each lighting unit 2 may be set to be automatically controlled by a control server or the like using information detected by the sensor as a control variable.

As described above, the Ethernet power supply (PoE) switch 3 connects each lighting unit 2 to supply power by using the Ethernet patch cord 200 for communication. The Ethernet patch cord 200 will be described with reference to FIG. 2.

2 shows the Ethernet patch cord 200 of the present invention.

Ethernet patch cord 200 is a UTP or STP-type Ethernet cable having a plurality of pairs of conductor wires and at least one end of the Ethernet cable 50, the RJ45 standard Ethernet connector 100 is mounted to connect the communication connection Means means

Specifically, the Ethernet cable 50 constituting the Ethernet patch cord 200 of the present invention may be a UTP or STP cable, and is configured in such a way that the Ethernet connector 100 is connected to both ends of the UTP or STP cable. In addition, the Ethernet connector 100 includes an Ethernet connector plug 10 of RJ45 standard for connecting and accepting a boot member 20 for supporting the cable and a conductor wire constituting a plurality of pairs of cables and a connection terminal exposed to the outside. It can be configured to include.

In general, the Ethernet cable 50 may be provided with a separator for separating 4 pairs of insulated conductor wires from each pair of conductor wires, and a cable jacket may be provided outside.

The Ethernet connector 100 connected to the Ethernet cable 50 includes an Ethernet connector plug 10 to which 4 pair conductor lines of the Ethernet cable 50 are connected, and a boot member mounted to the rear of the Ethernet connector plug 10 ( 20).

The boot member 20 has a structure through which the Ethernet cable 50 connected to the Ethernet connector plug 10 has a through structure and is made of a flexible resin material, prevents the bending of the Ethernet cable 50, and foreign matter to the rear of the Ethernet connector plug It can perform a function of preventing the back from entering.

The boot member 20 is provided with an Ethernet cable 50 to the rear, a cable support 26 provided with a plurality of incision grooves on the outer circumferential surface for bending flexibility, and an Ethernet connector provided in front of the cable support 26 It may be configured to include; a grip portion 21 connected to the plug 10.

The Ethernet connector plug 10 constituting the Ethernet connector 100 may be an RJ45 standard 8-pin plug, and the structure is standardized. In addition, a labeling member 51 having various connection information printed thereon may be provided on the outer peripheral surface of the Ethernet cable 50.

As described above, the Ethernet patch cord 200 of the present invention can be mainly used for data transmission, but can be applied to an Ethernet power supply (PoE) solution and used for power transmission. In this case, in the lighting system 1 It is necessary to reduce the risk of fire.

As a method for reducing the risk of fire occurrence or spread with the Ethernet patch cord 200, a method of using the high flame retardant Ethernet patch cord 200 may be considered. Among the Ethernet patch cords 200, the flame retardancy of the patch cords may be determined according to the flame retardancy of the Ethernet cable 50, the flame retardancy of the boot member 20, and the flame retardancy of the Ethernet connector plug 10. The flame retardant standards related to the Ethernet patch cord of the present invention are reviewed according to the NFPA 262 flame retardant test standard, which is a standard of the United States safety assurance agency.

The Ethernet patch cord supplies power to the lighting unit, but since the main cable is a communication cable, the flame retardancy standard conforms to the CM standard, and the CMP class meets NFPA 262 (Steiner Tunnel Test), and CMP> CMR> CM (G) > Flame retardancy is evaluated in the order of CMX.

In order to improve the flame retardancy of the Ethernet patch cord 200, when the Ethernet cable 50 is applied with a CMP-class high flame retardant cable, the cost is greatly increased and flexibility is reduced, and the Ethernet patch cord 200 is consumed in large quantities despite the flame retardant performance. It is not suitable to be applied to the PoE-type lighting system 1.

In addition, when a fire occurs, it is expected that ignition may be started more often in a PoE switch or the like that supplies electric power than in the case of a fire due to a short circuit or heat generation of the Ethernet cable 50 itself.

Therefore, in the present invention, the flame retardant rating of the Ethernet cable 50 constituting the Ethernet patch cord 200 that supplies power to the lighting in the PoE type lighting system 1 is CMP, which is the highest flame retardant rating with high price and poor flexibility. Except for the rating, the connector of the Ethernet patch cord 200 of the present invention is selected as a material having the highest grade of flame retardancy, and it is a feature of the invention to reduce the possibility of fire in the connector of the Ethernet patch cord 200.

Specifically, the Ethernet cable 50 constituting the Ethernet patch cord 200 of the present invention may be a flame retardant grade of any one of CMR, CM and CMX.

The Ethernet connector 100 may be composed of an RJ45 standard Ethernet connector plug 10 and a boot member 20, and in the event of a fire, the first RJ45 standard Ethernet connector plug 10 having an ignition potential is UL94 vertical (Vertical). ) It is desirable to be a material that satisfies the 0th grade of the flame retardant test. Specifically, the Ethernet connector plug may be a UL94 vertical flame retardant test grade 0 polycarbonate (PC) material.

UL94 vertical flame retardant test is the flame retardant test method of plastic materials among UL standards related to flame retardancy.The flame is evaluated in the order of shortest burning time of the specimen after 20 mm of flame is immersed in a plastic specimen for 10 seconds. The grade is V = 0 grade.

In addition, the boot member 20 may be made of a flexible material, and specifically, it is preferably made of any one of PVC, silicone rubber, and flame retardant polyamide (PA) materials, which are stable and flame resistant to heat.

In addition, the labeling member 51 configured in the form of a tube on the outer circumferential surface of the Ethernet cable 50 is a conventional vinyl material, but in the present invention, a flame-retardant PET tube, polyolefin shrink tube, ceramic tube or glass that is relatively fire resistant and flame retardant It is preferably applied with a material such as a fiber tube.

Although this specification has been described with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims set forth below. You can do it. Therefore, if the modified implementation basically includes the components of the claims of the present invention, it should be considered that all are included in the technical scope of the present invention.

1: PoE type lighting system
100: Ethernet connector
200: Ethernet patch cord

Claims (8)

Ethernet cable.
A boot member in which the Ethernet cable is introduced from the rear side;
Includes; is provided on the front of the boot member and the Ethernet connector plug to be connected to the Ethernet cable,
Ethernet patch cord, characterized in that the flame retardancy of the Ethernet connector plug is higher than the flame retardancy of the Ethernet cable. According to claim 1,
The Ethernet connector plug is Ethernet patch cord, characterized in that it satisfies the RJ45 standard. According to claim 1,
The Ethernet cable is Ethernet patch cord, characterized in that the flame retardancy of any one of CMR, CM and CMX. According to claim 1,
The Ethernet connector plug Ethernet patch cord, characterized in that it satisfies the 0 rating of UL94 vertical (V) flame retardant test. According to claim 1,
The boot member is made of any one of PVC, silicone rubber and flame retardant PA ethernet patch cord. According to claim 1,
Ethernet patch cord, characterized in that provided with a labeling member having a flame retardant function in the form surrounding the outer peripheral surface of the Ethernet cable. The method of claim 6,
The labeling member is a flame retardant PET tube, polyolipene tube, an Ethernet patch cord characterized in that it is made of any one of a ceramic tube or a glass fiber tube. At least one Ethernet power supply (PoE) type LED lighting unit;
A PoE switch for supplying power to the LED lighting unit; And,
Lighting system comprising a; Ethernet patch cord of any one of claims 1 to 7 for connecting the LED lighting unit and the PoE switch.

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