The invention relates to a power cord having an insertion plug at one end of a cord, and its manufacturing method, more particularly to a power cord and its manufacturing method high in reliability in tracking resistance, free from deviation of blade interval in forming process or plugging and unplu
The invention relates to a power cord having an insertion plug at one end of a cord, and its manufacturing method, more particularly to a power cord and its manufacturing method high in reliability in tracking resistance, free from deviation of blade interval in forming process or plugging and unplugging operation, and excellent in heat resistance and tracking resistance: more specifically, the power cord is composed by connecting blades to plural conductors exposed at the end of cord, holding these blades at a specified interval spacing, and covering the base side and leading end side of cord with synthetic resin to form a plug, characterized by inserting the base of blades or from the base to the leading end of cord at a specified spacing distance, and ejecting and forming a core by hard thermoplastic resin such as polyamide, polybutadiene, or polypropylene, and inserting the core, and ejecting and forming a plug by a soft thermoplastic resin.
대표청구항▼
The invention claimed is: 1. A power cord, comprising: connecting blades connected to plural conductors having an insulator positioned at a leading end of the power cord, wherein the connecting blades are held at a specified interval spacing, and a base side of the blades and a leading end side of
The invention claimed is: 1. A power cord, comprising: connecting blades connected to plural conductors having an insulator positioned at a leading end of the power cord, wherein the connecting blades are held at a specified interval spacing, and a base side of the blades and a leading end side of the power cord are covered with a synthetic resin to form a plug; and the plug having a core that includes covering parts corresponding to the number of plural conductors, wherein the covering parts cover the base side of the blades and the insulator, wherein the core is formed by injecting a hard thermoplastic resin, and an outer skin is formed by injecting a soft thermoplastic resin, and wherein the core further comprises a generally flat coupling part extending from a front end of the covering parts toward a rear end of the covering parts. 2. The power cord of claim 1, wherein the core is positioned at a front side of the plug, and a front side of the core is exposed at the front side of the plug. 3. The power cord of claim 1, wherein a locking structure is formed between the core and the outer skin so as to prevent separation of the two by integrally forming the plug. 4. The power cord of claim 2, wherein the flat coupling part is of uniform thickness, and is provided to mutually couple the plural covering parts over a specified length range extending rearward of a front part of the core. 5. A method of manufacturing a power cord including covering a base side of blades and a leading end side of the power cord with synthetic resin thereby forming a plug, comprising: a core forming process including placing the blades held in a specified interval spacing, and connected to plural conductors having an insulator positioned at the leading end side of the power cord, inside of a die, injecting a hard thermoplastic resin, from a base end of the blades to a leading end side of the power cord, into the die to form a core; and a plug forming process including placing the core inside of a die and injecting a soft thermoplastic resin into the die thereby forming the plug, wherein the method includes providing the core with covering parts corresponding to the number of plural conductors, the covering parts covering the base side of the blades and the insulator, wherein the method further providing the covering parts with a generally flat coupling part extending from a front end of the covering parts toward a rear end of the covering parts. 6. The method of manufacturing the power cord of claim 5, wherein the core is positioned at the front side of the plug, and the front side of the core is exposed to the front side of the plug in the plug forming process. 7. The method of manufacturing the power cord of claim 5, wherein a locking structure is formed between the core and outerskin so as to prevent separation of the two by integrally forming the plug in the plug forming process. 8. The method of manufacturing the power cord of claim 5, wherein the core is formed so as to be positioned in a thick portion at the front side of the plug in the plug forming process. 9. The method of manufacturing the power cord of claim 5, wherein the die used in the injecting and forming process divides the plug into two halves, and has parting lines formed at positions not dividing the blades. 10. The power cord of claim 1, wherein the coupling part includes bumps formed at a upper side and a lower side of the coupling part. 11. A method of manufacturing the power cord of claim 5, wherein the method includes providing the coupling part with bumps formed at an upper side and a lower side of the coupling part. 12. The power cord of claim 1, wherein the hard thermoplastic resin is selected from at least one of a polyamide, polybutadiene, or polypropylene, and the soft thermoplastic resin is a vinyl chloride. 13. The method of manufacturing the power cord of claim 5, wherein the hard thermoplastic resin is selected from at least one of a polyamide, polybutadiene, or polypropylene, and the soft thermoplastic resin is a vinyl chloride.
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이 특허에 인용된 특허 (3)
Hwang Haw C. (No. 3 ; Lane 21 ; Hsing Der Rd. Taipei TWX), Quick detachable electric device.
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