초록 ▼

Overmolded electrical plugs with integrated strain relief are disclosed. The strain relief may have multiple protrusions extending though the overmolded housing which are visible to users. The strain relief may employ a ratcheting mechanism which permanently secures the strain relief on the electric

Overmolded electrical plugs with integrated strain relief are disclosed. The strain relief may have multiple protrusions extending though the overmolded housing which are visible to users. The strain relief may employ a ratcheting mechanism which permanently secures the strain relief on the electrical power cord. The strain relief may be partially assembled in a pre-lock configuration on the electrical power cord where the strain relief may be positioned on the power cord, and then be further pressed to a locked configuration in which the is securely attached to the power cord. The strain relief is self-aligned on the electrical plug during an assembly process.

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1. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical

1. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having an outer surface having a plurality of protrusions extending radially away from the electrical power cord;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure the inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port; and,removing the overmolded electric plug from the injection mold,wherein the mold cavity is shaped to receive the protrusions of the strain relief and form a seal surrounding the protrusions of the strain relief to prevent the molten insulating material from depositing on the outer surface of the protrusions of the strain relief. 2. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 1, wherein placing a strain relief around the electrical power cord comprises pre-locking the strain relief around the electrical power cord, wherein the strain relief in the pre-locked configuration is able to move laterally about the electrical power cord. 3. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 2 wherein pressing the top mold block onto the bottom mold block further comprising pressing the strain relief into a locked configuration, wherein the strain relief is securely engaged to the electrical power cord in the locked configuration. 4. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 3, wherein pressing the strain relief into a locked configuration comprises engaging one portion of the strain relief into a second portion of the strain relief in a direction perpendicular to a length of the electrical power cord. 5. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 3, wherein pressing the strain relief into a locked configuration comprises engaging one portion of the staring relief into a second portion of the strain relief in a direction parallel to a length of the electrical power cord. 6. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 1, wherein: the protrusions of the strain relief are contoured having a first and a second beveled surface forming a ridge distal to the electrical power cord, andthe mold cavity is shaped to receive the protrusions of the strain relief and form a contact with the first and the second beveled surfaces, wherein when the top mold block is pressed toward the second mold block, the section of the mold cavity mold cavity adjacent to the first and second beveled surfaces urge the strain relief to move laterally along the electrical power cord to a desire location. 7. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 1, wherein: the protrusions of the strain relief are contoured having a first and a second beveled surface forming a ridge distal to the electrical power cord, andthe mold cavity is shaped to receive the protrusions of the strain relief and form a contact with the first and the second beveled surfaces, wherein when the top mold block is pressed toward the second mold block, the section of the mold cavity mold cavity adjacent to the first and second beveled surfaces urge the strain relief to move along the electrical power cord to a desired angular orientation. 8. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 1, wherein: the inner body assembly further comprises one or more inner body protrusions projecting outward and away from the top of the inner body assembly; and,the upper mold block is shaped to receive the inner body protrusions and form a seal surrounding the inner body protrusions to prevent the molten material from depositing on the top surface of the inner body protrusions. 9. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 1, wherein the inner body comprises inner body protrusions indicating orientation. 10. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having an outer surface having a plurality of protrusions extending radially away from the electrical power cord, the strain relief having a coupling member extending away from the strain relief;connecting the coupling member of the strain relief to the inner body assembly;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure an inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block;placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port, the injected molten material urging air within the mold to vent via multiple air escape paths; and,removing the overmolded electric plug from the mold,wherein the mold cavity is shaped to receive the protrusions of the strain relief and form a seal surrounding the protrusions of the strain relief to prevent the molten material from depositing on the outer surface of the protrusions of the strain relief. 11. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 10, wherein placing a strain relief around the electrical power cord comprises pre-locking the strain relief around the electrical power cord. 12. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 11 wherein pressing the top mold block onto the bottom mold block further comprising pressing the strain relief into a locked configuration, wherein the strain relief is securely engaged to the electrical power cord in the locked configuration. 13. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 12, wherein pressing the strain relief into a locked configuration comprises engaging one portion of the staring relief into a second portion of the strain relief in a direction perpendicular to a length of the electrical power cord. 14. The method for manufacturing an overmolded electric plug with integrated strain relief of claim 12, wherein pressing the strain relief into a locked configuration comprises engaging one portion of the staring relief into a second portion of the strain relief in a direction parallel to a length of the electrical power cord. 15. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having a plurality of protrusions extending radially away from the electrical power cord, the strain relief having a coupling member extending away from the strain relief;connecting the coupling member of the strain relief to the inner body assembly;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure an inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block;placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port, the injected molten material urging air within the mold to vent via multiple air escape paths; and,removing the overmolded electric plug from the mold,wherein:the inner body assembly further comprises one or more inner body protrusions projecting outward and away from the top of the inner body assembly; and,the upper mold block is shaped to receive the inner body protrusions and form a seal surrounding the inner body protrusions to prevent the molten material from depositing on the top surface of the inner body protrusions. 16. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having a plurality of protrusions extending radially away from the electrical power cord, the strain relief having a coupling member extending away from the strain relief;connecting the coupling member of the strain relief to the inner body assembly;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure an inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block;placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port, the injected molten material urging air within the mold to vent via multiple air escape paths; and,removing the overmolded electric plug from the mold,wherein the inner body comprises inner body protrusions indicating orientation. 17. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having plurality of protrusions extending radially away from the electrical power cord;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure the inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port; and,removing the overmolded electric plug from the injection mold,wherein:the protrusions of the strain relief are contoured having a first and a second beveled surface forming a ridge distal to the electrical power cord, andthe mold cavity is shaped to receive the protrusions of the strain relief and form a contact with the first and the second beveled surfaces, wherein when the top mold block is pressed toward the second mold block, the section of the mold cavity mold cavity adjacent to the first and second beveled surfaces urge the strain relief to move laterally along the electrical power cord to a desire location. 18. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having plurality of protrusions extending radially away from the electrical power cord;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure the inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port; and,removing the overmolded electric plug from the injection mold,wherein:the protrusions of the strain relief are contoured having a first and a second beveled surface forming a ridge distal to the electrical power cord, andthe mold cavity is shaped to receive the protrusions of the strain relief and form a contact with the first and the second beveled surfaces, wherein when the top mold block is pressed toward the second mold block, the section of the mold cavity mold cavity adjacent to the first and second beveled surfaces urge the strain relief to move along the electrical power cord to a desired angular orientation. 19. A method for manufacturing an overmolded electric plug with integrated strain relief, comprising: producing an inner body assembly comprising a wire assembly and an inner body, the wire assembly comprising an electrical power cord and electrical connectors, the inner body securing the electrical connectors;placing a strain relief around the electrical power cord, the strain relief having plurality of protrusions extending radially away from the electrical power cord;producing an injection mold comprising a top mold block, a bottom mold block, and a socket mold block, the injection mold having a mold cavity shaped to correspond to the desired shape of the overmolded electric plug with integrated strain relief, the bottom mold block shaped to receive and detachably secure the inner body assembly and a strain relief, the socket mold block having socket connectors configured to receive the electrical connectors, the injection mold having a feeder injection port;coupling the electrical connectors to the socket connectors of the socket mold block placing the inner body assembly and the strain relief into the bottom mold;pressing the top mold block onto the bottom mold block;injecting a molten insulating material into the injection mold through the feeder injection port; and,removing the overmolded electric plug from the injection mold,wherein:the inner body assembly further comprises one or more inner body protrusions projecting outward and away from the top of the inner body assembly; and,the upper mold block is shaped to receive the inner body protrusions and form a seal surrounding the inner body protrusions to prevent the molten material from depositing on the top surface of the inner body protrusions.