Welding-free power supply plug
Technical Field
The invention belongs to the field of plugs, and particularly relates to a plug capable of supplying power to a lamp without welding.
Background
The lamp comprises a lamp body and a plug, the lamp strip is arranged on the inner side of the lamp, the lamp strip can generate illumination light when in operation, the lamp strip can normally work after receiving electric energy when in operation, the lamp strip of the traditional lamp is connected with one end of a power line in an artificial welding mode, the other end of the power line is connected with an external terminal to form conduction, the traditional lamp strip is electrically conductive in a power line welding mode, labor cost and materials are wasted, the production efficiency of the product is low, welding between the power line and the lamp strip is easy to fall off, and the stability caused by the welding is influenced when in use, so that the lamp strip is a main defect of the traditional technology.
Disclosure of Invention
The invention solves the problems that: the contact between guide pin and the lamp area makes the lamp area can receive the electric energy, solves the problem that the lamp area needs the bonding wire to just can receive the electric energy, improves the production efficiency of product, realizes that the lamp area exempts from the bonding wire can electrically conduct.
In order to achieve the above purpose, the present invention provides the technical scheme: the utility model provides a exempt from to weld power supply end cap, includes connecting piece and guide pin, during the use, the connecting piece is connected with lamps and lanterns side, the lamps and lanterns inboard is equipped with the lamp area, the lateral wall of connecting piece is equipped with a plurality of conductive holes, the lateral wall orientation the surface in lamp area is equipped with places the platform, place the platform and be equipped with place layer and locating layer, the locating layer is higher than place the height of layer, the one end in lamp area is located place the surface in layer, the guide pin is equipped with conducting terminal, contact end and link, link one end is equipped with the conducting terminal, the link other end is equipped with the contact end, the contact end with place the lamp area surface contact of layer, the conducting terminal is located the surface in the conductive hole, the conducting terminal run through in the lateral wall, puncture the guide pin of lateral wall one end is electrically conductive with external terminal contact, and electric energy is followed the conducting terminal is transmitted to the contact end, the contact end is equipped with the conducting terminal is equipped with the electric energy again, when making the lamp area receive the electric energy, when making the lamp area.
Further, still include the setting element, the setting element has spacing post, the locating layer is towards being equipped with the constant head tank, spacing post is located the locating layer in the constant head tank, the setting element can with the conducting end contact of locating layer.
Further, the conducting end faces to the side end of the limiting post, and a clamping groove is formed in the conducting end, when the conducting pin moves towards the direction of the lamp strip, the clamping groove is in contact with the limiting post.
Further, the positioning piece is provided with a positioning block, and the positioning block is in contact with the contact end of the guide pin on the surface of the lamp strip.
Further, the contact end is provided with a groove, and the bottom end of the positioning block is arranged on the surface of the groove.
Further, the conductive holes are formed in the side ends of the positioning layer.
Further, the number of the guide pins is two.
Further, the guide pin is made of a metal material.
The invention has the technical effects and advantages that: the lamp area with the contact end contact of guide pin, the guide pin the conductive end is connected with external terminal and is received the electric energy, the lamp area passes through the contact of guide pin can the direct reception electric energy, has solved tradition the lamp area needs to receive the electric energy through the mode of bonding wire, and this end cap reality exempts from the mode contact of bonding wire between lamp area and the end cap and makes the lamps and lanterns accomplish electrically conductive, does not save metal solder with the welding, and environmental protection and energy saving omits high power consumption during the welding, and low carbon environmental protection and energy saving avoids the material waste of welding error, works as when the lamp area damages, can change alone the lamp area avoids original whole lamps and lanterns to change, produces extravagant.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present invention.
Fig. 2 is a schematic exploded view of the present invention.
Fig. 3 is a schematic diagram of a connection structure between a conductive component and a lamp strip according to the present invention.
Fig. 4 is an enlarged schematic view of fig. 3a in accordance with the present invention.
Fig. 5 is a schematic diagram of a cross-sectional structure at a in fig. 3 according to the present invention.
Fig. 6 is a schematic structural view of a connector according to the present invention.
Fig. 7 is a schematic view of a guide pin structure according to the present invention.
Fig. 8 is a schematic view of a positioning member according to the present invention.
Detailed Description
As shown in fig. 1 to 8, a welding-free power supply plug comprises a connecting piece 110, a guide pin 120 and a positioning piece 130, wherein, when in use, the connecting piece 110 is connected with a side end of a lamp, a lamp strip 20 is arranged on the inner side of the lamp, the lamp strip 20 can generate illumination light when in operation, a plurality of conductive holes 111 are formed in a side wall 101 of the connecting piece 110, and a placing table 200 is arranged on the surface of one end of the side wall 101 facing the lamp.
The placement table 200 is provided with a placement layer 210 and a positioning layer 220, wherein the positioning layer 220 is higher than the placement layer 210, and one end of the light strip 20 is disposed on the surface of the placement layer 210 when in use.
The positioning layer 220 is provided with a positioning groove 221 in a downward direction, and the conductive hole 111 is disposed at a side end of the positioning layer 220.
The guide pin 120 is provided with a conductive end 121, a contact end 122 and a connection end 123, one end of the connection end 123 is provided with the conductive end 121, and the other end of the connection end 123 is provided with the contact end 122.
The guide pins 120 are made of metal materials, and the guide pins 120 are arranged in two strips and are used for transmitting positive and negative electrodes of current.
In a specific implementation, the contact end 122 contacts with the surface of the light strip 20 of the placement layer 210, the conductive end 121 is disposed on the surface of the positioning layer 220, one end of the conductive end 121 is disposed in the conductive hole 111, the conductive end 121 penetrates through the side wall 101, when in use, the conductive pin 120 penetrating through one end of the side wall 101 contacts with an external terminal to conduct electricity, and electric energy is transmitted from the conductive end 121 of the conductive pin 120 to the contact end 122, and the contact end 122 transmits the electric energy to the light strip 20, so that the light strip 20 can receive the electric energy.
The positioning member 130 has a positioning post 131 and a positioning block 132, and the positioning post 131 is disposed in the positioning groove 221 of the positioning layer 220.
The positioning block 132 is disposed on the surface of the contact end 122.
In a specific implementation, when the conductive end 121 is disposed on the positioning layer 220 and the contact end 122 contacts the surface of the light strip 20, the limiting post 131 of the positioning member 130 is disposed in the positioning groove 221 of the positioning layer 220, a clamping groove 1211 is disposed at a side end of the conductive end 121 facing the limiting post 131, when the guide pin 120 moves toward the light strip 20, the clamping groove 1211 contacts the limiting post 131, the positioning member 132 contacts the guide pin 120 on the surface of the light strip 20, the contact end 122 is provided with a groove 1221, the bottom end of the positioning member 132 is disposed on the surface of the groove 1221, and the positioning member 130 can make the connection between the guide pin 120, the connecting member 110 and the light strip 20 more stable, so as to prevent the guide pin 120 from being offset and affecting the conduction of the light strip 20.
When in use, the lamp strip 20 is contacted with the contact end 122 of the guide pin 120, the conductive end 121 of the guide pin 120 is connected with an external terminal to receive electric energy, the lamp strip 20 can directly receive electric energy through the contact of the guide pin 120, the problem that the traditional lamp strip 20 needs to receive electric energy in a welding line mode is solved, the lamp strip 20 and the plug are contacted in a welding line-free mode, so that the lamp is conductive, metal welding materials are saved without welding, the environment-friendly and energy-saving effects are achieved, high energy consumption and electricity consumption during welding are omitted, low carbon and energy conservation are achieved, and material waste due to welding errors is avoided.