CN218548842U - Integrated socket electrode structure - Google Patents

Abstract

The utility model relates to a supply socket field, in particular to integral type socket electrode structure. The structure comprises a base, conductors and conductive elastic sheets, wherein jacks are arranged on the base, the bottom of each jack is butted with one conductive elastic sheet, the conductive elastic sheets corresponding to the jacks are respectively connected onto one conductor, one end of each conductor is externally connected with one of the phase interfaces of a multi-phase power supply, and the connection mode of the conductive elastic sheets and the conductors comprises integrated forming connection. The structure integrates the elastic sheet and the conductor, and effectively solves the problems of unreliable performance, complex installation, high cost and the like caused by the traditional welding. The convenient and efficient innovation scheme is provided for flexible customization of the data center power distribution product, and the working procedures are simplified while the product quality is improved.

Description

Integrated socket electrode structure

Technical Field

The utility model relates to a supply socket field, in particular to integral type socket electrode structure.

Background

In the socket module of traditional data center distribution product, its inside shell fragment and the electric conductor that is used for electrically conducting is connected through the welded mode, and the structure is complicated, and the installation is difficult in the socket, and is with high costs, welds easily to produce the rosin joint moreover, leads to the product reliability poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides an integral type socket electrode structure aims at solving the installation difficulty that leads to through welded shell fragment and electric conductor connected mode now, problem with high costs, reliability difference.

The utility model provides an integral type socket electrode structure, including base, conductor, electrically conductive shell fragment, be equipped with the jack on the base, every the jack bottom all docks an electrically conductive shell fragment, every the electrically conductive shell fragment that the jack corresponds respectively connects on a conductor, every one of them looks interface of the external heterogeneous power of one end of conductor, the connected mode of electrically conductive shell fragment and conductor includes integrated into one piece and connects.

As a further improvement, the connection mode of the conductive elastic sheet and the conductor further comprises butt welding, spot welding and press riveting.

As a further improvement of the utility model, each the conductor is connected with at least one conductive elastic sheet.

As a further improvement, the utility model comprises a plurality of bases arranged side by side, every the conductor runs through the homophase jack of a plurality of bases, every be connected with a plurality of electrically conductive shell fragments that correspond with base jack position on the conductor.

As a further improvement, the conductor is formed by mutually laminating and welding two conductors.

As a further improvement, the conductive elastic sheet comprises a first elastic sheet, a second elastic sheet and a transition elastic sheet, one end of the first elastic sheet is connected with the conductor, the other end of the first elastic sheet is connected with the second elastic sheet through the transition elastic sheet, the first elastic sheet and the second elastic sheet are arranged relatively, and the top ends of the first elastic sheet and the second elastic sheet are provided with conductive contact surfaces connected with a plug.

As a further improvement, the transition elastic sheet is an arc-shaped elastic sheet.

As a further improvement of the utility model, the end of the conductive contact surface is provided with an everted guide surface.

As a further improvement, the conductive elastic piece further comprises a reverse-buckling elastic piece, the reverse-buckling elastic piece is arranged below the first elastic piece and the second elastic piece, the base is provided with an inward protruding stop dog, the stop dog is arranged at the bottom of the jack, when the conductive elastic piece is connected in the jack, the reverse-buckling elastic piece is connected to the stop dog.

The beneficial effects of the utility model are that: the structure integrates the elastic sheet and the conductor, and effectively solves the problems of unreliable performance, complex installation, high cost and the like caused by the traditional welding. The convenient and efficient innovation scheme is provided for flexible customization of the data center power distribution product, and the working procedures are simplified while the product quality is improved.

Drawings

Fig. 1 is an overall structural diagram of the electrode structure of the integrated socket of the present invention;

FIG. 2 is a diagram of the connection structure between the conductor and the conductive elastic sheet of the present invention;

fig. 3 is a structural diagram of a single conductive elastic sheet in the present invention;

fig. 4 is a sectional view of the structure of the connection between the middle conductive elastic sheet and the socket jack.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to fig. 3, the utility model discloses an integral type socket electrode structure, including base 1, conductor 2, electrically conductive shell fragment 3, be equipped with jack 4 on the base 1, every jack 4 bottom all docks an electrically conductive shell fragment 3, and electrically conductive shell fragment 3 that every jack 4 corresponds respectively connects on a conductor 2, one of them looks interface of the external multiphase power of one end of every conductor 2, and electrically conductive shell fragment 3 and conductor 2's connected mode includes integrated into one piece and connects.

Each conductor 2 is connected with at least one conductive elastic sheet 3. The structure comprises a plurality of bases 1 which are arranged side by side, each conductor 2 penetrates through in-phase jacks 4 of the bases 1, and each conductor 2 is connected with a plurality of conductive elastic sheets 3 corresponding to the jacks 4 of the bases 1.

The conductive elastic pieces 3 and the conductors 2 are of an integrated punch forming structure, the length of the conductors 2 can be lengthened to adapt to the change of the number according to the number of different sockets and the number of different jacks, meanwhile, the conductive elastic pieces 3 of a plurality of numbers can be designed to adapt to the number of the jacks 4 according to the number requirement on the conductors 2, and the single conductor 2 and the plurality of conductive elastic pieces 3 also adopt an integrated forming mode.

The connection mode of the conductive elastic sheet 3 and the conductor 2 also comprises butt welding, spot welding and press riveting connection. On the basis that part of the jacks 4 are integrally formed by the conductive elastic sheets 3 and the conductors 2, the conductive elastic sheets 3 and the conductors 2 of part of the jacks 4 can also be connected by adopting the existing butt-welding, spot-welding and other welding technologies so as to realize diversified customization modes.

The conductor 2 is formed by mutually attaching and welding two conductors 2. The cross section of the conductor 2 can be expanded in a mode of overlapping, touching and welding a plurality of pieces of conductors 2 according to the current-carrying capacity requirement, so that the bearing capacity of the whole equipment is improved.

As shown in fig. 3, the conductive elastic sheet 3 includes a first elastic sheet 31, a second elastic sheet 32, and a transition elastic sheet 33, one end of the first elastic sheet 31 is connected to the conductor 2, the other end of the first elastic sheet 31 is connected to the second elastic sheet 32 through the transition elastic sheet 33, the first elastic sheet 31 and the second elastic sheet 32 are disposed oppositely, and the top ends of the first elastic sheet 31 and the second elastic sheet 32 are provided with conductive contact surfaces connected to a plug.

The transition spring 33 is preferably an arc spring. Meanwhile, the arc-shaped elastic sheet can adjust the position of the first elastic sheet 31 to be opposite to that of the second elastic sheet 32, and elastic force capable of deforming is provided between the first elastic sheet 31 and the second elastic sheet 32, so that the first elastic sheet 31 and the second elastic sheet 32 can be tightly attached to the conductive sheet of the plug through elastic fit when the plug is inserted.

The conductive contact surface is terminated by an outwardly turned guide surface 34. The guiding surface 34 plays a role of guiding when the plug conductive sheet is inserted, so that the plug conductive sheet can accurately slide into the position between the first elastic sheet 31 and the second elastic sheet 32 along the conductive surface.

As shown in fig. 4, the conductive elastic sheet 3 further includes a reverse elastic sheet 35, the reverse elastic sheet 35 is disposed below the first elastic sheet 31 and the second elastic sheet 32, the base 1 is provided with a stop 5 protruding inward, the stop 5 is located at the bottom of the insertion hole 4, and when the conductive elastic sheet 3 is connected in the insertion hole 4, the reverse elastic sheet 35 abuts against the stop 5. When the conductive elastic sheet 3 is installed, the top of the conductive elastic sheet is inserted into the base 1, the reverse-buckled elastic sheet 35 can be elastically opened to two sides under the action of elastic force to clamp the inner wall of the base 1 and prop against the stop block 5, and the conductive elastic sheet 3 is not easy to fall off from the bottom after being installed directly through the clamping mode of the reverse-buckled elastic sheet 35, so that the installation is safe and reliable.

The elastic sheet and the electric conductor are integrated through the structure, welding can be omitted, and the structure is simple, easy to install, low in cost and high in product reliability. Meanwhile, the method can be combined with practical application, meets the personalized customization requirement, and is flexibly applied to power distribution products by combining the existing technologies such as butt welding, spot welding or pressure riveting.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (9)

1. The utility model provides an integral type socket electrode structure, its characterized in that includes base, conductor, electrically conductive shell fragment, be equipped with the jack on the base, every the jack bottom all docks an electrically conductive shell fragment, every electrically conductive shell fragment that the jack corresponds respectively connects on a conductor, every one of them looks interface of the external multiphase power of one end of conductor, the connected mode of electrically conductive shell fragment and conductor includes integrated into one piece and connects.

2. The integrated socket electrode structure of claim 1, wherein the conductive clip and the conductor are connected by a method selected from the group consisting of butt welding, spot welding, and clinch connection.

3. The integrated socket electrode structure of claim 1, wherein at least one conductive clip is attached to each of the conductors.

4. The integrated socket electrode structure of claim 3, comprising a plurality of bases arranged side by side, wherein each of the conductors extends through the same-phase jacks of the plurality of bases, and each of the conductors is connected to a plurality of conductive clips corresponding to the jacks of the bases.

5. The integrated socket electrode structure of claim 1, wherein the conductor comprises two pieces of conductors bonded together and welded together.

6. The integrated socket electrode structure of claim 1, wherein the conductive elastic sheet comprises a first elastic sheet, a second elastic sheet and a transition elastic sheet, one end of the first elastic sheet is connected with the conductor, the other end of the first elastic sheet is connected with the second elastic sheet through the transition elastic sheet, the first elastic sheet and the second elastic sheet are arranged oppositely, and the top ends of the first elastic sheet and the second elastic sheet are provided with conductive contact surfaces connected with the plug.

7. The integrated socket electrode structure of claim 6, wherein the transition spring is an arc spring.

8. The unitary socket electrode structure of claim 6, wherein said conductive contact surface terminates with an outwardly turned guide surface.

9. The integrated socket electrode structure of claim 6, wherein the conductive spring further comprises a reverse spring, the reverse spring is disposed below the first spring and the second spring, the base is provided with a stop protruding inwards, the stop is located at the bottom of the socket, and when the conductive spring is connected in the socket, the reverse spring abuts against the stop.

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